4,013 results on '"DIC"'
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2. Smartphone-Based Digital Image Correlation for Vibrating Structures
- Author
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Occhipinti, Serena, Chevreau, Tristan, Neri, Paolo, Firrone, Christian M., Botto, Daniele, Zimmerman, Kristin B., Series Editor, Baqersad, Javad, editor, Di Maio, Dario, editor, and Rohe, Dan, editor
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- 2025
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3. Full Field Stereo DIC and Sensor Merging for an FE Model Validation
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Mastrodicasa, Davide, Di Lorenzo, Emilio, Peeters, Bart, Guillaume, Patrick, Zimmerman, Kristin B., Series Editor, Baqersad, Javad, editor, Di Maio, Dario, editor, and Rohe, Dan, editor
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- 2025
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4. Interfacial cohesion model of ultra‐high performance concrete wet joints under the influence of multiple factors.
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Wang, Tao, Xu, Jun, Du, Dagang, Su, Chuanye, and Shi, Xiaofei
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DIGITAL image correlation , *INTERFACIAL roughness , *CONCRETE joints , *PRECAST concrete , *INTERFACIAL bonding , *COHESION - Abstract
The interfacial cohesion between precast normal concrete (NC) and cast‐in‐place ultra‐high performance concrete (UHPC) is an important index to evaluate their interfacial bond strength, which is of great importance for the application of UHPC as a connection material for precast structural bridges. Interfacial cohesion is related to several influencing factors. However, there needs to be more research on the interrelationship model between multiple influencing factors and interfacial cohesion. This study took the UHPC wet joint in a precast concrete structure as the object. First, the relationship between the interface cohesion of UHPC wet joint and substrate strength, UHPC age, interfacial roughness, interfacial moisture content, and curing method was studied; The result shows that the key factors affecting interfacial cohesion include UHPC age, interface roughness, and substrate strength, with interfacial moisture content potentially playing a secondary role. Second, the failure types of the interface zone surface by using digital image correlation (DIC) are divided into three categories. Finally, the quantitative mathematical model of interfacial cohesion under the coupling effect of multiple factors was established based on the above four factors. The model is in good agreement with the experimental data. [ABSTRACT FROM AUTHOR]
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- 2024
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5. Enhancement of oleaster (Elaeagnus angustifolia L.) flour properties via instant controlled pressure drop (DIC) technique.
- Author
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Şahin, Nazlı
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PRESSURE drop (Fluid dynamics) , *FOOD texture , *BIOACTIVE compounds , *OXIDANT status , *COPPER , *TRACE elements - Abstract
Summary: The instant controlled pressure drop (DIC) technology represents a highly efficient and eco‐friendly process that enhances the texture of food matrices. In this study, oleaster flour (OF) was subjected to DIC treatment at varying pressures (200 and 500 kPa) and processing times (30, 60, and 120 s) for the purpose of analysing its techno‐functional, chemical, concentration of bioactive components, and structural properties. The results demonstrated statistically significant differences between the untreated and DIC‐treated OF samples (P < 0.05). The application of DIC treatment resulted in a notable enhancement in the water activity, fat, ash, SDF, bound phenolic content, and antioxidant capacity of the OF (P < 0.05). The mineral content and structural properties were analysed in two samples of OF (DIC‐treated at 200 and 500 kPa for 60 s), which were selected for their superior bioactive components in comparison to the untreated OF. The 200 and 500‐kPa 60‐s DIC treatment also enhanced the mineral (Cu, Na, Mn, Mg, P, Ca, Fe, and K) and structural properties of OF, thereby rendering it a more functional flour. The utilisation of the DIC method enhances the overall quality of the end product, resulting in a visually acceptable appearance, an extended shelf life and heightened nutritional content, thereby rendering the product more practical and convenient. [ABSTRACT FROM AUTHOR]
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- 2024
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6. Research on the impact performance of polyurethane coating on the steel structure surface.
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Hao, Yunhong, Xuan, Jiaoyu, and Wang, Ting
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PROTECTIVE coatings , *DIGITAL image correlation , *SUBSTRATES (Materials science) , *IMPACT loads , *IMPACT testing - Abstract
Focusing on the 3060 Goal, China builds a large energy base in Inner Mongolia. The steel structure facilities are subjected to long-term impacts from hard particles in the desert environment. Damage to the surface coatings of the steel structures resulted in reduced durability, and safety. The impact test of polyurethane coating was carried out by using an automatic ball impactor, the strain field of PU coating under impact load was collected by combining with Digital Image Correlation, the damage degree of PU coating was investigated by using Laser Scanning Confocal Microscopy, and elastic-plastic properties of PU coating were also studied. The results show that at the same impact height, the indentation depth of the substrate was Steel substrate > PU coating-steel substrate bilayer system, indicating that the PU coating played a better role in protecting the steel substrate. The compressive strain area at the impact contact point of the PU coating-steel substrate bilayer system increased with the increase of impact height, and the surface of the coating appeared to have different degrees of cracks and spalling. The dynamic hardness increases and then decreases with the increase of impact height, and the dynamic hardness value is the largest when the impact height is 30 cm. HIGHLIGHTS: The strain field distribution of polyurethane coatings under impact loading was studied in combination with DIC, and the crack extension of polyurethane coatings was analyzed using LSCM. The elastic-plastic characteristics of polyurethane coatings were investigated The research results provide a basis for the preparation of protective coatings for steel structures in special environments [ABSTRACT FROM AUTHOR]
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- 2024
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7. On the Competition between Pores and Hidden Entrainment Damage during In Situ Tensile Testing of Cast Aluminum Alloy Components.
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Olofsson, Jakob, Bogdanoff, Toni, and Tiryakioğlu, Murat
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The competition between pores and hidden entrainment defects during tensile testing of specimens from Al-Si-Cu alloy high-pressure die castings has been characterized. In all tests, multiple strain concentrations have been identified by using the digital image correlation technique and the final fracture has been preceded by a competition between pores and hidden damage, later identified as oxide bifilms. The results have confirmed previous findings that overall damage to the metal during its liquid state is much more extensive than what can be assessed via X-ray inspection, which looks only for pores. It is concluded that current quality assurance techniques need to be updated. [ABSTRACT FROM AUTHOR]
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- 2024
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8. Effects of Static Strain Aging on Mechanical Performance of Ductile Cast Iron.
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Björklund, Ville, Hänninen, Hannu, and Bossuyt, Sven
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NODULAR iron ,DIGITAL image correlation ,YIELD stress ,YIELD strength (Engineering) ,TENSILE tests - Abstract
EN-GJS-400-15U nodular cast iron intended to be used as load-bearing element in long-term geological disposal canisters containing spent nuclear fuel in Finland and Sweden was studied for static strain aging (SSA). Tensile test specimens manufactured from the nodular cast iron were pre-strained to 1%, 2% and 3% nominal plastic strains. The pre-strained specimens were aged at different temperatures ranging from room temperature to 400 °C for varying times. The aged specimens were tested with conventional tensile testing using constant cross-head speed of 0.016 mm/s. Additionally, four specimens were studied with digital image correlation (DIC) during the tensile testing to obtain full-field strain measurements. SSA resulted in elevated pronounced yield point in all the conditions, while the as-received material showed continuous yielding behavior. SSA reduced the elongation to fracture. DIC tests showed more localized yielding behavior in the SSA specimens. Over-aging effect was observed at 400 °C where increasing pre-strain did not increase the yield stress more. For 1-day aging time, the highest yield stress increment was found after aging at 200°C. The yield stress of the material was almost identical after aging in 100°C and 200°C. [ABSTRACT FROM AUTHOR]
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- 2024
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9. Influence of Fiber Orientation on Mechanical Response of Jute Fiber-Reinforced Polymer Composites.
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Iquilio, Roberto, Valín, José Luis, Villalobos, Kimio, Núñez, Sergio, González, Álvaro, and Valin, Meylí
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FIBER orientation , *FIBER-reinforced plastics , *DIGITAL image correlation , *COMPOSITE plates , *NATURAL fibers , *FIBROUS composites - Abstract
The influence of fiber orientation on the mechanical behavior of a polymer matrix composite reinforced with natural jute fibers is investigated in this study. Two fiber orientation configurations are examined: the first involves woven fibers aligned in the direction of testing, while the second considers a 45° orientation. The research involves manufacturing composite plates using jute fabric with the mentioned orientations, followed by cutting rectangular specimens for tensile testing to determine which orientation yields superior properties. Displacement fields are measured using a digital image correlation technique, synchronized with load data obtained from a universal testing machine equipped with a load cell to obtain stress–strain curves for each configuration. Results indicate that 0° specimens achieve higher stress but lower strain compared to 45° specimens. This research contributes to understanding the optimal fiber alignment for enhancing the mechanical performance of fiber-reinforced polymer composites. [ABSTRACT FROM AUTHOR]
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- 2024
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10. Suitability of DIC in capturing flexural behaviour of as-built and CFRP-strengthened RC beams.
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Kadhom, Bessam, Simova, Eli, Zhang, Jieying, and Krys, Dennis
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CONCRETE beams , *DIGITAL image correlation , *STRAIN gages , *STRAIN sensors , *BEND testing - Abstract
In this paper, the suitability of digital image correlation (DIC) technology in evaluating the flexural behaviour of as-built and carbon-fiber-reinforced polymer (CFRP) strengthened reinforced concrete beams was verified by conducting a four-point bending test on four large-size beams. The DIC data obtained during the tests were compared to the results measured using traditional techniques such as displacement sensors and electrical strain gauges, as well as the findings derived from finite element (FE) numerical simulations. A good agreement was achieved between the local displacement and strain measurements and the data from DIC as a function of the applied load. Moreover, the crack patterns generated by the FE modelling were validated by the corresponding patterns derived from DIC. This suitability study is expected to contribute to the future field implementation of DIC technology to monitor the CFRP-strengthened members of critical structures such as bridges. [ABSTRACT FROM AUTHOR]
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- 2024
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11. Development of a loading and diagnostic system to study laboratory earthquakes.
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Chen, Rong, Xu, Ying, Li, Xuan, Yao, Wei, Huang, Sheng, and Zhao, Qi
- Abstract
Studies on spontaneous rupture mechanisms are limited because using existing experimental apparatuses is difficult to accurately observe parameters related to the rupture (e.g., slip history and frictional properties of fault). This study proposes multiple diagnostic systems combined with a biaxial loading device to study the rupture mechanism. Two isosceles right triangle PMMA plates are held together to form a fault model. The spontaneous rupture is achieved under various friction angles through different combinations of the x-axis and y-axis loading forces. A digital image correlation (DIC) method is systematically used to measure displacement and stress fields along the fault during rupture, thus accurately quantifying rupture velocity and stress distribution. Accelerometers are used to measure seismic waves. In this experiment, the supershear rupture can be detected, and the potential energy and the energy consumed are discussed. Typical results prove the feasibility and flexibility of the proposed system. [ABSTRACT FROM AUTHOR]
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- 2024
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12. High-temperature tensile strength of alumina-spinel refractory by Brazilian test at 1200°C coupled with DIC in-situ monitoring.
- Author
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Darban, Sina, Jastrzębska, Ilona, Gillibert, Jean, Prorok, Ryszard, Sayet, Thomas, Blond, Eric, and Szczerba, Jacek
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TENSILE strength , *MATERIALS testing , *ALUMINUM oxide , *BRITTLE fractures , *REFRACTORY materials - Abstract
This study investigated for the first time the corrosion effect of Al 2 O 3 -MgAl 2 O 4 refractory by steel ladle slag using a DIC-coupled Brazilian test at 1200 °C. Three types of alumina-spinel materials were used in the test, namely, original non-infiltrated refractory, slag-infiltrated at 1450 °C as well as postmortem refractory after 69 cycles of work in the sidewalls of steel ladle. Lab infiltration was conducted at 1450 °C using CaO-Al 2 O 3 -SiO 2 -based ladle slag and its analog enriched with manganese (10 % MnO). The tensile strength of postmortem material at 1200 °C was the highest at 10.7 MPa, and it was 52 % and 70 % higher than for reference and MnO-enriched slag, respectively, and 80 % higher than for original refractory. The significantly raised tensile strength of slag-infiltrated materials vs. original non-infiltrated brick was directly related to the densification of microstructure by corrosion products (mainly CA 6 , CA 2 , Fe) which caused the infiltrated materials to be stiffer and with a more brittle nature to fracture. • DIC-coupled Brazilian test at 1200 °C of corroded material was tested for the first time. • Original, lab-infiltrated and post-mortem Al 2 O 3 -MgAl 2 O 4 refractory was tested. • Post-mortem brick had almost 80 % higher tensile strength than the original brick. • Corroded materials were revealed to fracture more brittle than the original brick. [ABSTRACT FROM AUTHOR]
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- 2024
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13. TOTAL ANTIOXIDANT CAPACITY, TOTAL OXIDANT STATUS, D-DIMER AND NITRIC OXIDE LEVELS IN DOGS WITH PARVOVIRAL ENTERITIS.
- Author
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BAŞER, D. F., CINGI, C. C., FIDAN, A. F., and URAL, K.
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OXIDANT status , *DISSEMINATED intravascular coagulation , *NITRIC oxide , *DOGS , *ENTERITIS , *MAST cell tumors - Abstract
Canine parvoviral enteritis remains one of the commonest causes of death in young dogs. This study aimed to determine serum total antioxidant capacity (TAC) and total oxidant status (TOS) levels in dogs with canine parvoviral enteritis (CPV) and reveal the risk factors of DIC formation. Thirty dogs were included in the study. The dogs were divided into two groups; the first group consisted of 20 dogs diagnosed with CPV (study group) and the other group consisted of 10 healthy dogs aged 0-12 months (control group). The mean TAC value was 0.354±0.018 mmol Trolox equiv./L in the control group and 0.295±0.007 mmol Trolox equiv./L in the study group. The mean TOS level was determined as 6.539±0.154 µmol H2O2/L in the control group and 7.934±0.364 µmol H2O2/L in the study group. The mean nitric oxide (NO) concentration was 18.613±0.856 µmol/L in the control group and 21.781±0.913 µmol/L in the study group. D-dimer levels were found to be 0.170±0.070 mg/dL in the control group and 2.585±0.584 mg/dL in the study group. As a result, it was demonstrated that it is essential to consider that oxidative stress increases and antioxidant capacity decreases in dogs with CPV and that disseminated intravascular coagulation (DIC) may develop in dogs with CPV. It is thought that considering oxidative stress and DIC during the treatment may contribute positively to prognosis and survival. [ABSTRACT FROM AUTHOR]
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- 2024
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14. 玻璃粉和生物炭对砂浆塑性收缩 及开裂行为的影响.
- Author
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罗浩然, 刘 惠, 周一一, Amardeep Singh, and 刘 琼
- Abstract
Copyright of Bulletin of the Chinese Ceramic Society is the property of Bulletin of the Chinese Ceramic Society Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2024
15. Large Porewater‐Derived Carbon Outwelling Across Mangrove Seascapes Revealed by Radium Isotopes.
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Cabral, Alex, Reithmaier, Gloria M. S., Yau, Yvonne Y. Y., Cotovicz, Luiz C., Barreira, João, Viana, Bárbara, Hayden, Juliana, Bouillon, Steven, Brandini, Nilva, Hatje, Vanessa, de Rezende, Carlos E., Fonseca, Alessandra L., and Santos, Isaac R.
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ATMOSPHERIC carbon dioxide ,RADIUM isotopes ,CARBON sequestration ,CLIMATE change mitigation ,MANGROVE forests - Abstract
Mangrove‐dominated coastlines have high carbon sequestration capacity, but it remains unclear whether tidally outwelled carbon is transformed within the coastal ocean or exported offshore. Here, we used radium isotopes (224Ra and 223Ra) to investigate carbon outwelling in two mangrove seascapes in Brazil across multiple spatial scales. We sampled porewaters to define the source composition, mangrove creek waters to resolve tidal cycles, and cross‐shelf transects to trace outwelling in coastal seascapes. Radium isotopes were positively correlated with dissolved inorganic (DIC), organic (DOC) and particulate organic (POC) carbon across the seascapes. DIC was the primary form of carbon (mean ± SD), representing 85% of the total carbon pool as bicarbonate (75 ± 11%), carbonate (6 ± 5%), and CO2 (4 ± 9%). DOC and POC accounted for 10 ± 6% and 5 ± 6% of total carbon, respectively. Although mangrove waters emitted CO2 to the atmosphere (38–143 mmol m−2 d−1), both bays and continental shelves were a CO2 sink (−2.5 to −0.5 mmol m−2 d−1) associated to chlorophyll‐a enrichments (r2 = 0.86). Total carbon outwelled from mangroves were 3–4 times higher than soil carbon burial at both mangrove sites. Bicarbonate export (27–72 mmol m−2 d−1) to the continental shelf was the major fate of carbon outwelling, more than doubling the perceived capacity of mangrove soil to sequester carbon. Hence, disregarding outwelling as a blue carbon sink mechanism would lead to underestimated assessments of how mangroves capture CO2 and help to mitigate climate change. Plain Language Summary: Mangrove forests effectively store large amounts of carbon within their muddy soils due to their complex root systems, high sedimentation rates, and high productivity. Mangroves also play a crucial role in exporting carbon to the ocean through tidal flushing and climate change mitigation. Here, we measured overlooked lateral carbon fluxes using geochemical tracers. Our findings demonstrated that mangroves could sequester 3–4 times more CO2 if total carbon exports to ocean are accounted in addition to soil carbon burial. Most of the carbon is exported as bicarbonate, with the potential to remain in seawater for millennia. We argue that a fraction of mangrove carbon is not lost during transport offshore, but rather stored in the ocean, the largest global carbon reservoir. Key Points: Porewater exchange is a pivotal component of the carbon budget within mangrove seascapesMangrove carbon outwelling oscillates between tidal cycles and reaches the continental shelf within 1–3 weeksCarbon sequestration via outwelling to the ocean was 3–4 times greater than soil burial [ABSTRACT FROM AUTHOR]
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- 2024
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16. Experimental Characterization of Anisotropic Mechanical Behaviour and Failure Mechanisms of Hardened Printed Concrete.
- Author
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Glotz, Theresa and Petryna, Yuri
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YOUNG'S modulus , *TECHNOLOGICAL innovations , *MANUFACTURING processes , *FRACTURE mechanics , *MECHANICAL failures - Abstract
Extrusion-based printing of cementitious materials represents an innovative technology in civil engineering. The additive manufacturing process significantly influences the material properties in the hardened state, leading to anisotropic behaviour in terms of stiffness and strength compared to conventionally cast concrete. This experimental study aims to deepen the understanding of the mechanical behaviour of hardened printed concrete. Beam-like specimens with varying printing patterns, loading orientations and lengths are investigated within three-point bending tests (3PBT) and uniaxial compression tests (UCT). Homogenized material parameters such as Young's modulus, compressive and flexural tensile strength and density are statistically evaluated using optically measured displacement and strain fields on the specimen surface. The qualitative and quantitative results demonstrate a strong dependency of material properties and failure mechanisms on the printing pattern. The interfilamental and interlayer areas with weak adhesion are identified as the main reason for anisotropy. [ABSTRACT FROM AUTHOR]
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- 2024
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17. A STUDY TO COMPARE THE SEVERITY AND OUTCOME OF NEONATAL BLEEDING AND ANALYSIS OF VARIOUS CAUSES OF NEONATAL BLEEDING AND THEIR CORRELATION WITH MATERNAL FACTORS.
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Dwivedi, Neha and Prashant, Swati
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NEONATAL intensive care units , *PREMATURE infants , *HEMORRHAGIC diseases , *VITAMIN K ,MORTALITY risk factors - Abstract
Introduction: Bleeding in neonates is a significant cause of morbidity and mortality in the neonatal period. The early identification of bleeding and its cause (bleeding or clotting disorder) is very important for the appropriate management and for prognostication. Material & Methods: After obtaining institutional ethics committee approval, 21 patients with diagnosis of onset of hemorrhagic disorder were recruited from 550 patients admitted to the Neonatal Intensive Care Unit (NICU) after obtaining written informed consent from their parents/guardians. A detailed history including family history, maternal history and perinatal history was recorded. Thorough assessment and relevant investigations were done for all 21 patients diagnosed with bleeding disorder out of 550 patients. Duration of hospital stay and immediate outcome i.e.-Morbidity and mortality in such neonates were noted. Results: The incidence of bleeding in neonates was 3.8%. Thrombocytopenia was major cause for bleeding [8(38.1%)] followed by VKDB [5 (24%)]. VLBW babies (19.04%) and preterm babies (11.1%) had a statistically significant risk of bleeding. 71.4% (15/21) of neonates had bleeding in the first week of life. 14.3% (3/21) of NICU deaths were in the neonates with bleeding which indicates that bleeding constituted a significant risk factor for mortality in NICU. The outcome in the VKDB was dismal (67% mortality and 33% neurologic sequelae) A statistically significant correlation was found between maternal factors such as Gestational Age<34 weeks, History of Instrumental delivery, history of maternal fever and Anaemia Conclusion: Early and prompt diagnosis of hemorrhagic disease of the newborn can alleviate the devastating consequences. [ABSTRACT FROM AUTHOR]
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- 2024
18. A study of critically ill obstetric patients admitted to intensive care unit of a tertiary care hospital.
- Author
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Syed, Wajeeha, Liaqat, Nazia, Ashraf, Muhammad Shehryar, and Khan, Nayab
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INTENSIVE care patients , *CRITICALLY ill , *TERTIARY care , *ECLAMPSIA , *ACUTE kidney failure , *HOSPITAL admission & discharge - Abstract
Objectives: To evaluate characteristics, indications, complications and outcome of obstetric patients admitted to ICU of tertiary care hospital in KPK, Pakistan. Methods: This descriptive study was conducted in department of OBGYN of Lady Reading Hospital, Peshawar from January 2021 till December 2021. A total of 62 patients were enrolled into the study using nonprobability consecutive sampling technique. Their data were collected on a proforma. All patients were followed till their death or discharge home from hospital. Results: The mean duration of ICU stay of patients, was 6.85±4.82 days. Out of 62 patients 17 (27.41%) expired in ICU, while 45 (72.58%) patients survived and were discharged. Pre-eclampsia and Eclampsia was the commonest primary diagnosis, accounting for 28 cases (45.2%) with a case fatality rate of 25%, followed by 13 cases (21%) of primary postpartum hemorrhage (PPH) as the second commonest reason for ICU admission and a case fatality rate of 38%. The underlying primary diagnosis had no statistically significant association with outcome of the patient. Acute Renal failure had statistically significant association with outcome of the patient with adjusted OR 4.79, CI:1.17-19.66, p-0.02. Similar positive association with mortality existed for patients having DIC (aOR:6.59; CI:1.34-32.34, p-0.02). Conclusion: Pre-eclampsia/Eclampsia is the commonest reason for intensive care admission, however PPH has the highest case fatality rate. The outcome of critically ill obstetric patients is dependent on complications and not primary underlying diagnosis. [ABSTRACT FROM AUTHOR]
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- 2024
- Full Text
- View/download PDF
19. An energy-based analytical model for adhesively bonded stepped and simple-lap joined CFRP laminates.
- Author
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Sonwani, Hetram, Ramji, M., and Sidhardh, Sai
- Subjects
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ADHESIVE joints , *CARBON fiber-reinforced plastics , *LAP joints , *DIGITAL image correlation , *LAMINATED materials , *FINITE differences - Abstract
An energy-based analytical model is proposed here to investigate the mechanical behavior of adhesively bonded simple-lap and stepped-lap joints (SLJ) with carbon fiber-reinforced polymer (CFRP) adherends subjected to tensile loading. In this study, the CFRP uni-directional (UD) adherends of [ 0 ] 16 and quasi-isotropic (QI) layup sequence of [ 45 / - 45 / 0 / 90 ] 2 s are considered to be joined. The governing differential equations (GDEs) of equilibrium are derived for the adhesively bonded adherends in stepped lap joint configuration following an energy-based approach. Additionally, this model is reduced for GDEs of the simple-lap joint configuration. The finite difference scheme is employed to obtain the numerical solution of the proposed analytical model. The field distributions of strain and displacement over the specimen surfaces are captured in the experimental investigation using the full field technique of 2D digital image correlation (DIC). The analytical model generates the load–displacement curve, validated against experimental and finite element (FE) predictions. Additionally, a sensitivity analysis is conducted to assess the influence of the design parameters of the adhesive joint, including the thickness of the adhesive layer, length of overlap region, and elastic modulus. Finally, the analytical model prediction of the peak load for damage in adhesively bonded joints under shear loading is compared with experimental results. The developed analytical model provides an understanding of the mechanical behavior, including possible failure/critical locations of the adhesive joints from the design perspective. [ABSTRACT FROM AUTHOR]
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- 2024
- Full Text
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20. 试样尺寸对击实黏土抗拉特性的影响研究.
- Author
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凌会坤, 王俊杰, 黄诗渊, 吕川, and 李林洁
- Abstract
Copyright of China Rural Water & Hydropower is the property of China Rural Water & Hydropower Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
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- 2024
- Full Text
- View/download PDF
21. Total antioxidant capacity, total oxidant status, D-dimer and nitric oxide levels in dogs with parvoviral enteritis
- Author
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D. F. Başer, C. C. Cıngı, A. F. Fidan, and K. Ural
- Subjects
canine parvoviral enteritis ,coagulation ,dic ,tac ,tos ,Veterinary medicine ,SF600-1100 - Abstract
Canine parvoviral enteritis remains one of the commonest causes of death in young dogs. This study aimed to determine serum total antioxidant capacity (TAC) and total oxidant status (TOS) levels in dogs with canine parvoviral enteritis (CPV) and reveal the risk factors of DIC formation. Thirty dogs were included in the study. The dogs were divided into two groups; the first group consisted of 20 dogs diagnosed with CPV (study group) and the other group consisted of 10 healthy dogs aged 012 months (control group). The mean TAC value was 0.354±0.018 mmol Trolox equiv./L in the control group and 0.295±0.007 mmol Trolox equiv./L in the study group. The mean TOS level was deter-mined as 6.539±0.154 μmol H2O2/L in the control group and 7.934±0.364 μmol H2O2/L in the study group. The mean nitric oxide (NO) concentration was 18.613±0.856 μmol/L in the control group and 21.781±0.913 μmol/L in the study group. D-dimer levels were found to be 0.170±0.070 mg/dL in the control group and 2.585±0.584 mg/dL in the study group. As a result, it was demonstrated that it is essential to consider that oxidative stress increases and antioxidant capacity decreases in dogs with CPV and that disseminated intravascular coagulation (DIC) may develop in dogs with CPV. It is thought that considering oxidative stress and DIC during the treatment may contribute positively to prognosis and survival.
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- 2024
- Full Text
- View/download PDF
22. Characterization of elastic modulus at glass/fiber interphase using single fiber composite tensile tests and utilizing DIC and FEM.
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Hosseini-Toudeshky, Hossein and Navaei, Azizollah
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DIGITAL image correlation , *TENSILE tests , *GLASS fibers , *EPOXY resins , *SCANNING electron microscopy - Abstract
The bonding performance and formation of the interphase region between fiber and matrix have significant effects on the strength and durability of composites. A new approach, involving combined experimental and numerical analyses, has been developed to avoid the shortcomings and scattering associated with local experimental methods. For this purpose, tensile tests are performed on specimens fabricated from a single glass fiber and epoxy resin. The elongations for specified lengths are measured using the digital image correlation (DIC) technic. The size of the fiber diameter and specimen section are also measured from SEM images. The obtained experimental displacements for micro tensile tests are used in an inverse elastic finite element solution to obtain the interphase elastic modulus. It is shown that, considering the interphase thickness of 1.0 μm that is more realistic, the interphase elastic modulus is in the range of 12 ∼ 19 GPa. However, the performed sensitivity analysis shown that considering interphase thickness ranging from zero to 2.0 μm the interphase elastic modulus varies between 9 and 46 GPa. It is shown that the proposed procedure can be used to obtain the overall mechanical properties of the matrix/fiber interphase in long fiber composites. [ABSTRACT FROM AUTHOR]
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- 2024
- Full Text
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23. Analyses of bending performance of innovative paper-based sandwich beams with cup-box core.
- Author
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Tavares da Costa, Marcus Vinícius, Perstorper, Mikael, and Vessby, Johan
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SANDWICH construction (Materials) , *FINITE element method , *MATERIALS testing , *STRUCTURAL models , *STRUCTURAL mechanics - Abstract
Paper-based materials are being alternative candidates to build load-bearing components for the high demanding building sector to be committed to the green transition, but more knowledge of structural mechanics of such components is needed. In this work, three categories of innovative load-bearing sandwich beams with cup-box core fully made of different paper materials were produced, tested and analyzed in four-point bending. The first failure mode was observed at the top facesheets due to the low compressive strength of paper materials; Beams with thin facesheets had premature buckling failure, whereas those with thicker facesheets exhibited ductility reaching higher deflection before the compressive failure. The developed finite element model, calibrated with the experiments for the equivalent bending and shear rigidities, provided figures of the modulus of the facesheet as well as the properties of the core. Furthermore, the compressive plasticity behavior of the facesheets was assessed by fitting the model with load-deflection curves from the tests. Using the model for the structural optimization of the thickness and height of the core, the work suggests optimal values 3 times higher than the original ones. [ABSTRACT FROM AUTHOR]
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- 2024
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24. Selected issues concerning the use of Shredded Rubber Waste (SRW) in binder-bound mixtures
- Author
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Konrad Walotek, Joanna Bzówka, and Adrian Ciołczyk
- Subjects
industrial waste ,mining waste ,rubber waste ,dic ,Engineering (General). Civil engineering (General) ,TA1-2040 - Abstract
This paper presents the results of a composite consisting mainly of industrial waste bound by a hydraulic binder. The composite consists of unburnt coal-mining slate, shredded rubber waste (SRW), fly ash and CEM I cement. The purpose of using the above components was to protect the unburnt coal-mining slate from the negative effects of water, which causes degradation of the aggregate grain size and significantly affects the load-bearing capacity of the aggregate. This was achieved through the use of a binder consisting of shredded waste rubber, fly ash and cement, which imparts hydrophobic properties to the composite. The composite is to be used in road pavement construction and earthworks as a substitute for standard materials. This paper focuses on testing the effects of 5, 10 and 15% additions of shredded rubber waste (SRW) on the physical and mechanical parameters of the composite, mainly compressive strength, water absorption by mass, capillary rise and deformability under cyclic loading. The composite was tested under cyclic loading conditions using a measurement system based on digital image correlation (DIC), with which the deformations occurring on the surface of the test specimens were determined. The results obtained showed the influence of shredded rubber waste additives on the decrease in compression strength (after 7 and 28 days of specimen care), mass water absorption and capillary rise, as well as an increase in the deformability of the composite under destructive loading and cyclic loading.
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- 2024
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25. Effect of pre-corrosion based on micro-scale digital image correlation on damage failure of additive manufacturing AlSi10Mg
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JIANG Sheng, DU Juan, and SONG Haipeng
- Subjects
additive manufactured aluminum alloy ,localized corrosion ,in-situ tensile test ,dic ,damage evolution ,Motor vehicles. Aeronautics. Astronautics ,TL1-4050 - Abstract
The damage evolution and failure process of pre-corroded additive manufacturing AlSi10Mg through in-situ tensile experiments under an optical microscope and micro-scale digital image correlation(μ-DIC) were investigates . Combining the microscopic deformation field evolution,material microstructure,three-dimensional corrosion morphology and fracture microscopic morphology to analyze the initiation and propagation of micro-cracks in pre-corroded AlSi10Mg. The results show that the stress concentration around the corrosion pits and subsurface defects(caused by the additive manufacturing process) leads to the initiation of micro-cracks. There are multiple micro-cracks initiating at the same time,and the propagation and coalescence of micro-cracks originated from the key damage regions dominate the final failure of the specimen. Material micro-structure and corrosion morphology have an important influence on crack propagation.
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- 2024
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26. Dynamic tensile mechanical properties of red sandstone under different pulse widths and amplitudes: Brazilian disk experiment and macroscopic and microscopic analysis
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Beijing Xie, Zheng Luan, Heng Li, Bowen Wu, Xiaoxu Li, and Dongxin Chen
- Subjects
Shock pulse ,SHPB ,Dynamic response ,DIC ,Constitutive model ,Mining engineering. Metallurgy ,TN1-997 - Abstract
To investigate the dynamic tensile mechanical properties of red sandstone under varying impact pulse widths and amplitudes, we employed the response surface methodology to examine the dynamic response characteristics of sandstone under different bullet lengths and impact velocities. Subsequently, a dynamic damage constitutive model for sandstone was developed. Macroscopic and microscopic features of sandstone were analyzed through digital image correlation (DIC) and scanning electron microscopy (SEM) experiments. Additionally, ANSYS software was utilized to analyze stress wave characteristics under controlled shock waves and the impact of geological factors on rock fracturing effects. The findings revealed the following. First, the length and impact velocity of bullets exhibit an interactive effect on the tensile response characteristics of sandstone. Peak load, energy consumption rate, and energy density display a positive correlation with bullet velocity. Second, according to the DIC results, the fractal dimension of the crack is negatively correlated with the length of the bullet during equal energy impacts. Third, microscopic failure modes included fractures along particle cementation and through particles, with section roughness decreasing as bullet length increased under equivalent energy impacts. Fourth, a dynamic damage constitutive model (R2 ≥ 0.84) was established based on the Zhu-Wang-Tang (Z-W-T) model and Drucker-Prager (D-P) criterion, clarifying model parameters and influence rules. Fifth, under controlled shock waves, the pulse width facilitates crack propagation, while the pulse amplitude initiates crack formation. Optimal rock breaking efficiency is achieved when stress waves exhibit a large pulse width and low radiation values, meeting specific threshold conditions.
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- 2024
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27. A survey of the current status of neonatal disseminated intravascular coagulation in neonatal intensive care units in Kyushu, Japan
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Shun Ichikawa, Shunsuke Araki, Daisuke Shimizu, Koichi Kusuhara, Akira Shirahata, Masayuki Ochiai, and Satoshi Ibara
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DIC ,infectious diseases ,mortality rate ,neonates ,NICU ,Pediatrics ,RJ1-570 - Abstract
Background: Neonatal disseminated intravascular coagulation (DIC) is a rare disease with a poor outcome. However, data on the incidence, treatment, and outcome of neonatal DIC are scarce. Thus, this study investigated the status of neonatal DIC in Japan. Methods: We sent a retrospective questionnaire-based survey regarding the status of diagnosis and treatment of neonatal DIC from January 1, 2016, to December 31, 2018, to 30 hospitals in Kyushu with a neonatal-perinatal medicine division. The data collected by the questionnaire survey included information about the patients diagnosed with neonatal DIC. Results: Among the 13,582 neonates surveyed, 120 (0.9 %) were diagnosed with DIC. Of them, clinical data were available for 105 cases. There were 11 deaths (mortality rate: 10.4 %), with the most common underlying condition being infection (n = 9), followed by neonatal asphyxia and hematologic disease (both, n = 1). Compared with the survival group, the death group had more infections, as well as a higher rate of bleeding symptoms and organ dysfunction. Conclusions: Neonatal DIC associated with infectious diseases has a poor outcome. Therefore, it is necessary to formulate diagnostic and treatment guidelines for early intervention in such cases.
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- 2024
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28. Investigation of the impact of fiber incorporation on the properties of high belite cement
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Yu Zhou, Shuo Wang, Fanghui Han, Shizhuo Zou, Yongsheng Zhang, Yonglong Xiao, and Lingyun Qian
- Subjects
High belite cement ,Hydration heat ,Strength ,Basalt fiber ,Acoustic emission ,DIC ,Mining engineering. Metallurgy ,TN1-997 - Abstract
In contrast to ordinary portland cement (PC), the manufacturing process of high belite cement (HBC) boasts superior resource utilization, reduced energy consumption, and diminished greenhouse gas emissions. Additionally, HBC exhibits notable strengths in terms of durability and mechanical properties. This study delves into the thermal characteristics of hydration, mechanical behaviour, and failure mechanisms of HBC materials, both with and without fiber admixtures, employing a multifaceted approach encompassing hydration heat experiments, uniaxial compression tests, Brazilian tensile tests, alongside advanced techniques such as acoustic emission (AE) and digital image correlation (DIC). The results indicate that HBC has lower hydration heat release, contributing to a reduction in hydration temperature rise, offering advantages in large-scale structural construction. In terms of strength development, HBC exhibits compressive and tensile strengths similar to PC, while the strength of basalt fiber-reinforced HBC is notably lower than both. In terms of failure modes, both HBC and PC undergo shear failure in uniaxial compression tests, whereas basalt fiber-reinforced HBC experiences splitting failure. In Brazilian tensile tests, HBC and PC exhibit single-direction cracking, while basalt fiber-reinforced HBC shows synchronous cracking at the top, middle, and bottom. Due to the crack-arresting effect of basalt fibers, basalt fiber-reinforced HBC displays a bimodal feature on the stress-strain curve and features a stress plateau on both the stress-strain and strain energy development curves.
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- 2024
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29. An informatics method for inferring the hardening exponent of plasticity in polycrystalline metals from surface strain measurements.
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Papanikolaou, Stefanos
- Subjects
STRAIN hardening ,POLYCRYSTALS ,SURFACE strains ,MULTISCALE modeling ,PRINCIPAL components analysis ,DIGITAL image correlation - Abstract
The investigation of strain hardening in metals is complex, with the outcome depending on experimental conditions, that may involve microstructural history, temperature and loading rate. Hardening is commonly measured, after mechanical processing, through controlled mechanical testing, in ways that either distinguish elastic (stress) from total deformation measurements, or by identifying plastic slip contributions. In this paper, we conjecture that hardening effects can be unraveled through statistical analysis of total strain fluctuations during the evolution sequence of profiles, measured in-situ, through digital image correlation. In particular, we hypothesize that the work hardening exponent is related, through a power-law relationship, to a particular exponent arising from principal component analysis. We demonstrate a scaling analysis for synthetic data produced by widely applicable crystal plasticity models for polycrystalline solids. [ABSTRACT FROM AUTHOR]
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- 2024
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30. Exploring buckling and post-buckling behavior of incompressible hyperelastic beams through innovative experimental and computational approaches.
- Author
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Azarniya, O., Forooghi, A., Bidhendi, M. V., Zangoei, A., and Naskar, S.
- Subjects
- *
MECHANICAL buckling , *ECCENTRIC loads , *MECHANICAL behavior of materials , *DIGITAL image correlation , *ENERGY function , *STRAIN energy , *RUBBER - Abstract
The objective of this paper is to conduct a comprehensive investigation into the buckling and post-buckling behavior of hyperelastic beams through both computational and experimental means. Natural rubber is used in the construction of a beam with a square cross-section. To determine the mechanical properties of natural rubber, a uniaxial tensile test is performed in accordance with ASTM D412. In finite element modeling (FEM), the nonlinear behavior of rubber is modeled using hyperelastic theory and the Yeoh strain energy function. The Static-Riks method is also implemented using Abaqus for the analysis of nonlinear buckling. To validate the present investigation results with FEM, an experimental test of digital image correlation (DIC) is conducted. The critical buckling force obtained via numerical methods exhibits an error of nearly 5% when compared to the corresponding results obtained from experimental testing. In order to ascertain the impact of various design parameters on the buckling behavior of the system, a comprehensive parametric analysis has been conducted. The parameters studied include the cross-sectional thickness, length of the structure, eccentric loads, as well as the mechanical properties of the materials used in the system. Consistent with the FEM outcomes, the critical buckling force exhibited by the hyperelastic beam demonstrates a positive correlation with increasing levels of hardness, cross-sectional thickness, and eccentric loads. The buckling behavior of the system is adversely affected by increasing its length. To ultimately validate the precision and reliability of the model, a supervised neural network (NN) learning method is employed. [ABSTRACT FROM AUTHOR]
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- 2024
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31. Under-Fitting and Over-Fitting: The Performance of Bayesian Model Selection and Fit Indices in SEM.
- Author
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Depaoli, Sarah, Winter, Sonja D., and Liu, Haiyan
- Subjects
- *
CONFIRMATORY factor analysis , *RESEARCH personnel - Abstract
We extended current knowledge by examining the performance of several Bayesian model fit and comparison indices through a simulation study using the confirmatory factor analysis. Our goal was to determine whether commonly implemented Bayesian indices can detect specification errors. Specifically, we wanted to uncover any differences in detecting under-fitting or over-fitting a model. We examined a conventional Bayesian fit index (the posterior predictive p-value), approximate Bayesian fit indices (Bayesian RMSEA, CFI, and TLI), and model comparison indices (BIC and DIC). We varied the type and severity of model mis-specification, sample size, and priors. We focused on the ability of these indices to detect model under- or over-fitting. We provide practical advice for applied researchers regarding how to assess and compare models using these common indices implemented in the Bayesian framework. [ABSTRACT FROM AUTHOR]
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- 2024
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32. INTEGRATION OF DIGITAL IMAGE CORRELATION AND THERMOELASTICITY FOR EXPERIMENTAL ANALYSIS OF OPERATIONAL MODAL SHAPES.
- Author
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Molina Viedma, Ángel, Sesé, Luis Felipe, López Alba, Elías, and Díaz Garrido, Francisco
- Subjects
DIGITAL image correlation ,THERMOELASTIC stress analysis ,THERMOELASTICITY ,MODAL analysis ,INFRARED cameras ,DIGITAL images - Abstract
Full-field optical techniques provide valuable information for the analysis of mode shapes thanks to their high density of measurement points, providing very detailed maps, in a non-invasive way that avoids alterations of the dynamic behaviour of the specimen. Digital image correlation and thermoelastic stress analysis are two of the most interesting ones. The first provides displacement fields that can be three-dimensional if a calibrated stereoscopic system is used. The second uses a thermographic camera to determine the stress invariant. Given the complementary nature of these magnitudes, this study deals with the integration of the displacement and stress fields by means of a calibrated set of a stereoscopic system and a thermographic camera which, through spatial triangulation, allow the association of the measurements to the same spatial point on the specimen. For this purpose, typical laboratory setups have been carried out for the characterisation of operational modal shapes of resonances. The integration has allowed a more accurate interpretation of the behaviour of the specimen, identifying the regions with the highest mechanical stress. This shows the advantages of integration compared to the isolated analysis of displacement and/or stress measurements that are usually carried out and proves the potential for the development of optical techniques at a scientific and industrial level, opening up new avenues of study. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
33. A Case of False Decrease of Plasma D-Dimer.
- Author
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Minggang Lu, Liangfeng Hu, Lihong Zhang, and Ye Yang
- Subjects
DISSEMINATED intravascular coagulation ,FIBRIN fragment D ,FIBRIN fibrinogen degradation products ,FIBRIN ,PLATELET-rich fibrin ,DELAYED diagnosis ,DIAGNOSIS - Abstract
Background: D-dimer, a specific product of cross-linked fibrin degradation, is of great clinical value in the early diagnosis of thrombotic diseases and in monitoring the efficacy of thrombolysis; therefore, the accuracy of D-dimer test results is crucial. Methods: This article reports a case of a patient with disseminated intravascular coagulation (DIC) who experienced a false decrease in D-dimer due to the hook effect. Results: The three D-dimer test results for DIC patients were 1.09 mg/L, 0.93 mg/L, and 1.43 mg/L. After sample dilution, the results were: first time (1:128) 842.24 mg/L, second time (1:128) 1,505.28 mg/L, third time (1:32) 415.68 mg/L. There was a significant difference in the three test results before and after dilution, because the D-dimer concentration was too high, exceeding the detection range and causing the hook effect, which falsely lowered the D-dimer value. Conclusions: When the D-dimer value of DIC patients does not match the clinical situation, the possibility of the hook effect should be considered, and the false decrease can be ruled out by the sample dilution method. In this way, accurate clinical results can be obtained to avoid delaying the diagnosis and treatment of DIC patients. [ABSTRACT FROM AUTHOR]
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- 2024
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34. 工业纯钛室温双轴拉伸力学行为研究.
- Author
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苗自豪, 常 乐, 周昌玉, and 贺小华
- Abstract
Copyright of Iron Steel Vanadium Titanium is the property of Iron Steel Vanadium Titanium Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
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- 2024
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35. 堆积方向对激光选区熔化 TC4 合金缺口件 局部循环塑性行为的影响.
- Author
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王志强, 李 建, 赵 询, 赵雪同, 徐英东, 唐明扬, 刘 庆, 葛峻铭, and 肖 敏
- Abstract
Copyright of Iron Steel Vanadium Titanium is the property of Iron Steel Vanadium Titanium Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2024
- Full Text
- View/download PDF
36. Molecular Composition Evolution of Dissolved Organic Matter With Water Depth in Prydz Bay of East Antarctic: Carbon Export Implications.
- Author
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Jiang, Bin, Zhao, Jun, Li, Dong, Zhan, Liyang, Gao, Zhongyong, Sun, Heng, Zhou, Yuping, Pan, Jianming, and Sun, Yongge
- Subjects
CARBON content of water ,DISSOLVED organic matter ,WATER depth ,ION cyclotron resonance spectrometry ,BODIES of water ,MOLECULAR evolution - Abstract
This study analyzes the molecular composition of dissolved organic matter (DOM) in Prydz Bay by Fourier Transform Ion Cyclotron Resonance mass spectrometry to probe the carbon sequestration capacity in the continental shelf system. Concentrations of particulate organic carbon (POC), particulate nitrogen and dissolved organic carbon (DOC) with water depth show that POC could be mainly decomposed into DOC and/or microbially degraded. Highly labile DOC is further degraded and remineralized by microorganisms within the upper 200 m, as evidenced by a downward enrichment of 13CPOC and increases in the average molecular weight, oxygen atom number (O) and double bond equivalents of DOM molecules, indicating that biodegradation is the main driver for particulate organic matter and DOM evolution with water depth. Semi‐quantitative calculation demonstrates that ∼83% of POC was transformed to DOC as well as dissolved inorganic carbon (DIC), and ∼30% of DOC further to DIC via microbial degradation within the upper 200 m in summer, resulting in a relatively low total organic carbon content in sediments of Prydz Bay. The newly transformed DIC and residue DOC can be preserved in the deep layer due to the formation of well stratified and stable water body in summer of Prydz Bay, ultimately entering the regional circulation system instead of being released back into the atmosphere. This could be one of the most important processes determining the atmosphere CO2 uptake in the continental shelf system of Southern Ocean. Plain Language Summary: The continental shelf system in the Southern Ocean, especially with the development of polynyas, plays a critical role in the global carbon cycle and disproportionally accounts for almost half of the anthropogenic CO2 uptake by the biological pump, with ensuing deep‐sea sequestration by the form of particulate and dissolved organic carbon, and even CO2 due to microbial degradation of primary productivity. However, complex interactions between physical, chemical and biological processes significantly affect the fate of organic carbon through the water column, resulting in an uncertainty of vertical carbon export. In this study, we conduct an investigation on the dissolved organic matter sources and evolution with water depth in summer of Prydz Bay, a typical polynya‐developed continental shelf system in the East Antarctica. The results clearly show that biodegradation is the main factor controlling organic carbon mineralization and mainly occurs within the upper 200 m of water column, with a transformation into dissolved organic carbon (DOC) and dissolved inorganic carbon (DIC). Integrated with regional circulation system and hydrological characteristics, our study further indicates that newly formed DIC and DOC can be preserved in the deep layer of Prydz Bay, then into the regional circulation system rather back to the atmosphere. Key Points: Novel evidence at molecular level shows the vital role of biodegradation during carbon sink in Prydz BayThe conversion of POC into DOC/DIC mainly occurs within the upper 200 m of water columnHighlighting regional circulation's contribution to carbon transport and sequestration in the Southern Ocean [ABSTRACT FROM AUTHOR]
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- 2024
- Full Text
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37. Bending Strength of Continuous Fiber-Reinforced (CFR) Polyamide-Based Composite Additively Manufactured through Material Extrusion.
- Author
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Łakomy, Maciej, Kluczyński, Janusz, Sarzyński, Bartłomiej, Jasik, Katarzyna, Szachogłuchowicz, Ireneusz, and Łuszczek, Jakub
- Subjects
- *
POLYAMIDES , *BENDING strength , *DIGITAL image correlation , *FRACTOGRAPHY , *CARBON fibers , *FLEXURAL strength , *MATERIALS analysis - Abstract
This paper shows the three-point bending strength analysis of a composite material consisting of polyamide doped with chopped carbon fiber and reinforced with continuous carbon fiber produced by means of the material extrusion (MEX) additive manufacturing technique. For a comparison, two types of specimens were produced: unreinforced and continuous fiber-reinforced (CFR) with the use of carbon fiber. The specimens were fabricated in two orientations that assure the highest strength properties. Strength analysis was supplemented by additional digital image correlation (DIC) analysis that allowed for the identification of regions with maximum strain within the specimens. The utilization of an optical microscope enabled a fractographic examination of the fracture surfaces of the specimens. The results of this study demonstrated a beneficial effect of continuous carbon fiber reinforcement on both the stiffness and strength of the material, with an increase in flexural strength from 77.34 MPa for the unreinforced composite to 147.03 MPa for the composite reinforced with continuous carbon fiber. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
38. Case report: Chronic disseminated intravascular coagulopathy with concurrent paraneoplastic secondary hyperfibrinolysis in a dog with metastatic nasal adenocarcinoma.
- Author
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Granger Jr., Kyle L., Paulos, Trish, Boss, Mary-Keara, Guieu, Liz, and Shropshire, Sarah
- Subjects
ADENOCARCINOMA ,DOGS ,BLOOD coagulation disorders ,VETERINARY medicine ,PARANEOPLASTIC syndromes ,METASTASIS - Abstract
In human medicine, hemostatic disorders such as thrombocytopenia, hyperfibrinolysis, and disseminated intravascular coagulopathy (DIC) have been associated with many cancers. Acute hemorrhage secondary to hyperfibrinolysis has been predominantly reported with prostatic adenocarcinoma in human patients. To the author's knowledge, severe bleeding due to paraneoplastic hyperfibrinolysis has not yet been reported in veterinary medicine. The case involves an 8-year-old neutered male Border Collie who was evaluated for progressive and recurrent epistaxis, having a history of 1 year of treatment for metastatic nasal adenocarcinoma. A progressive and severe coagulopathy thought to be related to the known cancer was diagnosed. Advanced coagulation testing was consistent with a chronic DIC and secondary hyperfibrinolysis. Throughout 1 week of hospitalization, the dog was treated with multiple blood products, vitamin K1, and anti-fibrinolytic medications. While the dog was initially discharged home, the dog re-presented the following day and was humanely euthanized due to a perceived poor quality of life. Post-mortem analysis revealed a histopathologic diagnosis of disseminated adenocarcinoma. In dogs with disseminated nasal adenocarcinoma that are experiencing severe bleeding, paraneoplastic secondary hyperfibrinolysis should be considered as a differential. Knowing this association could help guide treatment recommendations for optimal patient management. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
39. Cracking and failure mode behavior of hybrid FRP strengthened RC column members under flexural loading.
- Author
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Balla, Taraka M. R. and Prakash, S. Suriya
- Subjects
- *
FAILURE mode & effects analysis , *DIGITAL image correlation , *CRACKS in reinforced concrete , *FIBER-reinforced plastics , *REINFORCED concrete , *COMPRESSION loads - Abstract
Strengthening of reinforced concrete (RC) members in bridges and buildings is often required to improve flexural performance. Strengthening using fiber‐reinforced polymer (FRP) composites has become popular as FRPs offer multiple advantages compared with conventional strengthening practices like steel jacketing and concrete enlargement. External bonding (EB) using carbon FRP (CFRP) laminates/fabric has become a common strengthening practice. The effectiveness of the EB strengthened system is reduced due to possible debonding of FRP from concrete substrate. The near‐surface mounting (NSM) of FRP laminates is efficient in reducing the debonding failure, but it is not effective under dominant compression loading. Hybrid FRP (HYB) strengthening combines the advantages of both the NSM and EB techniques. HYB strengthening can enhance the performance of RC members under all loading combinations. The main objective of this study is to understand the flexural crack opening behavior of control and hybrid FRP strengthened RC column members under pure bending. The digital image correlation (DIC) analysis shows that the crack width and its propagation are significantly reduced due to hybrid FRP strengthening. The crack widths measured using the DIC are compared with the analytical predictions based on Eurocode 2 and fib bulletin 90. HYB FRP strengthening increased the strength and post‐cracking stiffness of RC elements under flexure without compromising the ductility. In addition, the HYB strengthening distributed the damage under flexural loading, unlike localized damage observed in control RC elements. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
40. Application of Digital Image Correlation for Strain Mapping of Structural Elements and Materials.
- Author
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Bogusz, Paweł, Krasoń, Wiesław, and Pazur, Kamil
- Subjects
- *
DIGITAL image correlation , *STRAIN gages , *DIGITAL images , *TENSILE tests - Abstract
The strain gauge method and the digital image correlation (DIC) method are commonly employed for measuring strain in tested objects, including material specimens and structural elements. The optical method enables the assessment of 3D strain fields across the entire area of interest, achieved through cameras and advanced software. The study investigates both quasi-static strength tests and more advanced research of structures. It explores full-scale construction testing, featuring highly stressed components of new wagon designs. The paper reviews the benefits and challenges of using the DIC method to measure large-scale elements. Conducting full-scale object testing is characterized by significant complexity, often involving interactions between elements, complex loading conditions, and the influence of friction. Numerous factors affect the measurements. Therefore, to compare both methods, an initially standard shear by tensile test of CFRP composite was analyzed. The analysis of strain maps provides valuable visualization of deformation patterns occurring during construction loading. The strain gauge method was crucial for verifying the quality of the DIC measurements. The results obtained provide a detailed understanding of how the components behave, highlighting the versatility of digital image correlation technology. For strain values of 0.3% and above, a good match was obtained between optical and strain gauge measurements. Below this value, the results have less accuracy. The results obtained provide a detailed understanding of how the components behave, highlighting the versatility of digital image correlation technology. The error comparison and discussion between different measurement scenarios were conducted. The paper presents a developed methodology for measuring strain and displacement state in complex and crucial structural elements. The method can be applied to measurements of heavily loaded components used in the transportation industry; for example, in railways. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
41. Dynamic Failure Characteristics of Sandstone Containing Different Angles of Pre-Existing Crack Defects.
- Author
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Zhou, Hou-You, Liu, Dian-Shu, Gao, Zheng-Hua, Chi, En-An, Rao, Jun-Ying, and Hu, Tao
- Subjects
- *
SANDSTONE , *STRAIN rate , *IMPACT testing , *FAILURE mode & effects analysis , *ANGLES - Abstract
Fracture within the rock is one of the main factors leading to rock destabilization and has a significant effect on the stability of the project. In this study, sandstone is used as a research target, specimens with crack inclination angles of 0°, 30°, 45°, 60°, and 90° are prefabricated, and the split Hopkinson pressure bar (SHPB) impact test of sandstone with cracks is carried out based on digital image recognition technology to explore the dynamic damage characteristics of the specimens with five angles. The basic mechanical parameters of sandstone are tested to determine the RHT model intrinsic parameters, and the numerical computational RHT model of sandstone containing crack defects is established, which is verified in comparison with the test to analyze the validity of the model. Finally, the failure characteristics of the numerical model under initial stress were carried out. The study shows the following: with the increase in the fracture angle, the dynamic compressive strength and deformation modulus are distributed in a slanting V-shape, and the inclination angle of 45° is the smallest. The strain rate and energy dissipation rate are distributed in a slanting N-shape, and the inclination angle of 45° is the largest. The transmittance shows a decreasing trend, which is the opposite of the reflectivity pattern. The crack angle determines the location and direction of the initial crack, which affects the failure mode. In addition, the parameters of the RHT constitutive model suitable for sandstone are obtained, and the damage and strength patterns of the established RHT model are highly consistent with the laboratory test results. The damage range of numerical models for crack defects with different inclination angles is negatively correlated with confining pressure values and positively correlated with axial pressure values. The damage zones are symmetrically distributed approximately perpendicular to the direction of cracks, and the confining pressure has a contributing role in the peak of the element stresses; however, the axial compression has no contribution in the peak of the element stresses. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
42. Laboratory and Numerical Investigation of Pre-Tensioned Reinforced Concrete Railway Sleepers Combined with Plastic Fiber Reinforcement.
- Author
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Németh, Attila, Ibrahim, Sarah Khaleel, Movahedi Rad, Majid, Szalai, Szabolcs, Major, Zoltán, Kocsis Szürke, Szabolcs, Jóvér, Vivien, Sysyn, Mykola, Kurhan, Dmytro, Harrach, Dániel, Baranyai, Gusztáv, Fekete, Imre, Nagy, Richárd, Csótár, Hanna, Madarász, Klaudia, Pollák, András, Molnár, Bálint, Hermán, Bence, Kuczmann, Miklós, and Gáspár, László
- Subjects
- *
REINFORCED plastics , *PLASTIC fibers , *REINFORCED concrete , *DIGITAL image correlation , *FIBER-reinforced plastics , *BENDING moment , *PRESTRESSED concrete - Abstract
This research investigates the application of plastic fiber reinforcement in pre-tensioned reinforced concrete railway sleepers, conducting an in-depth examination in both experimental and computational aspects. Utilizing 3-point bending tests and the GOM ARAMIS system for Digital Image Correlation, this study meticulously evaluates the structural responses and crack development in conventional and plastic fiber-reinforced sleepers under varying bending moments. Complementing these tests, the investigation employs ABAQUS' advanced finite element modeling to enhance the analysis, ensuring precise calibration and validation of the numerical models. This dual approach comprehensively explains the mechanical behavior differences and stresses within the examined structures. The incorporation of plastic fibers not only demonstrates a significant improvement in mechanical strength and crack resistance but paves the way for advancements in railway sleeper technology. By shedding light on the enhanced durability and performance of reinforced concrete structures, this study makes a significant contribution to civil engineering materials science, highlighting the potential for innovative material applications in the construction industry. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
43. Plane–strain condition in plane–strain grooved tensile (PSGT) specimens during traction and creep loading at room and high temperature.
- Author
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Ovalle, C., Broudin, M., and Laiarinandrasana, L.
- Subjects
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HIGH temperatures , *DIGITAL image correlation , *HIGH density polyethylene , *PLASTICS , *PIPE fittings , *NOTCH effect , *PIPE - Abstract
ISO 23228:2011 proposed a testing method in which the plastic material, experimental resins or compounds for pipes and fittings, can be exposed to stress conditions that mimic internally pressurised end‐capped pipes. The stress conditions are mimicked by the use of a plaque specimen having a grooved reduced section called plane–strain grooved tensile (PSGT) specimens producing a biaxial state of stress under uniaxial loading. In this study, PSGT specimens were cut out from high‐density polyethylene (HDPE) pipes. Two shape ratios, ratio between the width and the groove thickness, were used. Both the axial and transverse displacements and strain fields were followed by a digital image correlation (DIC) camera during tensile and creep loading, both at room and high temperature; furthermore, DIC images were used to estimate the notch opening displacement. The increasing effect of the temperature in both the axial and transverse displacement and strain was highlighted. No significant effect of the width was noticed. The results have evidenced that, as the plane–strain condition in the width is assured during the tests, PSGT specimens can be used to mimic internally pressurised pipes under monotonic increasing or constant‐in‐time loading at both room and high temperature, but it must be better to use specimens with a higher shape ratio, that is, higher width. The results contribute to the 9th Sustainable Development Goal: Industry, Innovation and Infrastructure by promoting a sustainable industrialisation and fostering innovation. [ABSTRACT FROM AUTHOR]
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- 2024
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44. Experimental and computational meso-scale investigation on the deformation and failure behaviors of plain woven SiC/SiC with intrinsic and manufactured defect.
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Jing, Xin, Zeng, Han, Zeng, Fang, and Lyu, Shuangqi
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FAILURE (Psychology) , *DIGITAL image correlation , *DEFORMATIONS (Mechanics) , *TENSILE tests , *WEAVING patterns - Abstract
For plain woven SiC/SiC composites used in aerospace thermal-structural applications, not only the pristine material properties but the open-hole performance are of critical concern for the components in service. This study investigated the influence of intrinsic pores induced during SiC matrix preparation and manufactured holes on the macro mechanical properties of plain woven SiC/SiC through experimental and numerical methods. Tensile tests at room temperature were conducted on SiC/SiC specimens with different hole apertures and configurations, and the digital image correlation (DIC) method was employed for full-field strain measurement. Moreover, micro-computed tomography (μ-CT) was utilized to characterize the internal microstructure, original defects, and failure fractures. Based on the reconstructed mesoscale model, the tensile strength and failure mechanisms of pristine and open-hole specimens were predicted and analyzed, with the models validated against the experimental results. The results showed that the inter-tow defects play an important role on the deformation and failure of pristine SiC/SiC specimens during tensile loading. The notch strength results indicated that SiC/SiC exhibits weak notch sensitivity, and the local mesoscopic deformation of the notch is affected by the combination of macroscopic stress gradients and mesoscopic structures. The mesoscale simulation results showed that the position of the hole has a significant impact on the strength of the single layer SiC/SiC composite. The more the notch invades the warp, the greater the decrease in load-bearing capacity, and the relative position of the weft mainly determines the crack propagation path. The failure mode in the simulation results is consistent with the experimental findings, indicating that the simulation model, which considers the weave architecture, can better explain the notch failure behavior of Ceramic Matrix Composites (CMCs). [ABSTRACT FROM AUTHOR]
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- 2024
- Full Text
- View/download PDF
45. Hematologic complications in vascular malformations: A case study of 2 patients.
- Author
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Matus, Iwona, Bator, Kaja, Machaj, Weronika, Krzemienowska-Cebulla, Aleksandra, Dorochowicz, Mateusz, Senat, Hanna, Korbecki, Adrian, Szuba, Andrzej, and Rabczyński, Maciej
- Subjects
ARNOLD-Chiari deformity ,THROMBOTIC thrombocytopenic purpura ,FIBRIN fibrinogen degradation products ,DISSEMINATED intravascular coagulation ,HUMAN abnormalities ,AVOIDANCE conditioning ,BLOOD coagulation factors ,FIBRIN - Abstract
We present two cases of patients treated at the Angiology, Arterial Hypertension and Diabetology Clinic of the Wroclaw Medical University (UMW) due to vascular malformations, where LIC (localized intravascular coagulation), DIC (disseminated intravascular coagulation) and KMS (Kasabach-Merritt syndrome) occurred. The first case involves a 14-year-old boy admitted with a diagnosis of vascular malformation of the lower limb established at the age of 3. The patient was admitted for the initiation of Sirolimus therapy. The second patient is a 33-year-old man diagnosed with a malformation of the left lower limb involving the pelvis, abdominal cavity, and chest, currently admitted due to coagulation disorders, complicated by life-threatening Kasabach-Merritt syndrome (KMS). The phenomenon occurred after a limb injury. Vascular malformations are congenital vascular anomalies resulting from a disruption in the vasculogenesis process. (1) They are congenital changes that enlarge as the child develops and do not undergo spontaneous involution. They can be classified based on the type of vessels involved (capillary, arterial, venous, lymphatic, mixed) and the nature of the vascular flow (lowflow and high-flow). The clinical presentation of vascular malformations is highly diverse, and despite being congenital, they can remain asymptomatic for a long time, complicating the diagnostic process. (1,3) The presence of malformations carries the risk of health-threatening complications. One such complication is Kasabach-Merritt syndrome, characterized by thrombocytopenia, microangiopathic hemolytic anemia, and consumptive coagulopathy in the presence of a rapidly enlarging vascular tumor. (4,5) Another threat is a coagulopathy limited to the vascular anomaly (LIC). It is characterized by elevated D-dimers and fibrin degradation products, low levels of fibrinogen, FV, FVIII, FXIII, and antithrombin, and sometimes mild to moderate thrombocytopenia. (6,7) Early implementation of anticoagulant therapy allows for the avoidance of health-threatening conditions and the development of disseminated intravascular coagulation syndrome (DIC). (8). [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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46. Simultaneous Measurements of Surface Spanwise Waves and Velocity in a Turbulent Boundary Layer.
- Author
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Fumarola, Isabella, Santer, Matthew, and Morrison, Jonathan
- Abstract
Among the different passive and active techniques for skin friction drag reduction for turbulent boundary layers, near wall forcing through moving walls is one of the most promising techniques at low Re τ . Fewer studies have looked at the mechanism at high Re τ , closer to flight conditions, largely because, in this regime, numerical simulations become harder and experiments more challenging. To that end, there is the need of a systematic study for different surface waves and flow conditions. This work introduces a new model using a kagome lattice and an experimental setup which combines simultaneous measurements of surface displacement and velocity in the boundary layer. Here the results from a shortened version of the model at Re τ ≈ 1000 are presented to demonstrate the capability of the experimental setup which is developed in view of further investigation at higher Reynolds number. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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47. Shear Performance and Damage Characterization of Prefabricated Basalt Fiber Reactive Powder Concrete Capping Beam Formwork Structure.
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Gong, Yafeng, Wu, Shuzheng, Ning, Changyuan, Hu, Xinpeng, Yi, Zhongqiang, and Du, Hongchi
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CONCRETE beams ,COMPOSITE construction ,DIGITAL image correlation ,BASALT ,ACOUSTIC emission ,POWDERS - Abstract
Basalt Fiber Reactive Powder Concrete (BFRPC) semi-prefabricated composite capping beam structures can effectively improve the shortcomings of ordinary concrete capping beams' construction difficulties and insufficient bearing capacity. In this study, with the objective of analyzing the shear damage and damage characteristics of a prefabricated BFRPC capping beam formwork, structural damage tests under different levels of loading were carried out to obtain the mechanical parameters of key nodes. Acoustic emission (AE) and Digital Image Correlation (DIC) techniques were used to acoustically and visually characterize the formwork damage. The research results showed that the damage stage of the capping beam formwork was divided, and an early damage warning method was proposed based on the acoustic parameters. Using the DIC technique to identify the crack width evolution pattern during the shear process, it was found that the cracks expanded steadily as the load increased. Combining the experimental and simulation results as well as the Subdivision Superposition Theory, a half-open stirrup strength discount factor β was introduced and suggested to take a value of 0.79. The formula for calculating the shear capacity of BFRPC capping beam formwork is proposed to provide a theoretical basis for its application in prefabricated assembled structures. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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48. Bayesian multiple linear regression model for GDP in India.
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Pandey, Ranjita, Chand, Dipendra Bahadur, and Tolani, Himanshu
- Abstract
Gross Domestic Product (GDP) known as the pulse of economy for any country depends on multiple factors like export–import, inflation rate and unemployment rate etc. Statistical assessment of GDP demands fresh concepts to explain GDP through its covariates in order to improve and strengthen the estimation process. In the present paper, a linear regression model is proposed for modelling GDP of India. Descriptive analysis for the considered data on GDP and its covariates obtained from the World Bank archives is presented through Heatmap. Identification and relevance of the possible set of covariates is established by using step-wise regression (SR). The use of SR reflects its credibility vis-à-vis Ordinary Least Squares (OLS) regression by registering a decline in Deviance Information Criterion (DIC) from − 18.30 to − 13.63, from a full model to only a few significant factor models. We propose an alternative statistical algorithm implemented under Bayesian paradigm through Integrated Nested Laplace Approximation which bridges the gap of accuracy in estimates as opposed to the frequentist OLS regression for explaining GDP of the country India. Model selection is decided from a battery of normal priors through DIC. Comparison of Bayesian and frequentist modelling results is done using several criteria such as Mean Absolute Deviation, Root Mean Square Error, and Mean Absolute Percent Error. India is one of the emerging economies, the economy of India is the 5th largest in terms of nominal gross domestic product in the world, and the 3rd largest in the terms of purchasing power parity as recorded by World Bank (2022). GDP of India for 2022 is recorded as $3.38 trillion World Bank (2022) which is in close agreement to GDP of $3.361 trillion predicted by the model proposed in the present paper. [ABSTRACT FROM AUTHOR]
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- 2024
- Full Text
- View/download PDF
49. Influence of Remodeled ECM and Co-culture with iPSC-Derived Cardiac Fibroblasts on the Mechanical Function of Micropatterned iPSC-Derived Cardiomyocytes.
- Author
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Stempien, A., Josvai, M., Notbohm, J., Zhang, J., Kamp, T. J., and Crone, W. C.
- Abstract
Introduction: In native heart tissue, functions of cardiac fibroblasts (CFs) include synthesis, remodeling, and degradation of the extracellular matrix (ECM) as well as secreting factors that regulate cardiomyocyte (CM) function. The influence of direct co-culture and CF-derived ECM on CM mechanical function are not fully understood. Methods: Here we use an engineered culture platform that provides control over ECM geometry and substrate stiffness to evaluate the influence of iPSC-CFs, and the ECM they produce, on the mechanical function of iPSC-CMs. Mechanical analysis was performed using digital image correlation to quantify maximum contractile strain, spontaneous contraction rate, and full-field organization of the contractions. Results: When cultured alone, iPSC-CFs produce and remodel the ECM into fibers following the underlying 15° chevron patterned ECM. The substrates were decellularized and confirmed to have highly aligned fibers that covered a large fraction of the pattern area before reseeding with iPSC-CMs, alone or in co-culture with iPSC-CFs. When seeded on decellularized ECM, larger maximum contractile strains were observed in the co-culture condition compared to the CM Only condition. No significant difference was found in contractile strain between the Matrigel and decellularized ECM conditions; however, the spontaneous contraction rate was lower in the decellularized ECM condition. A methodology for quantifying alignment of cell contraction across the entire field of view was developed based on trajectories approximating the cell displacements during contraction. Trajectory alignment was unaltered by changes in culture or ECM conditions. Conclusions: These combined observations highlight the important role CFs play in vivo and the need for models that enable a quantitative approach to examine interactions between the CFs and CMs, as well as the interactions of these cells with the ECM. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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50. A survey of the current status of neonatal disseminated intravascular coagulation in neonatal intensive care units in Kyushu, Japan.
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Ichikawa, Shun, Araki, Shunsuke, Shimizu, Daisuke, Kusuhara, Koichi, Shirahata, Akira, Ochiai, Masayuki, and Ibara, Satoshi
- Subjects
NEONATAL intensive care units ,BLOOD diseases ,ASPHYXIA neonatorum ,COMMUNICABLE diseases ,DISSEMINATED intravascular coagulation - Abstract
Neonatal disseminated intravascular coagulation (DIC) is a rare disease with a poor outcome. However, data on the incidence, treatment, and outcome of neonatal DIC are scarce. Thus, this study investigated the status of neonatal DIC in Japan. We sent a retrospective questionnaire-based survey regarding the status of diagnosis and treatment of neonatal DIC from January 1, 2016, to December 31, 2018, to 30 hospitals in Kyushu with a neonatal-perinatal medicine division. The data collected by the questionnaire survey included information about the patients diagnosed with neonatal DIC. Among the 13,582 neonates surveyed, 120 (0.9 %) were diagnosed with DIC. Of them, clinical data were available for 105 cases. There were 11 deaths (mortality rate: 10.4 %), with the most common underlying condition being infection (n = 9), followed by neonatal asphyxia and hematologic disease (both, n = 1). Compared with the survival group, the death group had more infections, as well as a higher rate of bleeding symptoms and organ dysfunction. Neonatal DIC associated with infectious diseases has a poor outcome. Therefore, it is necessary to formulate diagnostic and treatment guidelines for early intervention in such cases. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
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