Your search keyword '"amplitude"' showing total 210,369 results

1. A High Cycle Accumulation Model for Polychromatic and Stochastic Loading

Author

Niemunis, Andrzej, Stutz, Hans Henning, Wriggers, Peter, Series Editor, Eberhard, Peter, Series Editor, Wichtmann, Torsten, editor, Machaček, Jan, editor, and Tafili, Merita, editor

Published

2025

2. The association between vigour and flexibility with injury and alertness during shift work.

Author

Di Milia, Lee, Barnes-Farrell, Janet L., Laguerre, Rick, and Folkard, Simon

Abstract

Models of shift work and health suggest that individual differences in circadian rhythm characteristics may moderate the relationship between night shift work and injury, but this argument has not been directly tested. In this study, we tested the efficacy of two circadian rhythm characteristics—vigour and flexibility—as moderators of the path between shift work and injury. In addition, we aimed to replicate the association between vigour, flexibility, and alertness by time of day, and the measurement properties of the Circadian Type Inventory. We recruited 401 healthcare workers from Australia and Great Britain. After controlling for confounding variables, the results showed that vigour moderated the association between shift work and injury. Participants with values of vigour at the mean (β = 0.5120, p < 0.0013, 95% CI = [0.2018, 0.8223) and one standard deviation below the mean (β = 0.9048, p < 0.0001, 95% CI = [0.4648, 1.3447] reported significantly more injuries. No moderation was found for flexibility. Significant differences in alertness by time of day were observed in participants with higher levels of vigour compared to lower levels of vigour. No differences in alertness were observed for the flexibility scale. These results indicate that vigour may be a robust indicator of shift work tolerance. We replicated the posited two-factor structure of the Circadian Type Inventory, found the scales to have good reliability, and established for the first time, criterion-related validity for the vigour scale. [ABSTRACT FROM AUTHOR]

Published

2024

3. Decoding Visual Responses: Insights into Chronic Migraine and Medication Overuse Headache with Electrophysiological Analysis.

Author

Coppola, Gianluca, Casillo, Francesco, Sebastianelli, Gabriele, Abagnale, Chiara, Di Lorenzo, Cherubino, Di Renzo, Antonio, Serrao, Mariano, and Parisi, Vincenzo

Subjects

*MEDICATION overuse headache, *VISUAL evoked potentials, *MEDICATION abuse, *TREATMENT effectiveness, *VISUAL cortex

Abstract

Background/Objectives: Habituation and sensitization are opposite phenomena that play a role in the pathophysiology of episodic migraine and its progression to chronic migraine (CM). There have been just a few studies that have investigated these phenomena in patients with medication overuse headache (MOH) in comparison to those with chronic migraine (CM) and healthy controls (HCs), and the findings have been inconsistent. Methods: We measured and examined visual evoked potentials (VEPs) in 81 patients with MOH and 24 patients with CM, as well as 24 HCs. The VEPs were used to assess sensitization by analysing the amplitude of the first block (100 sweeps) and to evaluate habituation by measuring the amplitude response decrement after six blocks. We further examined patients diagnosed with MOH based on their acute medication type and after a 3-week acute medication withdrawal program. Results: There were no significant differences between groups in terms of the first N1-P1 VEP amplitude block and its habituation. It was found that patients with MOH had a greater drop in the amplitude of the VEP P1-N2 complex after repeated stimulation than patients with CM or HC. The VEP parameters showed no significant differences based on the specific overused drug and after a 3-week acute medication withdrawal. Conclusions: We propose that the results obtained in patients with MOH indicate an abnormal activation of inhibitory circuits in the parieto-occipital region in response to repeated modulatory stimuli. [ABSTRACT FROM AUTHOR]

Published

2024

4. Substantiation of the methodology for calculating the design of a small-sized hydraulic pulse vibrator.

Author

Obertyukh, Roman, Slabkyi, Andrii, Petrov, Oleksandr, and Bakalets, Dmytro

Subjects

*VIBRATORS, *VALVES, *PULSE generators

Abstract

A methodology for the design calculation of a new design of a hydraulic pulse vibrator with a valve pressure pulse generator of a parametric type has been developed, which allows determining its energy, power and geometric parameters. [ABSTRACT FROM AUTHOR]

Published

2024

5. Bayesian Focal Mechanism Estimation from P-, S-Wave Amplitudes, and Polarities for a Microearthquake Sequence in Irpinia, Italy.

Author

Tarantino, Stefania, Emolo, Antonio, Adinolfi, Guido Maria, Festa, Gaetano, and Zollo, Aldo

Abstract

The P-wave peak distribution in azimuth and takeoff angles, corrected for the distance through empirical attenuation laws, can reveal the radiation pattern amplitude of the source (Tarantino et al., 2019). This piece of information, jointly combined with the available polarities and S-wave peak amplitudes, can provide the full focal mechanism, constraining the solution also when only a few seismic station records are available, that is, in the case of microseismicity. We proposed a new technique, named P-, S-wave amplitude, and polarities (P-SAP), designed to compute the focal mechanism by jointly inverting the P-, S-wave amplitude ratios and P-wave polarities in a Bayesian framework and employing the octree strategy (Fang et al., 1996) to explore the space of possible solutions. The outputs are strike, dip, and rake angles of the most likely triplet (principal and auxiliary planes) with the related uncertainties, as well as other multiple solutions, if present. We tested the methodology to synthetic data, and we applied it to a microseismic sequence that occurred in Irpinia region, southern Italy. A background microseismicity occurs in a volume delimited by the faults activated during the 1980 M 6.9 Irpinia earthquake. This faults system is complex and composed of northwest-southeast-striking normal faults along the Apennines chain and an approximately east-west-oriented strike-slip fault, deep-seated in the Potenza area. A network of three-component accelerometers and velocimeters are currently deployed to monitor the area. The major topic of this work is validating the proposed P-SAP methodology for microseismicity studies. We also inferred the optimum stress tensor of the sequence, confirming that the microseismicity is controlled by the regional stress field and can reveal characteristics useful to highlight behaviors of larger-scale seismicity. [ABSTRACT FROM AUTHOR]

Published

2024

6. Effect of the Magnetic Field, Electric Field, and Light Intensity on the Parameters of Recombination Waves in Silicon.

Author

Zikrillaev, N. F., Shoabdurakhimova, M. M., Kurbanova, U. Kh., Narkulov, N., and Shakarov, F. K.

Abstract

The paper presents experimental study results of self-oscillations of the current of the recombination wave (RW) type in silicon doped with impurity selenium atoms. Doping of silicon with impurity selenium atoms was carried out using a newly developed technology, which allows for the formation of nanoclusters of impurity selenium atoms in the silicon lattice consisting of Se2 and Se4 molecules, without erosion of the surface of the samples. Self-oscillations in the samples were detected at room temperature and at sufficiently low electric fields. The dependences of the RW parameters (amplitude and frequency) in the Si samples on the resistivity and concentration of the formed nanoclusters of selenium atoms, as well as on the influence of a magnetic field, which makes it possible to control the amplitude in the range of J = 10–5–5 × 10–3 A and the frequency of self-oscillations of f = 104–(5 × 106) Hz. The mechanism of the observed RWs is explained by the formation of nanoclusters consisting of two (Se2) or four (Se4) selenium atoms in silicon, which leads to the formation of fluctuations (clusters) of the main charge carriers and their reaching contact when determining the magnitude of the applied constant electric field. A possibility of practical use of self-oscillations of current observed in silicon diffusion doped with selenium impurity atoms to create solid-state generators is shown. [ABSTRACT FROM AUTHOR]

Published

2024

7. Experimental Study on the Vibration Characteristics of a Wave-Induced Oscillation Heaving Plate Energy Capture Device.

Author

Lian, Jijian, Wang, Xiaowei, Wang, Xiaoqun, Chen, Yanjia, Liu, Likun, Li, Xin, and Xu, Lingyue

Subjects

CLEAN energy, ENERGY shortages, GLOBAL warming, CARBON emissions, RESEARCH personnel, WAVE energy

Abstract

In order to develop green energy, reduce carbon emissions, and alleviate global warming and the green energy crisis, many researchers focus on wave energy, using a device to convert wave energy into electricity. The three main types of wave energy converters are the overtopping type, the oscillating water column type, and the oscillating body type, and for most of them, the power generation efficiency is low. The research team in this paper proposed a wave energy converter for a wave-induced oscillation heave plate. The plate vibrates up and down under the action of waves, and the captured energy of the vibrating plate transfers the energy to the generator, so as to generate electricity. There is electricity only when there is vibration; therefore, the vibration characteristic of the converter is crucial to power generation. So, the vibration characteristics of the energy capture structure of the converter were studied experimentally. The test results show that the energy harvesting device can vibrate, and the vibration effect is good, which further indicates that the device can generate electricity. The effects of different wave conditions and system stiffnesses on amplitude and corresponding amplitude were studied, and the amplitude increases with the increase in wave height and period and decreases with the increase in system stiffness. The amplitude response decreases with the increase in wave height and system stiffness. Under the test conditions, the maximum amplitude of the system is 6.23 cm (when the wave period is 1.40 s, the wave height is 0.25 m, and the system stiffness is 1735.62 N/m), and the maximum amplitude ratio is 0.34 (when the wave period is 1.1 s, the wave height is 0.10 m, and the system stiffness is 1735.62 N/m). [ABSTRACT FROM AUTHOR]

Published

2024

8. Discharge Experiment and Structure Optimisation Simulation of Impulse Sound Source.

Author

Gao, Xu, Zhou, Jing, Xie, Haiming, and Du, Xiao

Subjects

*WAVE energy, *GEOLOGICAL formations, *ACOUSTIC radiators, *AUDIO frequency, *THEORY of wave motion

Abstract

The wave frequency and energy of traditional piezoelectric emission sources used in acoustic logging are limited, which results in an inadequate detection resolution for measuring small-scale geological formations. Additionally, the propagation of these waves in formations is prone to loss and noise interference, restricting detection to only a few tens of meters around the well. This paper investigates an impulse sound source, a new emission source that can effectively enhance the frequency range and wave energy of traditional sources by generating excitation waves through high-voltage discharges in a fluid-penetrated electrode structure. Firstly, a high-voltage circuit experimental system for the impulse sound source was constructed, and the discharge and response characteristics were experimentally analyzed. Then, four types of needle series electrode structure models were developed to investigate and compare the effects of different electrode structures on the impulse sound source, with the needle-ring electrode demonstrating superior performance. Finally, the needle-ring electrode structure was optimized to develop a ball-tipped needle-ring electrode, which is more suitable for acoustic logging. The results show that the electrode structure directly influences the discharge characteristics of the impulse sound source. After comparison and optimization, the final ball-tipped needle-ring electrode exhibited a broader frequency range—from zero to several hundred thousand Hz—while maintaining a high acoustic amplitude. It has the capability to detect geological areas beyond 100 m and is effective for evaluating micro-fractures and small fracture blocks near wells that require high detection accuracy. This is of significant importance in oil, gas, new energy, and other drilling fields. [ABSTRACT FROM AUTHOR]

Published

2024

9. Numerical modeling of heat flux in ultrasonic-assisted grinding of difficult-to-cut materials with a pressurized lubrication system.

Author

Singh, Aswani Kumar and Sharma, Varun

Subjects

*HEAT flux, *CUTTING fluids, *MOTION analysis, *BORON nitride, *DYNAMIC viscosity

Abstract

The temperature measurement during grinding process is difficult due to work–wheel interactions and nearby coolant layers. Surface integrity also gets affected by the grinding burns caused due to high heat generation. Therefore, the theoretical temperature estimation could provide prior detection of grinding burns. This article presents an analytical model to predict the heat flux in pressurized lubricated ultrasonic-assisted surface grinding of Nimonic 80 A using Cubic Boron Nitride (cBN) grinding wheel (vitrified grinding bond, grit 80/100, concentration 100%). In this process, the high frequency of ultrasonic vibration and low amplitude is employed to vibrate the workpiece. In the current modeling approach, the motion analysis of grains has been estimated initially, which provided the effective grinding force. This effective grinding force was then utilized to obtain the analytical model of heat flux. Finally, the model was formulated by considering the effect of heat conducted into the material and heat released due to the lubrication system. The established model comprised the effects of lubricating and machining parameters such as dynamic viscosity of cutting fluid, pressure, diameter and length of cutting fluid pipes, width of cut, frequency, speed of table, amplitude, depth of cut and speed of the wheel. This numerical model revealed affirmative results substantiated by experimentally procured data. This developed model can add to the direction of sustainable grinding approach. [ABSTRACT FROM AUTHOR]

Published

2024

10. Design and characterization of a novel motion conversion element: curved groove ball bearing without retainer.

Author

Wang, Shaoxiang, Zhang, Kaili, Hu, Yaohua, Hou, Lixia, and Guo, Kangquan

Subjects

*BALL bearings, *ROTATIONAL motion, *SURFACE structure, *KINEMATICS

Abstract

An unconventional and innovative mechanical transmission component, the curved groove ball bearing without retainer (CGBBR), is introduced in this article to facilitate the conversion between rotational and reciprocating motion. The CGBBR boasts several advantages over conventional motion conversion mechanisms, including a streamlined and compact structure, as well as the mitigation of high-order vibrations. This article delves into the design methodology, structural attributes, kinematic principles, and dynamic response properties of the CGBBR. A novel design method named closed curve envelopment theory is proposed to generate the distinctive spatial surface structure of the CGBBR. Moreover, a design scheme is presented that employs the concept of diameter-stroke ratio for CGBBR implementation. A calculation methodology is also introduced for determining the number of rolling elements within the CGBBR, which serves as the foundation for subsequent optimization design. This article deeply analyzes the kinematics principle of CGBBR and provides a new insight of motion conversion in mechanism. [ABSTRACT FROM AUTHOR]

Published

2024

11. Numerical study of the influence of amplitudes on heat transfer in a tube bundle.

Author

Foual, Mohammed, Chaib, Khaled, Chemloul, Nordeddine Sad, and Becheffar, Youcef

Subjects

*HEAT transfer, *COMPUTATIONAL fluid dynamics, *TUBES, *NUSSELT number, *HEAT exchangers

Abstract

The objective of this study is to investigate the impact of different surface roughness levels on a staggered arrangement of tubes in a cross-flow configuration, with water as the fluid being used. The focus lies in comparing the data obtained from the rough surface configuration with that of a smooth cylinder reference point. To assist this comparison, a comprehensive two-dimensional computational fluid dynamics (CFD) model is created, which accurately represents the distinctive characteristics of each surface shape. This study also included modifying the Remax within a range of 10 000–16 000 and analyzing the outcomes of using four different tube types, each with different supernatant thicknesses labeled as A = 0 , A = 0. 1 , A = 0. 2 and A = 0. 4 accordingly. Surprisingly, the tube with a 0.4 wave surface had significantly higher average Nusselt numbers (Nu) compared to the other tubes, indicating superior performance. The ideal tube design was found based on three main metrics: The performance evaluation criterion (PEC), the global performance criterion (GPC) and the average Nu. The performance metrics encompassed the PEC, GPC and the Colburn factor (j). The average Nu of the wavy_0.4 tube was higher than that of the SM by 31.66–32.54%, higher than that of the wavy_0.2 tube by 19.76–20.74%, and higher than that of the wavy_0.1 tube by 9.38–16.58%. According to the statistics, a heat exchanger that cools and has a wave with an amplitude of 0 is the most efficient choice for offshore energy systems. The smooth bundle tube (SBT) demonstrated the most significant increase in GPC, with values of 9.3–12.7% and 20.3–28.3% higher than those of wavy tubes with amplitudes of 0.1 and 0.2, respectively. In addition, correlations for the Nu are given, with results verified using empirical data from Balabani et al. [ABSTRACT FROM AUTHOR]

Published

2024

12. Исследование полей давлений в водяной скважине при ее очистке от солевых отложений.

Author

Смирнов, А. П., Хвощан, О. В., Рачков, А. Н., and Денисюк, Т. Д.

Abstract

Copyright of Electronic Processing of Materials / Elektronnaya Obrabotka Materialov is the property of Institute of Applied Physics 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

13. Effect of amplitude on material removal behavior and surface formation in ultrasonic elliptical vibration cutting of tungsten heavy alloys.

Author

Yin, Sen, Ma, Guofeng, Wang, Yidan, and Wang, Xiaoqiang

Subjects

*RESIDUAL stresses, *STRESS concentration, *DEFORMATION of surfaces, *MATERIAL plasticity, *FATIGUE life

Abstract

Ultrasonic elliptical vibration cutting (UEVC) has the advantage of extending the tool life and improving the surface finish, which can realize the precision machining of hard and brittle tungsten heavy alloys (WHAs). Combined with finite element simulation and cutting experiments, this paper studies the effect of two-phase amplitude on the stress, strain, surface morphology, and residual stress distribution of the machined surface of WHAs by UEVC and draws the following conclusions: the material removal mode of WHAs in UEVC is the "Compression-Shear-Tension" composite process, and the tool cuts into the workpiece through extrusion and then forms chips through shearing and pulling. The variation of the two-phase amplitude causes the surface morphology and plastic deformation of the machined surface to exhibit up and down fluctuations, while the surface residual stress shows an alternating distribution of tensile and compressive stress, and the tensile stress is mostly distributed on the surface bulge. Increasing the amplitude Aa along the cutting direction promotes the flatness and deformation homogeneity of the surface, effectively reducing the residual tensile stress. Increasing the amplitude Ab along the cutting depth direction reduces the surface residual tensile stress but leads to the roughening and inhomogeneous deformation of the machined surface. Therefore, from the point of view of reducing the surface roughness and improving the fatigue life, the large Aa should be selected in UEVC of WHAs. In order to suppress the deterioration of the machined surface mass as large Ab is applied, it is necessary to ensure that Aa is larger than Ab. [ABSTRACT FROM AUTHOR]

Published

2024

14. Vibrations from the crypt: Investigating the possibility of vibrational communication in burying beetles.

Author

Conrad, Taina, Roberts, Louise, Steiger, Sandra, and Ringlein, Marie

Subjects

*BURYING beetles, *LASER Doppler vibrometer, *SOUND production by insects, *FOREST soils, *TELECOMMUNICATION systems

Abstract

Communication is fundamental in the animal kingdom, essential to interactions such as mating, defense, and parental care. Vibrational communication has often been overlooked in the past, but in recent decades, it has become clear that insects use substrate vibrations as a communication signal. In burying beetles of the genus Nicrophorus, which are known for their biparental brood care, both parents stridulate. Spending a considerable period of their lives underground, it is very likely the beetles utilize vibrations as part of their communication system. As playback experiments are challenging with this species, this study looked at the physical propagation of the signal of Nicrophorus vespilloides Herbst (Coleoptera: Siliphidae) through three soil types, as well as behavior, to see whether vibrational communication is possible. The aims were to determine: (1) whether the soils used in the laboratory compare to soil from the field, (2) whether the distance of propagation is enough for the range the beetles cover during brood care, (3) whether the two sexes show a difference in stridulation likelihood, (4) whether propagation of defensive signals differs from brood care signals, and (5) whether we can determine a behavior during stridulations that shows a clear and useable reaction to the signal. We manipulated beetles to induce stridulation and then used laser Doppler vibrometers to record the signals using three substrates and various distances, alongside behavioral observations. We showed that the three substrates tested, peat, coconut coir, and forest soil, displayed differences in terms of vibrational propagation, and that burying beetle stridulation signals can be transmitted up to about 25 cm in the soil. We also showed that the location where the animals stridulate exerts a significant influence on the total duration and number of stridulations. Overall, vibrational communication is in principle conceivable in this species, as the signals are transmitted far enough in the natural substrate to allow complex communication, opening possibilities for vibrational communication during this biparental brood care. [ABSTRACT FROM AUTHOR]

Published

2024

15. Occipital nerve stimulation for cluster headache: lessons to learn from the ‘voltage tuners’

Author

Linda Kollenburg, H. Arnts, M. Heitkamp, S. Geerts, C. Robinson, M. Dominguez, W. Mulleners, and E. Kurt

Subjects

Occipital nerve stimulation, Cluster headache, Voltage, Amplitude, Voltage tuner, Voltage tuning, Medicine

Abstract

Abstract Background Cluster headache (CH) is a significant health concern due to its major socioeconomic consequences and most patients being refractory to conventional strategies. For treatment resistant CH, occipital nerve stimulation (ONS) is considered an effective treatment option. Whereas most patients do not adjust the amplitude of the ONS system, a subset changes the amplitude on a regular basis using their remote control, and are therefore referred to as ‘voltage tuners’. Anxiety and self-control are thought to be central themes to this behavior. Research on this voltage tuning behavior could provide new insights in the use of ONS as acute attack treatment. To date, voltage tuning has not been assessed for CH. Hence this is a unique study aiming to investigate the occurrence and efficacy of voltage tuning in patients with CH and ONS. Methods For this analysis, patients with CH who received ONS from 2020–2024, at our university medical center, were included. All patients underwent bilateral ONS implantation. Data on attack frequency, intensity and duration were collected retrospectively. Outcomes on the response, frequency, moment during the day, duration, rationale, sensation, average increase in amplitude, and efficacy of voltage tuning were collected with prospective interviews. Results Thirty-three patients (M = 20) (42 ± 12.7 years) were included in the current analysis. At 1y follow-up, an overall response rate of 70% (23/33) was found for ONS. In total, 48% (18/33) of patients were defined as voltage tuners. Voltage tuning was performed with an average increase in amplitude of 92 (20–360)%, a frequency of 1–20 times/month and duration of 20 minutes-48 hours. Sensations of voltage tuning were described as “tingling” and/or “pinching”. The rationale for voltage tuning in patients varied from prevention and ceasing to lowering the intensity and enhance control of CH attack. Conclusions Outcomes show that voltage tuning may cease and/or terminate CH attacks and therefore raise interests in the use of ONS as acute attack treatment for patients with resistant CH treated with ONS. Future research on the occurrence and potential of voltage tuning will provide valuable insights for achieving optimal efficacy of ONS and quality of life in patients with CH.

Published

2024

16. SYSTEM FOR DETERMINING THE TECHNICAL CONDITION OF AN INTERNAL COMBUSTION ENGINE BASED ON MEASUREMENT AND ANALYSIS OF VIBRATION

Author

Artur G. Sadriev, Danir M. Shamsutdinov, Stanislav A. Viltsyn, Malik Kh. Nizamutdinov, and Olga V. Ivanova

Subjects

diagnostics, vibration diagnostics, vibration, synchronization, amplitude, frequency, matlab, software, program code, defect, internal combustion engine, ice, Construction industry, HD9715-9717.5

Abstract

The relevance of the topic of this study is due to the need to ensure reliable operation of vehicles and minimize the risks of interruptions in the operation of internal combustion engines (ICE). A common phenomenon in operation is misfiring, which negatively affects the efficiency of the ICE and can lead to emergencies that entail significant financial and temporary losses for commercial companies. The problem is the need to identify and prevent such malfunctions early. The purpose of the study is to develop and test a system for monitoring and analyzing the technical condition of the internal combustion engine through vibration measurements. Method and methodology. The work used the method of in-place diagnostics, the use of which increases efficiency of determining the technical condition of the vehicle internal combustion engine. Results. This article describes the system developed by the authors for checking the technical condition of an internal combustion engine. As a result, software to process and record vibration and timing data has been developed in MATLAB. The study of influence of defects in mechanisms and systems of internal combustion engine on uniformity of time-amplitude characteristic of vibration pulses of each individual cylinder, which occur during operation of internal combustion engine, was carried out by calculation and experimentation. As a key conclusion, it is noted that the developed system allows to quickly and non-invasively identify the idle cylinder or the one of which contribution to the rotational movement of the crankshaft is the least compared to others. The research makes it possible to provide diagnostics in a short time using available means. Scope of application of the results. the research results were tested in the conditions of a service company when diagnosing the internal combustion engines of passenger cars and trucks, and can be applied by both car repair shops and car enthusiasts.

Published

2024

17. Physical Overview of the Instability in Laminar Wall-Bounded Flows of Newtonian Fluids at Subcritical Reynolds Numbers

Author

Hamed Mirzaee, Goodarz Ahmadi, Roohollah Rafee, and Farhad Talebi

Subjects

flow, instability, transition, perturbation, amplitude, Technology

Abstract

This paper reviews the latest findings on instability and subcritical transition to turbulence in wall-bounded flows (i.e., pipe Poiseuille flow, plane channel flow, and plane Couette flow). The main focus was on the early stage of transitional flow and the appearance of coherent structures. The scaling of threshold disturbance amplitude for the onset of natural transition was discussed. Generally, the scaling proved to be in the form of Ac = O(Reg) for Newtonian fluids where Re is the Reynolds number, g ≤ -1, and Ac is the critical perturbation amplitude. It was noted that exploration of perturbations like vortices, streaks, and traveling waves together with their amplitudes could clarify the instability and transition process. Hence, this paper focused on physical behavior and realizations of the transitional flow. Finally, a summary of consequential implications and some open issues for future works were presented and discussed.

Published

2024

18. Occipital nerve stimulation for cluster headache: lessons to learn from the 'voltage tuners'.

Author

Kollenburg, Linda, Arnts, H., Heitkamp, M., Geerts, S., Robinson, C., Dominguez, M., Mulleners, W., and Kurt, E.

Subjects

*TREATMENT of cluster headaches, *ACADEMIC medical centers, *SPINAL nerves, *INTERVIEWING, *TREATMENT effectiveness, *RETROSPECTIVE studies, *DESCRIPTIVE statistics, *LONGITUDINAL method, *ELECTRIC stimulation

Abstract

Background: Cluster headache (CH) is a significant health concern due to its major socioeconomic consequences and most patients being refractory to conventional strategies. For treatment resistant CH, occipital nerve stimulation (ONS) is considered an effective treatment option. Whereas most patients do not adjust the amplitude of the ONS system, a subset changes the amplitude on a regular basis using their remote control, and are therefore referred to as 'voltage tuners'. Anxiety and self-control are thought to be central themes to this behavior. Research on this voltage tuning behavior could provide new insights in the use of ONS as acute attack treatment. To date, voltage tuning has not been assessed for CH. Hence this is a unique study aiming to investigate the occurrence and efficacy of voltage tuning in patients with CH and ONS. Methods: For this analysis, patients with CH who received ONS from 2020–2024, at our university medical center, were included. All patients underwent bilateral ONS implantation. Data on attack frequency, intensity and duration were collected retrospectively. Outcomes on the response, frequency, moment during the day, duration, rationale, sensation, average increase in amplitude, and efficacy of voltage tuning were collected with prospective interviews. Results: Thirty-three patients (M = 20) (42 ± 12.7 years) were included in the current analysis. At 1y follow-up, an overall response rate of 70% (23/33) was found for ONS. In total, 48% (18/33) of patients were defined as voltage tuners. Voltage tuning was performed with an average increase in amplitude of 92 (20–360)%, a frequency of 1–20 times/month and duration of 20 minutes-48 hours. Sensations of voltage tuning were described as "tingling" and/or "pinching". The rationale for voltage tuning in patients varied from prevention and ceasing to lowering the intensity and enhance control of CH attack. Conclusions: Outcomes show that voltage tuning may cease and/or terminate CH attacks and therefore raise interests in the use of ONS as acute attack treatment for patients with resistant CH treated with ONS. Future research on the occurrence and potential of voltage tuning will provide valuable insights for achieving optimal efficacy of ONS and quality of life in patients with CH. [ABSTRACT FROM AUTHOR]

Published

2024

19. Oscillatory Motion of a Body with a Changing Center of Mass on Flexible Suspensions.

Author

Ulyanov, V. M., Khripin, V. A., and Kiryanov, A. Yu.

Subjects

*ANGULAR momentum (Mechanics), *NONLINEAR differential equations, *CENTER of mass, *MILKING machines, *VIBRATION (Mechanics)

Abstract

We obtain a nonlinear second-order differential equation that describes forced vibrations in a milking machine. Approximate analytical solutions of the obtained differential equations are given. [ABSTRACT FROM AUTHOR]

Published

2024

20. Acoustic characterization of hydrate formation and decomposition in clay-bearing sediments.

Author

Yi-Jian Zhu, Xiao-Mei Yang, Xing Huang, Hao Li, Xiao-Hui Wang, Yi-Fei Sun, Peng Xiao, Chang-Yu Sun, and Guang-Jin Chen

Subjects

*GAS hydrates, *METHANE hydrates, *SEDIMENTS, *ILLITE, *CLAY, *VELOCITY

Abstract

Understanding the acoustic characteristics of hydrates in various sediments is crucial for hydrate resource detection and safe and efficient exploitation, as hydrate occurrence patterns vary greatly in different sediments. In this work, sediments with different bentonite contents, water saturations, and types were prepared to investigate the characteristics of P-wave velocity (reflecting the magnitude of hydrate saturation in the sediment) and amplitude (reflecting the degree of hydrate-sediment cementation) during hydrate formation and depressurization. During hydrate formation, the P-wave velocity and amplitude have similar trends. As clay content increases, the P-wave velocity increase rates quickened. On the other hand, the increased rate of P-wave velocity slows down with the increase of water saturation in the clay-bearing sediments. Comparing various types of sediment shows that the water absorption and swelling of bentonite reduce the pore space, speeding up the cementation of the hydrate with the sediment and increasing P-wave velocity at a faster rate. Correspondence between P-wave velocity and hydrate saturation is strongly related to sediment type, clay content, and water saturation. The rapidly decreasing amplitude in the early stage of hydrate depressurization indicates that hydrate in clay-bearing sediments is weakly cemented to the sediments, which is prone to stratigraphic instability. The findings of this study offer guidance for hydrate resource assessments in clay-bearing sediments as well as geologic risk estimations during hydrate mining. [ABSTRACT FROM AUTHOR]

Published

2024

21. Analysis of Structural Design and Mechanical Performance in Steel Trestle with Variable Amplitude and Span.

Author

Dai Hongwei, Zheng Shangmin, and Cheng Haigen

Subjects

SAFETY factor in engineering, STRUCTURAL steel, STEEL tubes, STRUCTURAL design, IRON & steel bridges

Abstract

[Objective] To study the load-bearing capacity of variable span and amplitude steel trestle bridges under multiple loading conditions. [Method] A steel trestle bridge in the construction of the Xiangtang-Putian left line special bridge on the Xiangtang-Putian connection railway line is taken as the research object. A numerical model was established by using the bridge limited element software Midas civil to carefully study the stress state of each component under five different conditions. [Result] The results show that the bailey beam has a large safety margin under different conditions; the safety margin factor of the pile top distribution beam is small under condition 1 and 2, reaching only 1.23 and 1.20, and the safety margin factor of its stiffness is 1.20 under condition 5. It is necessary to avoid excessive temporary loads during construction; the positive stress safety margin factor of the steel tube column under condition 5 is only 1.50, and measures should be taken to ensure safety during construction; the design of the triangular area at the corner meets the structural performance requirements. [Conclusion] The results may provide some reference for the design of similar trestle bridges. [ABSTRACT FROM AUTHOR]

Published

2024

22. Song amplitude variation in Masked Gnatcatcher (Polioptila dumicola) as response to traffic noise.

Author

León, Evelina J., Lorenzón, Rodrigo E., Sovrano, Lorena V., Beltzer, Adolfo H., and Peltzer, Paola M.

Subjects

TRAFFIC noise, BIRD communication, NOISE pollution, BIRD behavior, HUMAN voice, BIRD populations

Abstract

The vocal behavior of Neotropical birds has received less attention compared to birds in Northern temperate regions. Many bird species rely on acoustic communication to establish and maintain territories and to interact with conspecifics. For this reason, the growing threat of noise pollution in their habitats is a cause for concern. Birds perform behavioral adjustments when confronted with atypical environmental situations (e.g. urban noises, artificial light, human voice or vegetation loss). The aim of this study was to investigate vocal adjustments of Masked Gnatcatcher (Polioptila dumicola) males in environments located near a route with varying level of traffic noise (measured in decibels) and differing percentage of cover vegetation. Linear mixed models (LMMs) were used to analyze the effects of both environmental parameters in P. dumicola song. Results reveal that P. dumicola increases the amplitude of its songs in response to higher levels of traffic noise. Cover vegetation did not show any effect on song parameters. The model with the highest significance demonstrates a positive linear relationship between amplitude and traffic noise. These findings underscore the importance of studying communication alterations in noisy environments and understanding the ecological consequences of such effects on bird populations. [ABSTRACT FROM AUTHOR]

Published

2024

23. Realistic Precipitation Diurnal Cycle in Global Convection‐Permitting Models by Resolving Mesoscale Convective Systems.

Author

Song, Jinyan, Song, Fengfei, Feng, Zhe, Leung, L. Ruby, Li, Chao, and Wu, Lixin

Subjects

*MESOSCALE convective complexes, *CLIMATE change models, *THUNDERSTORMS, *CLIMATE change, *MODES of variability (Climatology)

Abstract

Accurately representing the precipitation diurnal cycle has long been a challenge for global climate models (GCMs). Here we evaluate the precipitation diurnal cycle in the DYAMOND global convection‐permitting models (CPMs) and CMIP6 HighResMIP models. Comparison of the high‐ (25–50 km) and low‐resolution (100–250 km) models with parameterized convection in HighResMIP shows that simply increasing model resolution does not noticeably improve the precipitation diurnal cycle. In contrast, CPMs can better capture the observed amplitude and timing of precipitation diurnal cycle. However, the simulated spatial variation of timing in CPMs is smaller than observed, leading to an exaggeration of the spatially averaged diurnal amplitude. The better‐simulated precipitation diurnal cycle in the CPMs is tied to mesoscale convective systems (MCSs), which contribute about half of the total precipitation. The observed life cycle of MCSs, including initiation and mature stages, is well captured in the CPMs, leading to a more realistic precipitation diurnal cycle. Plain Language Summary: As a basic mode of climate variability, the diurnal cycle is a key metric that has been used to benchmark climate models. The current state‐of‐the‐art GCMs struggle to accurately represent the precipitation diurnal cycle, frequently peaking too early compared to the observations. Due to the coarse resolution and the use of convection parameterization, GCMs are also unable to simulate organized convective storms, which often exhibit a distinct diurnal cycle. With the emergence of global storm‐resolving models at kilometer‐scale resolution, this study evaluates the diurnal cycle of precipitation simulated by global storm‐resolving models and high‐resolution GCMs. We find that at resolutions between ∼25 and 250 km, increasing resolution has limited effects on the precipitation diurnal cycle but global CPMs can reproduce the observed precipitation diurnal cycle much better as they can better represent organized convective storms. Key Points: Precipitation diurnal cycle is systematically evaluated in DYAMOND simulations from global convection‐permitting models (CPMs) and CMIP6 modelsBoth the amplitude and phase of the precipitation diurnal cycle are better simulated by CPMs than CMIP6 high‐resolution modelsThe global CPMs excel in reproducing the precipitation diurnal cycle owing to better simulated mesoscale convective systems [ABSTRACT FROM AUTHOR]

Published

2024

24. 一种基于ESP32-CSI的粮食水分检测方法.

Author

高向上, 杨卫东, and 沈二波

Subjects

*CONVOLUTIONAL neural networks, *PRINCIPAL components analysis, *FEATURE selection, *FEATURE extraction, *MOISTURE measurement

Abstract

To realize fast and accurate measurement of grain moisture with low cost, the miniaturized channel state information (CSI) acquisition equipment was used for grain moisture detection. Two feature selection algorithms of random forest and principal component analysis were adopted to extract the feature subcarriers of the CSI amplitude index, and the ten kinds of grain moisture were classified based on the selected feature subcarriers. Considering that the application in the mobility scene was limited by power consumption and arithmetic power, the breadth learning system with simple structure, fast operation speed and low arithmetic power requirement was selected for processing CSI data and was compared with the traditional convolutional neural network (CNN) in terms of accuracy and training time. The enhancement nodes of the broad learning system (BLS) were dynamically increased. The experimental results show that the principal component analysis (PCA) algorithm maximally eliminates the redundant information in the CSI data. Compared with the CNN, the BLS can achieve faster speed and better accuracy. Therefore, the PCA-BLS combination achieves the best classification results. Increasing the number of enhancement nodes can increase the training time, but the recognition accuracy is improved to some extent. [ABSTRACT FROM AUTHOR]

Published

2024

25. New Vibration Viscometer for Measuring the Viscosity of Liquids.

Author

Shamuratov, J., Ruziev, I., Ismoilov, M., and Boltoyev, A.

Subjects

*VISCOSITY, *VISCOSIMETERS, *INDUSTRIAL design, *PETROLEUM

Abstract

A new vibrating plate viscometer has been developed which is used and makes it possible to instantly and continuously measure the viscosity of a high-temperature material. This viscometer is designed for industrial use and enables one to measure the viscosity automatically to a high accuracy. This method of measuring the viscosity is currently used in various fields, such as the study of newly produced oil products, the selection of the optimal flow characteristics for various transfer conditions, and the development and improvement of preparing fuels. [ABSTRACT FROM AUTHOR]

Published

2024

26. Characterisation of the observed diurnal cycle of precipitation over the Maritime Continent.

Author

Mustafa, Jack M., Matthews, Adrian J., Hall, Rob A., Heywood, Karen J., and Azaneu, Marina V. C.

Subjects

*COASTS, *CONTINENTS, *SEASONS

Abstract

This study investigates the temporal and spatial complexities of the mean diurnal cycle (DC) of precipitation over the Maritime Continent during the wet season using the Integrated Multi‐satellite Retrievals for GPM (IMERG) data product and highlights systematic inaccuracies of amplitude and phase representation using the first diurnal harmonic (FDH). The first‐order nature of the DC of precipitation is already well documented, typically featuring heavy precipitation over near‐coastal land areas in the late afternoon and evening followed by maximum precipitation overnight over the surrounding seas, with offshore propagation evident in places. The DC is often described concisely in terms of an amplitude and phase based on the FDH parameters, however the omission of higher‐order components of variability results in the FDH parameters being poor indicators of the magnitude and peak time of diurnal variability in many locations. This study improves the accuracy of the amplitude and phase parameters by characterising the DC using two novel waveforms—a skew‐permitting waveform and a spike‐permitting waveform—which are constructed to characterise single‐peak cycles with rapid transitions more accurately. Key characterisation improvements include correction of a phase lag (averaging approximately 1 h) over near‐coastal land areas and capture of the short‐lasting but extreme peak in precipitation rate over Java which increases the amplitude by the order of 20%. The new skew parameter shows that locations close to coastlines experience rapid intensification and gradual weakening of diurnal precipitation, while there is a tendency toward gradual intensification and rapid weakening far inland and offshore. The new spike parameter shows that near‐coastal land experiences a brief and precisely timed peak in precipitation, whereas diurnal activity over inland locations is longer‐lasting and less precisely timed, and waters surrounding Java experience a precisely timed suppression of precipitation. Other potential applications of the novel waveforms used in this study are discussed. [ABSTRACT FROM AUTHOR]

Published

2024

27. Assessing Process Control in the Foundry.

Author

Ward, Rebecca R. and Monroe, Charles

Subjects

*ACOUSTIC resonance, *DATA logging, *FOUNDRIES, *TRENDS, *STATISTICS, *TREND analysis, *QUALITY control charts

Abstract

Relying on scrap rates alone to assess process control in the foundry can be deceiving. Depending on the inspection method used, it is possible to sort grossly non-conforming parts, while still allowing a wide window of acceptance, masking a process that is out of control. Modern methods of acoustic resonance testing (ART) allow for detailed data logging of both part weight and resonant frequency peak data. Monitoring these two factors at the lot level can give foundry managers insight into how consistent their process is both within a single date code and across multiple date codes. The information collected during quality testing can and should be combined with statistical information gathered at the front of the foundry (design, tooling, molding, inoculation, pouring, cooling, and shakeout) and used to adjust the process to achieve smaller data spreads and more consistent and repeatable process control. Once a process is deemed to be under control, consideration should be given to monitoring the defined specification limits and subsequent control limits using statistical trend analysis as a means for ensuring a process is not approaching a condition in which the opportunity for quality issues can arise. [ABSTRACT FROM AUTHOR]

Published

2024

28. Effect of Mechanical Vibration on Microstructure and Mechanical Properties of AlSi5Cu3 Alloy.

Author

Ayar, Vivek S., Gajjar, Darshil J., and Sutaria, Mayurkumar P.

Subjects

*VIBRATION (Mechanics), *TENSILE strength, *IMPACT (Mechanics), *GRAIN refinement, *ALLOYS

Abstract

The objective of the present study was to investigate the impact of mechanical vibration on the microstructure and mechanical properties of AlSi5Cu3 alloy. To achieve this, a custom vibrating setup was developed in-house to apply mechanical vibrations to the aluminum alloy. The vibrations were applied at a fixed frequency of 30 Hz, with varying vibrational amplitudes of 10, 15, and 20 μm, and different vibration times of 1, 1:30, and 2 min. The analysis of the conventional cast sample revealed a coarse dendritic structure with an average grain count of 2316 grains/mm2. This sample exhibited the lowest hardness and ultimate tensile strength measuring 38.25 HRB and 172 MPa, respectively. However, as the vibrational amplitude and time increased, significant improvements were observed in grain refinement and mechanical properties. The maximum grain refinement was achieved at a vibrational amplitude of 20 μm and a vibration time of 2 min. Under these conditions, the number of grains per unit area increased to 3785 grains/mm2, representing a 63% increment. Additionally, the coarse dendritic structure transformed into an equiaxed grain structure. The maximum percentage increment of hardness, ultimate tensile strength, and yield strength is 19, 16, and 16% for 20 μm of vibrational amplitude and vibration time of 2 min as compared to the conventional cast sample. The hardness, ultimate tensile strength and yield strength are 45.39 HRB, 199 MPa and 141 MPa, respectively. These findings highlight the positive influence of mechanical vibration on the microstructure and mechanical properties of AlSi5Cu3 alloy. [ABSTRACT FROM AUTHOR]

Published

2024

29. ОСОБЛИВОСТІ ПРОЯВУ ВІБРАЦІЙ ДВИГУНА Z14XEP НА ХОЛОСТИХ ОБЕРТАХ ПРИ НАВАНТАЖЕННІ СИСТЕМОЮ ГІДРОПІДСИЛЮВАЧА РУЛЬОВОГО КЕРУВАННЯ.

Author

КУБІЧ, В. І., ЧЕРНЕТА, О. Г., and КАНСЬКИЙ, А. В.

Subjects

HYDRAULIC control systems, FREQUENCIES of oscillating systems, HYDRAULIC cylinders, ANATOMICAL planes, ELECTRIC pumps

Abstract

The paper presents the results of determining the amplitude-frequency characteristic of the Z14XEP engine vibration of the Opel Astra G (F69) at idle speed depending on the steering wheel position. The opposite of changes in the values of the amplitude and frequency of mechanical vibrations of the engine on its supports was determined: an increase in amplitude and a decrease in frequency under the condition of the beginning of the movement of the hydraulic fluid through the power cylinder of the hydraulic booster. The actuation of the hydraulic boost system with an electric pump drive generally causes an increase in the amplitude of engine oscillations by 24.2% in the longitudinal and vertical planes, which occurred before the fluid was replaced, and by 14.4% after its replacement. It was determined that, regardless of the state of the hydraulic fluid at the beginning of its circulation through the cavities of the amplifier's power cylinder, the frequency of mechanical vibrations of the engine decreases in the longitudinal and vertical planes by 25%. In the transverse plane, the oscillation frequency is reduced by 35%, except when the hydraulic fluid is changed, when the oscillation frequency remains unchanged. It has been established that the quality of the hydraulic fluid of the power steering system significantly affects the change in mechanical vibrations of the engine only when the steering wheel is deviated from the neutral position. It was determined that a decrease in the viscosity of the new hydraulic fluid by 8.3% compared to the fluid that was replaced causes changes only in the amplitude of engine oscillations. In the longitudinal plane, the oscillation amplitude decreases by 13.3%, in the vertical plane - by 15.1%, and in the transverse plane, the oscillation increases by 25.4%. Reducing the viscosity of the hydraulic fluid used reduced the resistance to its movement through the holes, channels and pipelines of the power steering system and reduced the power take-off to drive the power steering pump. [ABSTRACT FROM AUTHOR]

Published

2024

30. Phase and Amplitude Changes in Rainfall Annual Cycle Over Global Land Monsoon Regions Under Global Warming.

Author

Lv, Songxin, Song, Fengfei, Dong, Hongqiang, and Wu, Lixin

Subjects

*RAINFALL periodicity, *GLOBAL warming, *MONSOONS, *RAINFALL, *HEAT capacity, *SEASONS

Abstract

Land monsoon rainfall has a distinct annual cycle. Under global warming, whether the phase and amplitude of this annual cycle would be changed is still unclear. Here, a global investigation is conducted using 34 CMIP6 and 34 CMIP5 models under a high emission scenario. Seasonal delays would occur in the Southern Hemisphere (SH) American (3.43 days), Northern Hemisphere (NH) African (5.98 days) and SH African (3.76 days) monsoon regions, while no robust signal is found in other monsoon regions. Except NH American monsoon, amplitude is enhanced in all the monsoon regions. Compared to amplitude, the phase changes dominate the future changes of precipitation in the SH American, NH African and SH African monsoon regions. In these phase‐dominated regions, atmospheric energetic framework is proved to be reliable at regional scale and the enhanced effective atmospheric heat capacity is found to be the dominant factor. Plain Language Summary: Monsoon rainfall sustains nearly two‐thirds of the world's population. The arrival timing and the difference between maximum and minimum of monsoon are the main features of concern. We revealed that rainfall would be delayed over the Amazon, Sahel and South Africa and enhanced in most monsoons except North American monsoon under global warming. In the Amazon, Sahel and South Africa, future changes of the arrival timing can be more remarkable compared to the changes of range. These regional changes can be resulted from physical constraints related to atmospheric energy under global warming, which was previously proposed at larger scale and has been proved to be reliable here at regional monsoons. Key Points: Precipitation would be robustly seasonally delayed over the South American, North African and South African monsoons under global warmingThe phase delays would dominate precipitation annual cycle changes in the above three regions, while amplitude changes dominate the othersThe enhanced effective atmospheric heat capacity under warming is key to the seasonal delay of precipitation at the phase‐dominated regions [ABSTRACT FROM AUTHOR]

Published

2024

31. Understanding the variability of the electrophysiologic laryngeal adductor reflex.

Author

Simon, Mirela V., Rutkove, Seward B., Ngo, Long, Fehnel, Corey R., Das, Alvin S., Sarge, Todd, Bose, Somnath, Selim, Magdy, and Kumar, Sandeep

Subjects

*ACTIVATION energy, *REFLEXES, *VAGUS nerve, *INTRAVENOUS anesthesia, *CLINICAL pathology

Abstract

• Latencies of cR1 have low intra-class variability. • Delayed cR1 onset and high cR1 activation thresholds are indicative of ELAR dysfunction. • Unsustained cR1, desynchronized cR1, and absence of cR2 signal an abnormal ELAR behavior. The laryngeal adductor reflex (LAR) is vital for airway protection and can be electrophysiologically obtained under intravenous general anesthesia (IGA). This makes the electrophysiologic LAR (eLAR) an important tool for monitoring of the vagus nerves and relevant brainstem circuitry during high-risk surgeries. We investigated the intra-class variability of normal and expected abnormal eLAR. Repeated measures of contralateral R1 (cR1) were performed under IGA in 58 patients. Data on presence/absence of cR2 and potential confounders were also collected. Review of neuroimaging, pathology and clinical exam, allowed classification into normal and expected abnormal eLAR groups. Using univariate and multivariate analysis we studied the variability of cR1 parameters and their differences between the two groups. In both groups, cR1 latencies had coefficients of variation of <2%. In the abnormal group, cR1 had longer latencies, required higher activation currents and was more frequently desynchronized and unsustained; cR2 was more frequently absent. cR1 latencies show high analytical precision for measurements. Delayed onset, difficult to elicit, desynchronized and unsustained cR1, and absence of cR2 signal an abnormal eLAR. Understanding the variability and behavior of normal and abnormal eLAR under IGA can aid in the interpretation of its changes during monitoring. [ABSTRACT FROM AUTHOR]

Published

2024

32. Development and Performance Evaluation of Machine-Type Reciprocating Churner.

Author

Ebrahimi, Mashallah, Khoshnam, Farhad, Kamandar, Mohammad Reza, and Namjoo, Moslem

Subjects

*POWER transmission, *BUTTER, *PRODUCTION methods, *BUTTERMILK, *DEER, *GOAT milk

Abstract

One of the old methods of butter production, which is still used in parts of Africa and the West of Asia, is the process of churning in the skin of a goat or deer that is half filled with milk or yogurt and air, which is beaten reciprocating. This type of butter production in the current research is mechanized and is called machine-type reciprocating butter churner (MRBC). This device is composed of chassis, churner, churn carrier, connector or crank, rotating wheel, driving system or power transmission and balance weights. In order to evaluate MRBC, the effect of churning amplitude (40, 60 and 80 cm), churning frequency (50, 61 and 72 cpm) and the churner volume (13.5 and 21.3 liters) on the butter yield was investigated. The results showed that the amplitude, frequency and churner volume had a significant effect on the butter yield at the level of 1%. Regardless of the churner volume, the minimum and maximum butter yield was obtained in the lowest and highest amplitude and frequency, respectively. The present study gives a general overview of the butter yield affected by machine mechanical parameters. [ABSTRACT FROM AUTHOR]

Published

2024

33. Structural Health Monitoring of the Metallic Plate Using Guided Waves: An Experimental Study.

Author

Ismail, Nurazima, Kamarul Anuar, Kamilia Nur Syarah, Roslan, Mohammad Ruzilan, and Zohari, Mohd Hafizi

Subjects

*STRUCTURAL health monitoring, *OPTICAL fiber detectors, *ALUMINUM plates

Abstract

Structural health monitoring is implemented to monitor the structural integrity of the structure. The guided wave technique is utilized to investigate the health status of the aluminum plate. The wave is actuated at 6 kHz using a PZT actuator and recorded using the optical fiber sensor. The wave is recorded on the intact plate at 2‐ and 4‐mm thickness. Three different defect depths are introduced on the 4 mm plate's thickness, and three different defect widths are introduced on the 2 mm plate's thickness. The recorded waves measured on the 1/3, 2/3, and 3/3 of the defect depths show a wave amplitude decrement of 72%, 84%, and 88%, respectively, compared to the wave amplitude of the intact plate. For the defect widths of 1, 1.5, and 2 cm, the decrement of the wave amplitude is 83%, 87%, and 94%, respectively. The severity of the structure can be monitored by the decrement of the wave amplitude. The finding shows that the guided wave approach is able to be utilized as one of the promising techniques to monitor the structural integrity of the metallic structure. [ABSTRACT FROM AUTHOR]

Published

2024

34. Physical Overview of the Instability in Laminar Wall-Bounded Flows of Newtonian Fluids at Subcritical Reynolds Numbers.

Author

Mirzaee, Hamed, Ahmadi, Goodarz, Rafee, Roohollah, and Talebi, Farhad

Subjects

NEWTONIAN fluids, REYNOLDS number, POISEUILLE flow, PERTURBATION theory, TRAVELING waves (Physics)

Abstract

This paper reviews the latest findings on instability and subcritical transition to turbulence in wall-bounded flows (i.e., pipe Poiseuille flow, plane channel flow, and plane Couette flow). The main focus was on the early stage of transitional flow and the appearance of coherent structures. The scaling of threshold disturbance amplitude for the onset of natural transition was discussed. Generally, the scaling proved to be in the form of Ac = O(Reγ ) for Newtonian fluids where Re is the Reynolds number, γ ≤ -1, and Ac is the critical perturbation amplitude. It was noted that exploration of perturbations like vortices, streaks, and traveling waves together with their amplitudes could clarify the instability and transition process. Hence, this paper focused on physical behavior and realizations of the transitional flow. Finally, a summary of consequential implications and some open issues for future works were presented and discussed. [ABSTRACT FROM AUTHOR]

Published

2024

35. 双弹性和单弹性锭子振动性能研究.

Author

张素香, 石艳青, and 于贺春

Abstract

Copyright of Cotton Textile Technology is the property of Cotton Textile Technology 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

36. A Study on Powder Spreading Quality in Powder Bed Fusion Processes Using Discrete Element Method Simulation.

Author

Avrampos, Panagiotis and Vosniakos, George-Christopher

Subjects

DISCRETE element method, MANUFACTURING processes, RESEARCH personnel, SURFACE roughness, POWDERS

Abstract

Powder deposition is a very important aspect of PBF-based additive manufacturing processes. Discrete Element Method (DEM) is commonly utilized by researchers to examine the physically complex aspects of powder-spreading methods. This work focuses on vibration-assisted doctor blade powder recoating. The aim of this work is to use experiment-verified DEM simulations in combination with Taguchi Design of Experiments (DoE) to identify optimum spreading parameters based on robust layer quality criteria. The verification of the used powder model is performed via angle of repose and angle of avalanche simulation–experiment cross-checking. Then, four criteria, namely layer thickness deviation, surface coverage ratio, surface root-mean-square roughness and true packing density, are defined. It has been proven that the doctor blade's translational speed plays the most important role in defining the quality of the deposited layer. The true packing density was found to be unaffected by the spreading parameters. The vertical vibration of the doctor blade recoater was found to have a beneficial effect on the quality of the deposited layer. Ultimately, a weighted mean quality criteria analysis is mapped out. Skewness and kurtosis were proven to function as effective indicators of layer quality, showing a linear relation to the weighted means of the defined quality criteria. The specific weights that optimize this linearity were identified. [ABSTRACT FROM AUTHOR]

Published

2024

37. Investigating soil layers with ground penetrating radar in the modern Yellow River Delta of China.

Author

Wang, Ping, Li, Xinju, Min, Xiangyu, Xu, Shuo, Zhao, Guangming, and Fan, Deqiang

Subjects

GROUND penetrating radar, SOIL moisture, PLATEAUS, ELECTROMAGNETIC wave propagation, SOIL profiles, SOILS, LAND cover

Abstract

Soil layers affect the vertical movement of moisture and salt, eventually resulting in land cover and land use pattern changes. This study explored the ability of ground penetrating radar (GPR) to detect soil layers in the modern Yellow River Delta of China and assessed its accuracy. It was found that soil moisture and salt had a strong dampening effect on the electromagnetic wave signal which resulted in blurred GPR images of the soil profile below 1 m. The cultivated soil layers of different crop types, such as rice, wheat, corn and cotton, were accurately identified in GPR images. To estimate an individual soil layer thickness, the propagation velocity of the electromagnetic wave was calculated using soil mass moisture content, and the propagation time was confirmed by comparing the GPR image with the amplitude–time plot of the soil profile. The estimated thickness was 1.02 times the thickness determined in the field and the average estimation error was 0.04 m, which was 24.09% of the soil layer thickness determined in the field. The second derivative value of envelope amplitude energy with time (SDEA) was used to describe the amplitude change in the soil layers. The SDEA has negative logarithmic and power function relationships with soil mass moisture content and electrical conductivity, respectively. The present results provide a reference database for future quantitative soil investigation in the sedimentary plain area using GPR. [ABSTRACT FROM AUTHOR]

Published

2024

38. 考虑流体可压缩性的液压阻尼器振幅和动刚度频率依赖性研究.

Author

黄鹏辉, 康绍鹏, 强红宾, 刘凯磊, and 李煜昕

Abstract

Copyright of Machine Tool & Hydraulics is the property of Guangzhou Mechanical Engineering Research Institute (GMERI) 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

39. Towards a single parameter for the assessment of EEG oscillations.

Author

Tozzi, Arturo and Peters, James F.

Abstract

The single macroscopic flow on the boundary of a closed curve equals the sum of the countless microscopic flows in the enclosed area. According to the dictates of the Green's theorem, the counterclockwise movements on the border of a two-dimensional shape must equal all the counterclockwise movements taking place inside the shape. This mathematical approach might be useful to analyse neuroscientific data sets for its potential capability to describe the whole cortical activity in terms of electric flows occurring in peripheral brain areas. Given a map of raw EEG data to coloured ovals in which different colours stand for different amplitudes, the theorem suggests that the sum of the electric amplitudes measured inside every oval equals the amplitudes measured just on the oval's edge. This means that the collection of the vector fields detected from the scalp can be described by a novel, single parameter summarizing the counterclockwise electric flow detected in the outer electrodes. To evaluate the predictive power of this parameter, in a pilot study we investigated EEG traces from ten young females performing Raven's intelligence tests of various complexity, from easy tasks (n = 5) to increasingly complex tasks (n = 5). Despite the seemingly unpredictable behavior of EEG electric amplitudes, the novel parameter proved to be a valuable tool to to discriminate between the two groups and detect hidden, statistically significant differences. We conclude that the application of this promising parameter could be expanded to assess also data sets extracted from neurotechniques other than EEG. [ABSTRACT FROM AUTHOR]

Published

2024

40. QUANTUM RELATIVISTIC EQUATION FOR A PROBABILTY AMPLITUDE.

Author

Poluektov, Yu. M.

Subjects

WAVE packets, ENERGY levels (Quantum mechanics), HARMONIC oscillators, RELATIVISTIC energy, EQUATIONS, QUANTUM mechanics

Abstract

The relativistic quantum equation is proposed for the complex wave function, which has the meaning of a probability amplitude. The Lagrangian formulation of the proposed theory is developed. The problem of spreading of a wave packet in an unlimited space is solved. The relativistic correction to the energy levels of a harmonic oscillator is found, leading to a violation of their equidistance. [ABSTRACT FROM AUTHOR]

Published

2024

41. Simultaneous Trunk and Canopy Shaking Improves Table Olive Harvester Efficiency versus Trunk Shaking Alone

Author

Homayouni, Taymaz, Maharlooei, Mohammadmehdi, Toudeshki, Arash, Ferguson, Louise, and Ehsani, Reza

Subjects

amplitude, frequency, fruit removal, sensor, table olive

Abstract

Production of California table olives has declined significantly in recent years due to hand harvesting costs, often over 60% of gross return. Mechanical harvesting could sharply decrease harvest costs, increasing economic viability. Mechanical harvester efficiency is a combination of the percentage of the total fruit on a tree removed by a harvester, and the time required to do so. A comparison between an experimental canopy contact shaker and a commercial trunk shaker demonstrated low harvest efficiencies and no significant differences in harvester efficiency between the two, averaging no more than 8%. However, simultaneously combining both shaking methods increased fruit removal to an economically feasible 75% and produced better fruit quality. Combining both shaking methods increased the price per ton by 63% versus trunk shaking and 35% versus canopy shaking. These results suggest a mechanical olive harvester that simultaneously combines trunk and canopy shaking is more efficient than either shaking method alone, and, has potential for economically feasible mechanical table olive harvesting.

Published

2023

42. A comprehensive review on the Dynamical behavior of heat and fluid flow mechanism: Thermal performance across different geometries

Author

Hossam A. Nabwey, Muhammad Ashraf, Zia Ullah, A.M. Rashad, and Ali J. Chamkha

Subjects

Dynamic behavior, Heat transfer, Transient fluid flow, Amplitude, Mass transfer, Reduced gravity, Applied mathematics. Quantitative methods, T57-57.97

Abstract

The prominent novelty of current review is to exhibit the fluctuating and oscillatory convective heat transfer properties along various geometries with magnetic force, variable density, Prandtl number, buoyancy force and magnetic Prandtl number effects. The significance of present work is to illustrate a comprehensive review on transient convective heat transfer. Transient convective heat transfer plays an essential role in various technological and environmental applications, including climate control, structure safety, engines, thermal control, computer heating and cooling, and energy safety. The literature primarily focuses on steady temperature and velocity domains, with few studies exploring time-varying fluid flow in forced, natural, or mixed convective mechanisms with different methods. In current review, justification of results was performed by using oscillating stokes conditions directly in partial differential models. The similarity variables and stream functions are used in literature but in current review, the primitive variable transformation is used with implicit form of finite difference method and Gaussian elimination technique through FORTRAN and Tecplot-360 programming tools. The governing model is reduced into steady, real and imaginary form to explore steady and oscillating convective heat transmission. Transient flows have gained significance due to their ability to achieve large oscillating convective heat transfer rates. Compared with steady movement, oscillating flows exhibit higher velocity variations along the heated surface. Periodic flow produces an improved transient surface heat transmission rate than steady flow. Predicting and controlling transients in thermal exchangers requires a concept of transient forced convection heat transport. Transient convective thermal transmission solutions are important for ensuring the effectiveness and reliability of electrical components, nuclear and thermal power stations, heat-generating engines, steam turbines, condensation systems, catalytic converters, heat shielding for spacecraft, electrical devices, internal combustion engines, air conditioning and refrigerator components, cooling networks for batteries, generators, and transformers. It is found that the frequency of convective heat transport enhances through periodic and oscillating stokes variables. It was depicted that the higher amplitude in convective heat transfer was displayed for each choice of magnetic force parameter around two angles π/4 and π of circular magnetized surface. It was depicted that the maximum transient convective heat transmission was reported along vertical angle π/2 with buoyancy force, Prandtl and magnetic Prandtl values.

Published

2024

43. Fundamental Concepts in Power System Analysis

Author

Rahmani-Andebili, Mehdi and Rahmani-Andebili, Mehdi

Published

2024

44. Ultrasound

Author

McLintic, Alan, Dimech, Julian, Birch, Craig, editor, Byers, Stacey, editor, Dimech, Julian, editor, Lightfoot, Nicholas, editor, Randall, Nic, editor, Siu, Amanda, editor, Taylor, Matthew, editor, Webb, Michael, editor, and Wong, Andrew, editor

Published

2024

45. Ocean Sound: More than Just Amplitude

Author

Miksis-Olds, Jennifer L., Wilford, Dylan C., Martin, S. Bruce, Lepper, Paul, Section editor, Popper, Arthur N., editor, Sisneros, Joseph A., editor, Hawkins, Anthony D., editor, and Thomsen, Frank, editor

Published

2024

46. Flexible Implantable Device Shape History

Author

Vogel, Jeffrey, Berg, Brian T., Dawson, James, Kamenskiy, Alexey, Baxter, Walt, editor, and Lahm, Ryan, editor

Published

2024

47. Deep Brain Stimulation with Machine Learning Classification Through Conformal Wearables

Author

LeMoyne, Robert, Mastroianni, Timothy, Whiting, Donald, Tomycz, Nestor, Mukhopadhyay, Subhas Chandra, Series Editor, LeMoyne, Robert, Mastroianni, Timothy, Whiting, Donald, and Tomycz, Nestor

Published

2024

48. Electronic Speckle Pattern Interferometry for Life Science

Author

Foitzik, Andreas H., Werner, Ronald, Edel, Carl-Heinz, Just, Verena, Böhme, Andrea, Ceccarelli, Marco, Series Editor, Corves, Burkhard, Advisory Editor, Glazunov, Victor, Advisory Editor, Hernández, Alfonso, Advisory Editor, Huang, Tian, Advisory Editor, Jauregui Correa, Juan Carlos, Advisory Editor, Takeda, Yukio, Advisory Editor, Agrawal, Sunil K., Advisory Editor, Montanari, Roberto, editor, Richetta, Maria, editor, Febbi, Massimiliano, editor, and Staderini, Enrico Maria, editor

Published

2024

49. A Comparative Study of the Non-nasal and Nasal Voice in Hindustani Vocal Music

Author

Mandal, Aditi, Patranabis, Anirban, Banerjee, Kaushik, Deb, Argha, Sengupta, Ranjan, Ghosh, Dipak, Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Hirose, Keikichi, editor, Joshi, Deepak, editor, and Sanyal, Shankha, editor

Published

2024

50. A New Method of Noise Spectrum Technology to Identify Reservoir Flow Profile

Author

Wang, Jun-ling, Yu, Tie-feng, Tang, Qin-xi, Xiong, Xiao-lin, Pang, Li-yuan, Wang, Qi, Zhang, Jin-wu, Dong, Wen-hao, Meng, Ye, Wu, Wei, Series Editor, and Lin, Jia'en, editor

Published

2024