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204 results on '"Fiber coating"'

2. The Impact of Liquids and Saturated Salt Solutions on Polymer-Coated Fiber Optic Sensors for Distributed Strain and Temperature Measurement.

Author

Weisbrich, Martin, Messerer, Dennis, Holzer, Frank, Trommler, Ulf, Roland, Ulf, and Holschemacher, Klaus

Subjects
*OPTICAL fiber detectors, *SOLUTION (Chemistry), *DISTRIBUTED sensors, *TEMPERATURE measurements, *STRAIN sensors, *MAGNESIUM chloride
Abstract

The application of distributed fiber optic strain and temperature measurement can be utilized to address a multitude of measurement tasks across a diverse range of fields, particularly in the context of structural health monitoring in the domains of building construction, civil engineering, and special foundation engineering. However, a comprehensive understanding of the influences on the measurement method and the sensors is essential to prevent misinterpretations or measurement deviations. In this context, this study investigated the effects of moisture exposure, including various salt solutions and a high pH value, on a distributed strain measurement using Rayleigh backscattering. Three fiber optic sensors with different coating materials and one uncoated fiber were exposed to five different solutions for 24 h. The study revealed significant discrepancies (∼38%) in deformation between the three coating types depending on the surrounding solution. Furthermore, in contrast to the prevailing literature, which predominantly describes swelling effects, a negative deformation (∼−47 μ ε ) was observed in a magnesium chloride solution. The findings of this study indicate that corresponding effects can impact the precision of measurement, potentially leading to misinterpretations. Conversely, these effects could be used to conduct large-scale monitoring of chemical components using distributed fiber optic sensing. [ABSTRACT FROM AUTHOR]

Published
2024
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3. Strength evaluation of alkali treated Sabai Grass (Eulaliopsis binata) fibers and its reinforced composites.

Author

Kumar, Shambhu, Das, Ratnakar, and Parida, Sambit Kumar

Abstract

This investigation aims to use Sabai grass fiber as a substitute reinforcement in epoxy-based composite systems, which is environment friendly and performs similarly to other natural fibers. Composite laminates are prepared with treated and untreated Sabai fibers reinforcement layered in different orientations using vacuum resin transfer molding method. Fabricated composite laminates have been evaluated for their mechanical properties (tensile strength, flexural strength, and impact strength). The effect of varying concentrations (3%, 5%, 7%, and 9 wt.%) of NaOH treatment and fiber reinforcement angle on Sabai fiber-reinforced composite laminates on its physical and mechanical properties are experimentally evaluated. The specimen made with 5 wt.% of NaOH-treated has shown maximum tensile properties because of the higher fiber concentration in the composite laminate. The thickness of fibers gets reduced as the central voids contract after the treatment. The treated strand reinforced (0°/0°/0°/0°) composite laminate has maximum tensile (103.15 MPa) and flexural strength (143 MPa). In addition, it has a higher density (1.20 g/cm3) and less porosity contents (0.70%). The untreated reinforcement has a higher impact strength. The adhesion mechanism at the fiber matrix interface has been studied using field emission scanning electron microscopy by analyzing the fiber surface morphology after treatment and in the fractured samples. The correlation of the mechanical properties of the laminate has been discussed with consideration of interfacial adhesion mechanism, fiber pull-outs, and fiber-matrix cracking phenomenon. FTIR analyses confirm the removal of the peak at around 1735 cm−1 that belongs to the acetyl group of hemicellulose attributed to C=O stretching vibration, and the peak at 1253 cm−1 is associated with the lignin, which is in close agreement with chemical analysis. [ABSTRACT FROM AUTHOR]

Published
2024
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4. EXPERIMENTAL INVESTIGATION ON CNC MILLING AND MECHANICAL PERFORMANCE OF FIBER COATED WIRE MESH HYBRID COMPOSITES.

Author

THANGAMANI, JAYARAMAN and KRISHNASAMY, PRABU

Subjects
*NATURAL fibers, *MECHANICAL alloying, *HYBRID materials, *WIRE netting, *COPPER, *SCANNING electron microscopes
Abstract

In recent years, the use of natural fibers has increased in manya applications, particularly in automotive industry, owing to their lightweight, high specific strength, recyclability, and ecological properties. This study aims to investigate the influence of copper filler on fiber-coated hybrid composite through mechanical and machining (CNC milling) characterization. Initially, the copper filler was characterized using the energy dispersive X-ray (EDX), particle size analysis (scanning electron microscope), and component analysis (X-ray diffraction (XRD)). Four coated natural fiber/wire mesh hybrid composite designs were developed and identified as hemp/mesh/ramie composite [HMR (1-4)]. In this work, 16 experiments were designed by central composite design (CCD) using Design Expert 13, considering the spindle speed, feed rate, and composite type as input parameters. The results indicate that copper filler particle proportion influenced the tensile strength and impact resistance of the HMR hybrid composite (16% & 15.42%). A fiber coating with a higher infill percentage reduces water absorption. The responses were estimated based on the resultant force and surface roughness, which were influenced by the weight percentage of the filler. In all the spindle speeds, the resultant forces are increased with raise in feed rates (120–600 mm/min). [ABSTRACT FROM AUTHOR]

Published
2023
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5. The Impact of Liquids and Saturated Salt Solutions on Polymer-Coated Fiber Optic Sensors for Distributed Strain and Temperature Measurement

Author

Martin Weisbrich, Dennis Messerer, Frank Holzer, Ulf Trommler, Ulf Roland, and Klaus Holschemacher

Subjects
DFOS, distributed fiber optic sensing, fiber optic sensor, fiber coating, strain measurement, temperature measurement, Chemical technology, TP1-1185
Abstract

The application of distributed fiber optic strain and temperature measurement can be utilized to address a multitude of measurement tasks across a diverse range of fields, particularly in the context of structural health monitoring in the domains of building construction, civil engineering, and special foundation engineering. However, a comprehensive understanding of the influences on the measurement method and the sensors is essential to prevent misinterpretations or measurement deviations. In this context, this study investigated the effects of moisture exposure, including various salt solutions and a high pH value, on a distributed strain measurement using Rayleigh backscattering. Three fiber optic sensors with different coating materials and one uncoated fiber were exposed to five different solutions for 24 h. The study revealed significant discrepancies (∼38%) in deformation between the three coating types depending on the surrounding solution. Furthermore, in contrast to the prevailing literature, which predominantly describes swelling effects, a negative deformation (∼−47 με) was observed in a magnesium chloride solution. The findings of this study indicate that corresponding effects can impact the precision of measurement, potentially leading to misinterpretations. Conversely, these effects could be used to conduct large-scale monitoring of chemical components using distributed fiber optic sensing.

Published
2024
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6. A Review on Electrical Properties of Fiber-Reinforced Polymer Material: Fabrication, Measurement, and Performances.

Author

Mylsamy, Goudilyan and Krishnasamy, Prabu

Abstract

The demands for fiber-reinforced polymer material (FRPM) have rapidly grown over the years. Nevertheless, it has many hurdles in enhancing electrical properties. The electrical properties of the FRPM have been extensively investigated by researchers for various reinforcement, matrix, coating, and chemical treatments. However, the past surveys fail to elaborate on different electrical property measurements and the behavior of various FRPMs. So, the current study aims to critically review the FRPM fabrication methods, measuring techniques, and electrical performances. The electrical performance indexes are assessed by the dielectric constant (permittivity), dissipation factor, dielectric loss factor, electrical resistivity/ conductivity, and EMI shielding effectiveness (absorption, reflection, and multiple reflections). Also, this study compiles the effect of performance influencing factors such as fiber loading, matrix type, chemical treatment, size/loading filler, and coating. Finally, the study indicates the pathway and directions for sustainable fiber-reinforced polymer sensor development for textile, agriculture, and biomedical applications. [ABSTRACT FROM AUTHOR]

Published
2023
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7. Multifunctionalization and Increased Lifespan of a Worsted Wool Fabric.

Author

Belhaj Rhouma, Amira, Campagne, Christine, Massika Behary, Nemeshwaree, François, Sebastien, Lanceron, Charles, and Vieillard, Julien

Subjects
WOOL, WOOL textiles, NATURAL dyes & dyeing, POLYMER blends, TEXTILE waste, CATIONIC polymers, COATED textiles, SCANNING electron microscopy
Abstract

A lack of dimensional stability of worsted fabrics when laundering leads to a rapid increase in wool textile waste. Dry cleaning is thus highly recommended; however, it requires solvent(s), which are not eco-friendly. The aim of this study was to produce a machine-washable, 100% worsted wool woven as an outer fabric for men's suit jacket that is also water-repellent in order to reduce the number of washes required during use. Chemical treatments were applied through successive paddings, using a blend of aqueous dispersion of polyurethane and polysiloxane (PUPX) for shrink-proofing/dimensional stability, followed by a second blend of an aqueous emulsion of fluorotelomer methacrylate and paraffin/hydrocarbon waxes (C6PW) polymers for water-repellency. The dimensional change of the finished fabric did not exceed 2%, meeting Woolmark requirements AW-1. Zeta potential measurements confirm that the fabric coated with PUPX has an overall anionic nature, which allows the good adhesion of the successive cationic C6PW polymer blend used in the second padding. Additionally, Scanning Electron Microscopy (SEM) analysis confirmed the good adhesion of the first blend (PUPX) to the wool fiber surface and inter-fiber bonding. After the application of (C6PW) resin, the fabric exhibited durable water repellency with a 5/5 spray test rating after 10 washes and dimensional stability, as well as high resistance to wear and abrasion, while retaining a soft feel and good flexibility. [ABSTRACT FROM AUTHOR]

Published
2023
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8. Mechanical and thermal shock properties of Cf/SiBCN composite: Effect of sintering densification and fiber coating.

Author

Niu, Zi‐bo, Wang, BingZu, Pan, Lijun, Li, Daxin, Jia, Dechang, Yang, Zhihua, Peng, Hao, Ye, Shuqun, and Zhou, Yu

Subjects
*THERMAL shock, *MECHANICAL shock, *THERMAL properties, *MECHANICAL alloying, *STRESS concentration, *FRACTURE toughness
Abstract

In this work, resin‐derived carbon coating was prepared on carbon fibers by polymer impregnation pyrolysis method, then silicoboron carbonitride powder was prepared by mechanical alloying, and finally carbon fiber‐reinforced silicoboron carbonitride composites were prepared by hot‐pressing process. The effects of sintering densification and fiber coating on microstructure, mechanical properties, thermal shock resistance, and failure mechanisms of the composites were studied. Fiber bridging hinders the sintering densification, causing more defects in fiber‐dense area and lower strength. However, higher sintering temperature (1800–2000°C) can improve mechanical properties significantly, including bending strength, vickers hardness, and elastic module, because further sintering densification enhances matrix strength and fiber/matrix bonding strength, while the change of fracture toughness is not obvious (2.24–2.38 MPa·m1/2) due to counteraction of higher debonding resistance and less pull‐out length. However, fiber coating improves fracture toughness greatly via protecting carbon fibers from chemical corrosion and damage of thermal stress and external stress. Due to lower coefficient of thermal expansion, lower fiber loading ratio, less stress concentration at the fiber/matrix interface, and better defect healing effect, lower sintering temperature favors thermal shock resistance of composites, and thermal shock recession mechanisms are the damage of interface. [ABSTRACT FROM AUTHOR]

Published
2022
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9. Wet-chemical coating of silicon carbide fibers with hexagonal boron nitride layers.

Author

Maier, Jonathan and Nöth, Andreas

Subjects
*SILICON carbide fibers, *BORON nitride, *BORIDING, *COATING processes, *RAW materials
Abstract

• Hexagonal boron nitride coatings on SiC fibers via a wet-chemical coating. • Continuous roll-to-roll coating process. • Pyrolysis process for hexagonal and near-stoichiometric BN from the raw materials boric acid and urea. • Fiber coatings for CMC reinforcement. Hexagonal BN fiber coatings and BN powders were prepared by pyrolysis of the raw materials boric acid and urea in an atmosphere consisting of hydrogen and nitrogen. The powders were used to determine the appropriate mixing ratio of the raw materials to produce BN with the desired composition and crystal structure. The pyrolysis of boric acid and urea in a molar mixing ratio of 1:2 resulted in a BN that was hexagonal and had a near-stoichiometric composition. To prepare a solution for the coating of fibers, boric acid and urea were dissolved in an ethanol-water mixture. The coating was then applied to SiC filaments using a continuous roll-to-roll dip-coating process. It could be shown by SEM/EDS that BN layers were applied to the fibers. No significant bridging in the fiber bundle was found. Furthermore, it could be demonstrated by grazing incidence x-ray diffraction that the layers were crystalline. [ABSTRACT FROM AUTHOR]

Published
2021
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10. Improvement of interfacial compatibility of SiCf/Ti-6Al-4V composites by applying fiber coating and heat treatment

Author

Guanghai Feng and Yanqing Yang

Subjects
Titanium matrix composites, SiC fiber, Fiber coating, Interfacial characteristics, Interfacial compatibility, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

A new approach to improving the interfacial compatibility of SiCf/Ti-6Al-4V composites by using fiber coating coupled with subsequent heat treatment was presented. The SiCf/Ti-6Al-4V composites with C-coated and C/Mo-coated fibers were prepared using the foil-fiber-foil method and subsequently heat treated in vacuum at 750 °C to obtain several kinds of the SiCf/Ti-6Al-4V composites with different interfacial characteristics. Interfacial microstructures of these composites were systematically characterized by means of scanning electron microscopy and X-ray energy dispersive spectroscopy to investigate the interfacial microstructure evolution and reaction dynamics. The effects of interfacial microstructures on interfacial mechanical properties were also investigated using thin-slice fiber push-out tests. The results show that the brittle interfacial reaction layer of TiC in the C-coated SiCf/Ti-6Al-4V composites was obviously thickened and some microvoids even formed near the matrix with increasing heat treatment durations, whereas the matrix adjacent to Mo coating in the C/Mo-coated SiCf/Ti-6Al-4V composites gradually transformed into a ductile β-Ti layer. Interfacial shear strengths of the C/Mo-coated composites were slightly increased with increasing the heat treatment time, while those of the C-coated composites were remarkably improved. Critical issues on modifying interfacial compatibility of the SiCf/Ti composites for further improving the mechanical behavior of the composites were discussed.

Published
2021
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12. Broadband Single-Mode Cr-Doped Crystalline Core Fiber With Record 11-dB Net Gain By Precise Laser-Heated Pedestal Growth and Tetrahedral Chromium Optimization.

Author

Liu, Chun-Nien, Liu, Chia-Ming, Huang, Sheng-Lung, and Cheng, Wood-Hi

Abstract

We demonstrate a record net gain of 11-dB in a 34-cm fiber length for 300-nm broadband single-mode Cr-doped crystalline core fibers (CCFs) fabricated by precise laser-heated pedestal growth (LHPG) and tetrahedral chromium (Cr4+) optimization. The core composition of the CCF is a Cr4+-doped: yttrium aluminum garnet (YAG). The record gain achieved is mainly due to (1) precise LHPG of the CCFs to fabricate a longer fiber length of 34-cm employing a novel predictive control to constantly maintain conical molten-zone shape in the growth process and (2) the Cr4+ concentration optimization up to 150% utilizing thicker dielectric coating and thermal annealing and then the Cr4+ optimization by polarization pumping. The net gains of 6.4 and 11-dB are measured with and without Cr4+ optimization, respectively. The 72% of net gain improvement is directly related to Cr4+ optimization in the CCFs, as evidenced by SQUID and EPMA measurements, whereas the optimized thicker coating of the Cr4+ concentration provided the dominant net gain improvement of 33% in the CCFs. The development of the CCF is essential for practical use in the next-generation broadband fiber amplifier applications. [ABSTRACT FROM AUTHOR]

Published
2021
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13. A review of the research progress on the interface between oxide fiber and oxide ceramic matrix.

Author

Xu, Zhongkai, Sun, Xiaohong, Xiong, Kunzhou, Chen, Zhe, Shang, Yunpeng, Guo, Ruisong, Cai, Shu, and Zheng, Chunming

Subjects
*OXIDE ceramics, *FIBER-reinforced ceramics, *CERAMIC fibers, *LITERATURE reviews, *FRACTURE strength, *COMBUSTION chambers
Abstract

Oxide ceramics have excellent high temperature performance, superior thermal and chemical stability, which can be used in high temperature oxidizing environments, while oxide ceramics generally have low toughness and are prone to catastrophic damage... Oxide ceramics can be reinforced by high performance ceramic fibers to improve the fracture strength and fracture toughness, thus expanding its application in high-temperature components such as aero-engine combustion chambers and tail nozzles. The interface between fiber and matrix is an important factor that determines the performance of the composites. By tailoring the interface, the energy dissipation mechanisms such as fiber debonding and fiber pull-out can be brought into play to avoid the catastrophic damage of the composites. This review paper summarizes the recent research progress of the oxide fiber/oxide ceramic matrix composites interface. The mechanical properties of the interface and the design principles of the interface engineering are discussed, and types of interfaces and coating preparation methods are reviewed. [ABSTRACT FROM AUTHOR]

Published
2021
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14. Determination of the mass transfer coefficients in direct immersion solid‐phase microextraction.

Author

Xu, Jianqiao, Hu, Qingkun, Liu, Xiwen, Wei, Songbo, Zheng, Juan, Lin, Wei, Ye, Yuxin, Zhu, Fang, and Ouyang, Gangfeng

Subjects
*MASS transfer, *MATRIX effect, *MASS transfer coefficients, *BOUNDARY layer (Aerodynamics), *DIFFUSION, *DIFFUSION coefficients
Abstract

Diffusion of the analytes across the diffusion boundary layers and subsequently through the fiber coatings determines the extraction kinetics of solid‐phase microextraction in aqueous matrices. Besides, the matrix effects can distort the behaviors of the analytes transferring across the diffusion boundary layers. However, these processes were always studied via certain simplification, which often left the mass transfer through the fiber coatings unconsidered and the matrix effects partially investigated. Herein, a comprehensive study on the mass transfer processes in direct immersion solid‐phase microextraction was presented. Under different agitation speeds, it was determined that the mass transfer coefficients across the diffusion boundary layers were three to six orders larger than those through the fiber coatings. However, the mass transfer across the diffusion boundary layers was generally the major rate‐limiting step. In addition, the shuttle effect and the barrier effect, which were responsible for accelerating and retarding the extraction kinetics, respectively, were found to be the dominant matrix effect alternately under different agitation speeds. This study comprehensively illustrated the major rate‐limiting step and the dominant matrix effects through recording the mass transfer coefficients. [ABSTRACT FROM AUTHOR]

Published
2020
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15. Highly graphitized porous carbon/reduced graphene oxide for ultrahigh enrichment and ultrasensitive determination of polycyclic aromatic hydrocarbons.

Author

Sun, Yaming, Sun, Wenjie, Li, Junnan, Zhang, Tao, Zhao, Wenjie, Xiang, Guoqiang, Yang, Tiantian, and He, Lijun

Subjects
*POLYCYCLIC aromatic hydrocarbons, *GRAPHITIZATION, *GRAPHENE oxide, *METAL-organic frameworks, *POLLUTANTS, *CARBON
Abstract

There is an urgent need to develop efficient and reliable coating materials for solid phase microextraction (SPME), in order to quantify and monitor pollutants in environmental waters. Herein, a highly graphitized porous carbon/reduced graphene oxide (PC/rGO) was successfully synthesized by pyrolysis of metal organic framework / graphene oxide precursors, and used as a SPME coating for ultrahigh enrichment of polycyclic aromatic hydrocarbons (PAHs) from water. The as-prepared PC/rGO exhibited high degree of graphitization, abundant number of micro/mesopores along with exceptional thermal stability, making it an ideal SPME coating material. The PC/rGO fiber offered an ultrahigh enrichment factor for PAHs (up to 126057), which could be attributed to the multiple interactions between the PC/rGO and PAHs, including hydrophobic and π - π interactions, partitioning, and mesopore filling effect. In the analysis of PAHs, the PC/rGO fiber showed a wide linearity (0.007–100 ng mL−1), low limits of detection (0.0005–0.005 ng mL−1), and good repeatability (RSDs <10.1%, n = 5) under optimized conditions. The established method was applicable for ultrasensitive determination of PAHs in different environmental waters and showed satisfactory recoveries. This study provides a novel way for constructing thermally stable SPME coating having efficient extraction performance. [Display omitted] • SPME fiber was coated by highly graphitized porous carbon/reduced graphene oxide. • Extraction relied on hydrophobicity and π-π stacking, partitioning and pore filling. • This fiber can ultra-highly enrich and ultra-sensitively determine PAHs in water. • The work offers a promising way for development of stable and efficient fiber coating. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Classifying single fibers based on fluorinated surface treatments.

Author

Dolan, Michael J., Blackledge, Robert D., and Jorabchi, Kaveh

Subjects
*SURFACE preparation, *HIERARCHICAL clustering (Cluster analysis), *FIBERS, *CHEMICAL reactions
Abstract

Fibers are an important form of forensic evidence, but their evidential value can be severely limited when the identified characteristics of the fibers are common, such as blue cotton. Detecting chemical fiber treatments offers an avenue to further classify fibers and to improve their evidential value. In this report, we investigate the potential of fluoropolymer fiber coatings, used to impart oil and water-repellent properties in fabrics, for differentiating between fibers. The thin nature of these fiber surface modifications creates an analytical challenge for their detection on a single fiber, a typical sample size for forensic evidence. Specifically, pyrolysis-gas chromatography-mass spectrometry (py-GC-MS) has shown promising selectivity but the sensitivity of the method is not adequate for single-fiber analysis of fluorinated coatings. To overcome this challenge, we utilize a newly developed elemental ionization source, plasma-assisted reaction chemical ionization (PARCI). The high sensitivity of py-GC-PARCI-MS for elemental fluorine analysis offers selective and sensitive detection of fluorinated pyrolysates among the non-fluorinated pyrolysates of the fiber core. As a result, fluoropolymer coatings are detected from 10-mm single-fiber samples. The technique is applied for classification of 22 fiber types, resulting in 4 distinct groups via hierarchical cluster analysis based on similarity of fluorine pyrograms. These results present the first study to classify fibers based on fluorinated coatings, and highlight the potential of py-GC-PARCI-MS for forensic analyses. [ABSTRACT FROM AUTHOR]

Published
2019
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17. High speed formation of pyro-carbon coat on silicon carbide fiber by continuous chemical vapor deposition furnace.

Author

Park, Joon-Soo, Nakazato, Naofumi, Takayama, Naoyuki, Kishimoto, Hirotatsu, and Kohyama, Akira

Subjects
*SILICON carbide, *CHEMICAL vapor deposition, *METAL formability, *METAL microstructure, *METAL hardness
Abstract

In order to develop a practical process for the carbon coating on SiC fiber, high-speed and continuous pyrocarbon (PyC) coating process are under development by using a continuous CVD furnace with open-ends structure. The effects of process gas and winding speed have been investigated. It was revealed that the growth rate of PyC is in proportion to winding speed and the flow rate of process gas. PyC growth rate was reached up to 250 nm/min, which is several hundred higher than those of conventional CVI/CVD methods This results indicates that the mass production of PyC coated SiC fiber without unexpected residual deformation (torsion and curvature) is possible. And, the mass production and practical use of SiC/SiC using PyC coated SiC fiber will be largely promoted. [ABSTRACT FROM AUTHOR]

Published
2017
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20. Effect of fiber coating on the mechanical performance, water absorption and biodegradability of sisal fiber/natural rubber composite

Author

Soma El-Mogy, Abd El‐Aziz Arafa El‐Wakil, S. F. Halim, and A. Abdel-Hakim

Subjects
Materials science, Absorption of water, Polymers and Plastics, Organic Chemistry, Composite number, Dynamic mechanical analysis, Biodegradation, Fiber coating, Natural rubber, visual_art, Ultimate tensile strength, Materials Chemistry, visual_art.visual_art_medium, Composite material, Sisal fiber
Published
2021
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21. Multifunctionalization and Increased Lifespan of a Worsted Wool Fabric

Author

Amira Belhaj Rhouma, Christine Campagne, Nemeshwaree Massika Behary, Sebastien François, Charles Lanceron, Julien Vieillard, Génie des Matériaux Textiles - ULR 2461 (GEMTEX), École nationale supérieure des arts et industries textiles (ENSAIT), Université de Lille-Université de Lille, Université de Lille, Chimie Organique et Bioorganique : Réactivité et Analyse (COBRA), Institut de Chimie Organique Fine (IRCOF), Université de Rouen Normandie (UNIROUEN), Normandie Université (NU)-Normandie Université (NU)-Institut national des sciences appliquées Rouen Normandie (INSA Rouen Normandie), Institut National des Sciences Appliquées (INSA)-Normandie Université (NU)-Institut National des Sciences Appliquées (INSA)-Centre National de la Recherche Scientifique (CNRS)-Université de Rouen Normandie (UNIROUEN), Institut National des Sciences Appliquées (INSA)-Normandie Université (NU)-Institut National des Sciences Appliquées (INSA)-Centre National de la Recherche Scientifique (CNRS)-Institut Normand de Chimie Moléculaire Médicinale et Macromoléculaire (INC3M), Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Normandie Université (NU)-École Nationale Supérieure d'Ingénieurs de Caen (ENSICAEN), Normandie Université (NU)-Université Le Havre Normandie (ULH), Normandie Université (NU)-Université de Rouen Normandie (UNIROUEN), Normandie Université (NU)-Institut national des sciences appliquées Rouen Normandie (INSA Rouen Normandie), Institut National des Sciences Appliquées (INSA)-Normandie Université (NU)-Institut National des Sciences Appliquées (INSA)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)-Université de Caen Normandie (UNICAEN), Normandie Université (NU)-École Nationale Supérieure d'Ingénieurs de Caen (ENSICAEN), and Normandie Université (NU)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS)

Subjects
woven fabric, machine washable, water-repellent, fiber coating, abrasion resistance, Materials Chemistry, [CHIM]Chemical Sciences, Surfaces and Interfaces, worsted wool, shrink-proof, Surfaces, Coatings and Films
Abstract

International audience; A lack of dimensional stability of worsted fabrics when laundering leads to a rapid increase in wool textile waste. Dry cleaning is thus highly recommended; however, it requires solvent(s), which are not eco-friendly. The aim of this study was to produce a machine-washable, 100% worsted wool woven as an outer fabric for men’s suit jacket that is also water-repellent in order to reduce the number of washes required during use. Chemical treatments were applied through successive paddings, using a blend of aqueous dispersion of polyurethane and polysiloxane (PUPX) for shrink-proofing/dimensional stability, followed by a second blend of an aqueous emulsion of fluorotelomer methacrylate and paraffin/hydrocarbon waxes (C6PW) polymers for water-repellency. The dimensional change of the finished fabric did not exceed 2%, meeting Woolmark requirements AW-1. Zeta potential measurements confirm that the fabric coated with PUPX has an overall anionic nature, which allows the good adhesion of the successive cationic C6PW polymer blend used in the second padding. Additionally, Scanning Electron Microscopy (SEM) analysis confirmed the good adhesion of the first blend (PUPX) to the wool fiber surface and inter-fiber bonding. After the application of (C6PW) resin, the fabric exhibited durable water repellency with a 5/5 spray test rating after 10 washes and dimensional stability, as well as high resistance to wear and abrasion, while retaining a soft feel and good flexibility.

Published
2023
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24. Interfacial microstructure and mechanical properties of Cf/AZ91D composites with TiO2 and PyC fiber coatings.

Author

Li, Shaolin, Qi, Lehua, Zhang, Ting, Ju, Luyan, and Li, Hejun

Subjects
*MICROSTRUCTURE, *CARBON fibers, *MAGNESIUM compounds, *MAGNESIUM oxide, *CRYSTAL defects
Abstract

In spite of the effectiveness of the fiber coatings on interface modification of carbon fiber reinforced magnesium matrix composites, the cost and exclusive equipment for the coatings preparation are usually ignored during research work. In this paper, pyrolytic carbon (PyC) and TiO 2 were coated on carbon fiber surface to study the effects of fiber coatings on interfacial microstructure and mechanical properties of carbon fiber reinforced AZ91D composites (C f /AZ91D composites). It was indicated that both the two coatings could modify the interface and improve the mechanical properties of the composites. The ultimate tensile strength of the TiO 2 -C f /AZ91D and the PyC-C f /AZ91D composite were 333 MPa and 400 MPa, which were improved by 41.7% and 70.2% respectively, compared with the untreated-C f /AZ91D composite. The microstructure observation revealed that the strengthening of the composites relied on fiber integrity and moderate interfacial bonding. MgO nano-particles were generated at the interface due to the reaction of TiO 2 with Mg in the TiO 2 -C f /AZ91D composite. The volume expansion resulting from the reaction let to disordered intergranular films and crystal defects at the interface. The fibers were protected and the interfacial reaction was restrained by PyC coating in the PyC-C f /AZ91D composite. The principle to select the coating of fiber was proposed by comparing the effectiveness and cost of the coatings. [ABSTRACT FROM AUTHOR]

Published
2017
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25. Effect of initial cure time on toughness of geopolymer matrix composites.

Author

Jackson, Patrick R. and Radford, Donald W.

Subjects
*POLYMERS, *STRENGTH of materials, *TIME, *FIBER-reinforced ceramics
Abstract

The toughness of geopolymer matrix composites (GMC) has been identified as a limiting factor to their use in structural applications. Advanced ceramic matrix composites (CMC), which also are limited by brittle behavior, have shown gains in toughness through careful tailoring of the interface between fiber and matrix. This can create various crack dissipating mechanisms and prevent premature composite failure. Such interface modification has already been applied to a fiber reinforced geopolymer and while the resulting composite showed a reduction in brittle behavior, the modified interface produced an unacceptable loss in modulus without any other well-defined quantitative gains. Information gathered from other studies suggests the large decrease in modulus observed in the GMCs with the weakened interface may have been the result of poor matrix properties stemming from an inadequate cure. Therefore, this current study explores the effects of initial cure time on composite performance by measuring the mechanical properties GMCs with a modified interface. GMCs containing unidirectional Nextel 610 fiber were cured under two different sets of process conditions to better understand the influence of matrix properties. Additionally, specimens consisted of cleaned and carbon coated fiber surfaces, in an attempt to evaluate extremes of interfacial strength. Mechanical properties were then evaluated for comparison to determine if improved geopolymer matrix properties would allow a weakened interface to yield performance gains more in keeping with expectations based on CMC's. The results of the study indicate that specimens with carbon coating benefited from the longer initial cure time. The average increase in flexural modulus and strength over samples with one hour initial cure time was ~65% and ~170% respectively. Stress-strain behavior of the carbon-coated specimens with an extended cure time also indicated a greater degree of damage tolerance as compared to those without interphase. [ABSTRACT FROM AUTHOR]

Published
2017
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26. Electrospinning polycaprolactone/collagen fiber coatings for enhancing the corrosion resistance and biocompatibility of AZ31 Mg alloys.

Author

Chen, Zhihao, Zhang, Zihao, Ouyang, Yuanyong, Chen, Yun, Yin, Xiaoshuang, Liu, Ying, Ying, Hanjie, and Yang, Wenzhong

Subjects
*POLYCAPROLACTONE, *CORROSION resistance, *CYTOCOMPATIBILITY, *BIODEGRADABLE materials, *BIOABSORBABLE implants, *FIBERS
Abstract

Magnesium (Mg) alloy is widely studied as a potential biodegradable implant material in clinical orthopedics. However, its uncontrollable corrosion rate under physiological conditions has severely limited its development. To enhance the corrosion resistance and biocompatibility of AZ31 Mg alloys substrate, the polycaprolactone/collagen/cerium-hydroxyapatite (PCL/Col/Ce-HA) fiber coating is prepared by employing the electrospinning technique. The scanning electron microscope reveals that the PCL/Col/Ce-HA fiber coating with 5 wt% of Ce-HA exhibits the densest surface with a uniform fiber size of 396 nm, which provides a firm physical barrier against the corrosive ions. Furthermore, the enhanced adhesion strength of the PCL/Col/Ce-HA fiber coating will prevent the coating from falling off from the Mg substrate during the long-term immersion periods, and therefore ensures their durability. Electrochemical tests indicate that the annual corrosion rate of PCL/Col/Ce-HA fiber coating with 5 wt% Ce-HA is almost 30 times lower than the bare AZ31 Mg alloy. The lowest hydrogen evolution volume and relatively stable pH variations of the solution also confirm their effective protective ability. In addition, the cell assay indicates that the PCL/Col/Ce-HA fiber coating is beneficial for cell adhesion and growth, reflecting its excellent cell biocompatibility. The lowest hemolysis rate (2.72%) of PCL/Col/Ce-HA fiber coating also meets the biomedical material application requirements. [Display omitted] • The PCL/Col/Ce-HA fiber coating is prepared using the electrospinning technique. • The incorporation of Ce-HA improves the adhesion strength of fiber coatings. • The PCL/Col/Ce-HA fiber coating exhibits enhanced corrosion protection performance. • The PCL/Col/Ce-HA fiber coating shows excellent biocompatibility for MG-63 cells. [ABSTRACT FROM AUTHOR]

Published
2023
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28. Determination of the mass transfer coefficients in direct immersion solid‐phase microextraction

Author

Gangfeng Ouyang, Jianqiao Xu, Yu-Xin Ye, Juan Zheng, Wei Lin, Fang Zhu, Xiwen Liu, Qingkun Hu, and Songbo Wei

Subjects
Materials science, Aqueous solution, 010401 analytical chemistry, Kinetics, Analytical chemistry, Filtration and Separation, 010402 general chemistry, Solid-phase microextraction, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, Diffusion layer, Fiber coating, Mass transfer, Barrier effect
Abstract

Diffusion of the analytes across the diffusion boundary layers and subsequently through the fiber coatings determines the extraction kinetics of solid-phase microextraction in aqueous matrices. Besides, the matrix effects can distort the behaviors of the analytes transferring across the diffusion boundary layers. However, these processes were always studied via certain simplification, which often left the mass transfer through the fiber coatings unconsidered and the matrix effects partially investigated. Herein, a comprehensive study on the mass transfer processes in direct immersion solid-phase microextraction was presented. Under different agitation speeds, it was determined that the mass transfer coefficients across the diffusion boundary layers were three to six orders larger than those through the fiber coatings. However, the mass transfer across the diffusion boundary layers was generally the major rate-limiting step. In addition, the shuttle effect and the barrier effect, which were responsible for accelerating and retarding the extraction kinetics, respectively, were found to be the dominant matrix effect alternately under different agitation speeds. This study comprehensively illustrated the major rate-limiting step and the dominant matrix effects through recording the mass transfer coefficients.

Published
2020
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34. Mechanical /thermal Shock Properties and Failure Mechanisms of Cf/SiBCN Composites Effect of Sintering Densification and Fiber Coating

Author

Daxin Li, Hao Peng, Dechang Jia, Lijun Pan, BingZu Wang, Yu Zhou, Zibo Niu, and Zhihua Yang

Subjects
Thermal shock, Fiber coating, Materials science, Sintering, Composite material
Abstract

In this work, resin derived carbon coating was prepared on carbon fibers by polymer impregnation pyrolysis method (PIP), and then Cf/SiBCN composites were prepared by hot pressing process. The effects of sintering densification and fiber coating on microstructure, mechanical properties, thermal shock resistance, and failure mechanisms of the composites were studied. Fiber bridging hinders the sintering densification, causing more defects in fiber-dense area and lower strength. However, higher sintering temperature (1800-2000℃) can improve mechanical properties significantly, including bending strength, vickers hardness, and elastic module, because further sintering densification enhances matrix strength and fiber/matrix bonding strength, while the change of fracture toughness is not obvious (2.24-2.38 MPa·m1/2) due to counteraction of higher debonding resistance and less pull-out length. However, fiber coating improves fracture toughness greatly via protecting carbon fibers from chemical corrosion and damage of thermal stress and external stress. Due to lower coefficient of thermal expansion, lower fiber loading ratio, less stress concentration at the fiber/matrix interface and better defect healing effect, lower sintering temperature favor thermal shock resistance of composites and thermal shock recession mechanisms are the damage of interface.

Published
2021
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35. Fabrication of ultra high temperature ceramic matrix composites using a reactive melt infiltration process.

Author

Kütemeyer, Marius, Schomer, Laura, Helmreich, Thomas, Rosiwal, Stefan, and Koch, Dietmar

Subjects
*ZIRCONIUM boride, *MICROFABRICATION, *ULTRA-high-temperature ceramics, *METALLIC composites, *REACTIVITY (Chemistry), *MELT infiltration, *CHEMICAL processes, *FIBROUS composites
Abstract

Fiber reinforced composites containing a ZrB 2 matrix are prepared by reactive melt infiltration, using a Zr based intermetallic compound. The reactive melt infiltration process is further characterized by determining the contact angle of the different melt and preform elements. Two different methods for boron powder impregnation of the preforms, which form ZrB 2 during Zr 2 Cu melt infiltration, are evaluated. Degradation of fibers and different fiber coatings for Zr 2 Cu melt are evaluated and the microstructure of the infiltrated samples is investigated by means of XRD and SEM. [ABSTRACT FROM AUTHOR]

Published
2016
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36. Flow and heat transfer of two immiscible fluids in double-layer optical fiber coating.

Author

Khan, Zeeshan, Islam, Saeed, Shah, Rehan, and Khan, Ilyas

Subjects
HEAT transfer, IMMISCIBILITY, OPTICAL fibers, COATING processes, NEWTONIAN fluids
Abstract

The coatings of optical fibers are generally characterized by a multi-layer coating structure. In this work, the mathematical modeling of two immiscible non-Newtonian fluids for optical fiber coating inside a straight annular die is developed in the form of a nonlinear differential equation with nonhomogeneous boundary conditions. Two non-Newtonian fluids, namely power law and Phan-Thien-Tanner fluids, are used in the primary and secondary coating dies, respectively. An exact solution is obtained for velocity fields and temperature distributions for the primary and secondary coating resins. The thickness of coated fiber optics is also calculated for both layers. The effect of different emerging parameters on the solution is discussed and sketched. [ABSTRACT FROM AUTHOR]

Published
2016
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37. A metal organic framework-polyaniline nanocomposite as a fiber coating for solid phase microextraction.

Author

Bagheri, Habib, Javanmardi, Hasan, Abbasi, Alireza, and Banihashemi, Solmaz

Subjects
*METAL-organic frameworks, *POLYANILINES, *NANOCOMPOSITE materials, *SOLID phase extraction, *COATING processes, *ELECTROPOLYMERIZATION
Abstract

A metal organic framework-polyaniline (MOF/PANI) nanocomposite was electrodeposited on a stainless steel wire and used as a solid phase microextraction (SPME) fiber coating. The electropolymerization process was carried out under a constant deposition potential and applied to the corresponding aqueous electrolyte containing aniline and MOF particles. The employment of MOFs with their large and small cages and 3-D structures in synthesizing a nanocomposite was assumed to be efficient constitutes to induce more non-smooth and porous structures, approved by scanning electron microscopy (SEM) images. Three different MOFs were incorporated to synthesize the desired nanocomposites and the preliminary experiments showed that all of them, particularly the one containing MOF2, have higher extraction performances in compared with PANI. The applicability of the new fiber coating was examined by headspace-solid phase microextraction (HS-SPME) of some chlorobenzenes (CBs) from aqueous samples. Influencing parameters on the synthesize and extraction processes including the electrodeposition voltage and its duration time, the weight ratio of PANI and MOF, the ionic strength, desorption temperature and time, and extraction time and temperature were optimized. The developed method was validated by analyzing the spiked distilled water and gas chromatography–mass spectrometry (GC–MS). Under optimum condition, the relative standard deviation (RSD%) values for a double distilled water spiked with the selected CBs at 20 ng L −1 were 5–8% ( n = 3) and the detection limits were below 0.2 ng L −1 . The linear dynamic range (LDR) of the method was in the concentration range of 0.5–1000 ng L −1 ( R 2 > 0.9994). The fiber-to-fiber reproducibility was found to be in the range of 4–7%. Eventually, various real-water samples were analyzed by the MOF/PANI-based HS-SPME and GC–MS and the relative recovery values were found to be in the range of 92–98%. [ABSTRACT FROM AUTHOR]

Published
2016
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39. BN-Based Fiber Coatings by Wet-Chemical Coating

Author

Jonathan Maier, Andreas Nöth, and Katrin Schönfeld

Subjects
Materials science, Mechanical Engineering, Thermal treatment, engineering.material, Dip-coating, chemistry.chemical_compound, Fiber coating, Coating, chemistry, Silicon nitride, Mechanics of Materials, Boron nitride, engineering, Silicon carbide, General Materials Science, Fiber, Composite material
Abstract

Fiber coatings for BN/SiC-and BN/Si3N4-bilayer systems were developed for the use in SiC/SiC composites. All coatings were produced with high process velocities of 500 m/h by a continuous roll-to-roll dip-coating process. The fiber surface was fully covered with a homogeneous coating and without fiber bridging. Tensile tests of fiber bundles were used to examine potential degradation of the fiber properties due to the application of the coatings. The coated fiber bundles showed a reduction of the maximum tensile load to 90.0 % for the BN/Si3N4 and to 86.7 % for the BN/SiC coating in comparison to the fiber bundle in the as-received state. A thermal treatment of the coated fiber bundles up to 1650 °C led to no reduction of their maximum tensile load. SiC/SiC composites were fabricated by polymer infiltration and pyrolysis. The flexural strength and strain of composites with BN/SiC fiber coating were improved to 467 MPa and 0.42 % in comparison to the composites without fiber coating. The composites with BN/SiC coating showed toughened fracture behavior with fiber pull-out effects.

Published
2019
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40. Efficient and selective solid-phase microextraction of polychlorinated biphenyls by using a three-dimensional covalent organic framework as functional coating.

Author

Lu, Feifei, Wu, Mengqin, Lin, Chenchen, Lin, Xucong, and Xie, Zenghong

Abstract

• Functional COF with 3D framework and multiple interactions was proposed for selective SPME. • Good selectivity towards planar, non-coplanar PCBs and organic analogs was achieved. • Efficient adsorption of 15 PCBs was achieved with enhancement factor up to 10305. • Better SPME enhancement factor of PCBs was obtained in the face of commercial fibers and other COFs. • Excellent sensitivity and recovery yields of PCBs in environmental samples were accomplished. Developing functional fiber coating for selective solid phase microextraction (SPME) of trace pollutants is critical in environmental analysis. Herein, the novel covalent organic frameworks (COFs) with three-dimensional (3D) frameworks and multiple interactions were designed and presented for the selective SPME of polychlorinated biphenyls (PCBs). Using tetra (p-aminophenyl) methane (TAM) and 1,3,5-triformylphloroglucinol (Tp) as the monomers, the 3D TpTAM-COF was synthesized and possessed a large specific surface area, high thermal stability, and spatial selectivity toward PCBs. Characterizations such as morphology, XPS, XRD, thermal stability, and enhancement factors (EFs) were studied. Multiple interactions including π-π conjugation, hydrophobic interaction, and selectivity toward non-planar structure were adopted, which resulted in a superior adsorption affinity toward PCBs on TpTAM-COF. Under the optimal conditions, the spatial selectivity toward PCBs, organic analogs (o -dichlorobenzene, biphenyl) and polycyclic aromatic hydrocarbons (naphthalene, pyrene, and anthracene)) was achieved. Efficient and selective adsorption of fifteen PCBs was fulfilled with the highest EF up to 10305. Using the HS-SPME-GC-MS method, the recoveries of PCBs in the river water and soil samples were determined to be 84.8 ± 7.8% ∼ 117.2 ± 8.5% (n = 3) and 84.4 ± 8.6% ∼ 114.7 ± 7.6% (n = 3), respectively. Compared with most commercial SPME fibers and other COFs-based fibers, the resultant TpTAM-COF-coated fibers possessed higher selectivity and EFs of PCBs. It proposed a promising approach for selective SPME of trace PCBs by multiple interactions in the steric structure of 3D COFs. [ABSTRACT FROM AUTHOR]

Published
2022
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41. Selective enrichment and determination of polychlorinated biphenyls in milk by solid-phase microextraction using molecularly imprinted phenolic resin fiber coating.

Author

Wang, Shuo, Li, Pengfei, Han, Yehong, Liu, Haiyan, and Yan, Hongyuan

Subjects
*IMPRINTED polymers, *PHENOLIC resins, *POLYCHLORINATED biphenyls, *SURFACE coatings, *FIBERS, *ROUGH surfaces, *MILK
Abstract

Owing to the severe toxicity and health hazard of polychlorinated biphenyls (PCBs) to humans, the efficient separation and determination of PCBs in dairy products is highly desirable and challenging. In this study, a new solid-phase microextraction (SPME) fiber was prepared by coating of a new molecularly imprinted phenolic resin (MIPR) in situ using a covalent grafting method. The MIPR coating, synthesized from 4-mercaptophenol and glutaraldehyde, provides rough surface with more adsorption sites; furthermore, the coating has a thickness of 1.0 μm, resulting in rapid equilibration. This new device has the advantages such as less coating peeling from the substrate and selective recognition enhancement of the coating. A highly selective and sensitive SPME-based method was developed using the developed fiber, coupled with GC-MS/MS, for the determination of polychlorinated biphenyls (PCBs) in milk samples. The developed MIPR-HS-SPME-GC-MS/MS method showed low detection limits (0.012–0.066 pg mL−1), good linearity (r ≥ 0.9991), satisfactory recovery (77.5–116.7%), efficient enhancement factors (362–2034 folds) and good reusability (50 cycles). Therefore, this is a simple and efficient strategy for monitoring trace PCBs in complex samples and is a potential alternative for improving the selectivity of SPME fibers by introducing MIPR into the fiber coating. [Display omitted] • A new molecularly imprinted phenolic resin fiber coating was prepared in suit preparation. • As-prepared SPME fiber coating exhibited high selective and enhancement factors for PCBs. • A MIPR-HS-SPME-GC-MS/MS method developed for PCBs detection in complex samples. • Selective enrichment and determination of polychlorinated biphenyls in milk was achieved. [ABSTRACT FROM AUTHOR]

Published
2022
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42. Wet chemical deposition of BN, SiC and Si3N4 interphases on SiC fibers

Author

Katrin Schönfeld, Hagen Klemm, Andreas Nöth, Jonathan Maier, and Publica

Subjects
010302 applied physics, SiC, Filament winding, Materials science, Chemical deposition, Nitrogen atmosphere, coating, 02 engineering and technology, engineering.material, 021001 nanoscience & nanotechnology, 01 natural sciences, Fiber coating, Flexural strength, Coating, solid electrolyte interphase, 0103 physical sciences, Ultimate tensile strength, Materials Chemistry, Ceramics and Composites, engineering, ceramic matrix composites, interface, Sic fiber, Composite material, 0210 nano-technology
Abstract

Fiber coatings based on BN, BN/SiC and BN/Si3N4 were deposited on Hi Nicalon type S SiC fibers. The coating parameters were optimized using a design of experiments study. With optimized parameter sets, the coatings exhibited a high degree of coverage on the fibers and almost no fiber bridging could be observed. The coated fiber bundles are flexible and can be processed further by techniques such as filament winding. In comparison to a non-processed reference sample, the maximum tensile load of the fiber bundles with BN, BN/SiC and BN/Si3N4 coatings was reduced by only 5 %, 13 % and 10 %, respectively. The coated fiber bundles retained their tensile strength after thermal annealing up to 1650 °C in a nitrogen atmosphere for 0.5 h. SiCf/SiC samples with BN/SiC fiber coatings exhibited higher values of bending strength and strain-to-failure as a reference sample without fiber coating indicating the functionality of the fiber coatings.

Published
2021

43. Advanced Uses of Liquid Crystal Systems for Use in Novel External Environments

Author

Huncik, Christina Marie

Subjects
Physical Chemistry, Liquid crystals, LC, fiber, electrospinning, fiber coating, VOC sensing, sensors, acetone sensor
Abstract

Liquid crystals (LCs) are at the forefront of technology today. From LC displays in smartphones and televisions to “smart glass” windows, LCs are found in technology all around us. LCs offer a variety of uses due to their birefringent properties that act at room temperature. These properties show an optical change at room temperature with a small change from external stimuli. These stimuli can include temperature, electric field, and the presence of volatile organic compounds (VOCs). This work looks at projects which focus on how to best package LCs to work as sensors to their external stimuli, as well as new ways to record their detection. The first project covered in this work looks at electrospun fibers with a nematic LC core and polymer sheath as VOC sensors. It has been shown in the past that these electrospun fiber mats show an optical response to VOC exposure, but there was little quantitative work one to show the true sensing abilities of these fiber mats. This work uses the change in the LC core’s electrical properties to measure the change in resistivity of the fiber mat as it was exposed to acetone. The results of these experiments are promising as the fiber mat detector had a comparable sensing ability to that of commercial VOC sensors. While the fiber mats had a good sensing ability, they are thin and likely not durable enough to be made into clothing. Putting cholesteric LC on the outside of thread, though, has shown promising results to be woven and retain temperature sensing capabilities. This project builds off of a previous project done in the group to coat thread in LC and a polymer. This LC clad fiber would then be woven into a textile. The purpose was to evenly coat the fiber and LC with no beading. Then, a polymer coating was needed to contain the LC so that it would not wash or be rubbed off. This project is still ongoing in the group. These projects aim to use LCs as sensors in a new way. By containing the LC within a fiber or within a polymer coating on a fiber, we hope to push the boundaries of what VOC and temperature sensors look like today.

Published
2022

44. Modeling of Thermal-Induced Rate Error for FOG With Temperature Ranging From -40 °C to 60 °C.

Author

Yonggang Zhang, Zhongxing Gao, Guochen Wang, and Wei Gao

Abstract

The performance of fiber optic gyroscope (FOG) exhibits temperature dependence due to nonreciprocity phase shift in the fiber coil induced by environmental temperature variation. Research on temperature characteristic is meaningful for high precision FOG working in harsh environment. In this letter, modeling of thermal-induced rate error for FOG with environmental temperature ranging from -40°C to 60 °C is investigated. Temperature dependence of fiber refractive index, thermal expansion of the fiber, and thermal stress of the fiber coating are all considered in our model. Experiments with different temperature change rates between -40°C and 60 °C are performed to verify the effectiveness of the proposed model. Experimental results show great agreement with theoretical values. [ABSTRACT FROM PUBLISHER]

Published
2014
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45. Covalent Organic Framework as Fiber Coating for Solid-Phase Microextraction of Chlorophenols Followed by Quantification with Gas Chromatography–Mass Spectrometry

Author

Xiaohuan Zang, Zhi Wang, Chun Wang, Mengting Wang, Tong Wu, Qingyun Chang, and Qiuhua Wu

Subjects
010402 general chemistry, Solid-phase microextraction, Mass spectrometry, 01 natural sciences, Gas Chromatography-Mass Spectrometry, Fiber coating, Limit of Detection, Food, Preserved, Humans, Metal-Organic Frameworks, Solid Phase Microextraction, Prunus persica, Chromatography, Chemistry, fungi, 010401 analytical chemistry, Temperature, Reproducibility of Results, food and beverages, Honey, General Chemistry, 0104 chemical sciences, Gas chromatography–mass spectrometry, General Agricultural and Biological Sciences, Water Pollutants, Chemical, Chlorophenols, Covalent organic framework
Abstract

Headspace solid-phase microextraction coupled with gas chromatography-mass spectrometry was adopted for the simultaneous determination of seven chlorophenols (CPs) from honey and canned-yellow-peach samples. A covalent organic framework made of 1,3,5-triformylphloroglucinol (Tp) and benzidine (BD) was used as the SPME fiber coating to preconcentrate the acetylation derivatives of the CPs. The main experimental parameters including derivatization conditions, extraction temperature and time, headspace volume, salt concentration, and desorption temperature were investigated. The fiber showed a high extraction capability for the CPs. The limits of detection (LODs) for the analytes were 0.3-0.7 μg kg

Published
2018
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46. Fast and robust direct immersion solid phase microextraction coupled with gas chromatography–time-of-flight mass spectrometry method employing a matrix compatible fiber for determination of triazole fungicides in fruits.

Author

Silva, Érica A. Souza, Lopez-Avila, Viorica, and Pawliszyn, Janusz

Subjects
*FRUIT diseases & pests, *SOLID phase extraction, *GAS chromatography, *TIME-of-flight mass spectrometry, *TRIAZOLES, *FIBER content of fruit
Abstract

Highlights: [•] A fast and robust DI-SPME–GC–ToFMS method for determination of triazole pesticides in fruits was developed. [•] A newly developed matrix-compatible SPME coating was utilized. [•] No sample pre-treatment required. [•] Very good sensitivity achieved within short extraction time. [•] Accurate quantitative results could be easily achieved. [Copyright &y& Elsevier]

Published
2013
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47. Evaluation of the mechanical properties of recycled glass fibers-derived three dimensional geomaterial for ground improvement.

Author

Mujah, D., Ahmad, F., Hazarika, H., and Safari, A.

Subjects
*GLASS fibers, *WASTE recycling, *INDUSTRIAL waste management, *TENSILE strength, *MECHANICAL behavior of materials, *SUSTAINABLE development, *GEOSYNTHETICS
Abstract

Abstract: This research was aimed to study the potential use of recycled glass fibers-derived three dimensional geomaterial (8FG MAT) obtained from industrial glass fiber wastes to innovate a sustainable, cost-effective geosynthetic for ground improvement in problematic soil applications. The ready availability, high tensile strength, lightweight and non-biodegradable characteristics of glass fibers further elevate their advantages as compared to the presently adopted geosynthetics in soft soil reinforcement condition. In this study, mechanical properties of recycled glass fibers and their ‘8’ shape form samples as well as the pullout resistance force of 8FG MAT were investigated by considering glass fibers' layer thickness, shape formation and orientation in a laboratory scale model. It was observed that the tensile and yield strengths of overall geomaterial samples significantly increase as strip layers thickness increase. Results from both the tensile strength and pullout resistance force indicated similar trend of increasing in strength values with test conducted using other type of geosynthetics in various soil media to simulate the action of different soil conditions at real sites. [Copyright &y& Elsevier]

Published
2013
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48. Method development and validation for boscalid in blueberries by solid-phase microextraction gas chromatography, and their degradation kinetics

Author

Munitz, Martín S., Resnik, Silvia L., and Montti, María I.T.

Subjects
*BLUEBERRIES, *SOLID phase extraction, *GAS chromatography, *CHEMICAL kinetics, *FUNGICIDE residues, *DIETARY fiber, *FOOD chemistry
Abstract

Abstract: Analytical method for the residues of boscalid in blueberries was developed. Fungicide residues were determined by solid-phase microextraction (SPME) coupled to gas chromatography with micro-electron capture (μ-ECD) detector. The effect of pH values and fiber coatings were studied. The SPME fiber coating selected was 100μm PDMS. The method is selective with adequate precision and high accuracy and sensitivity. Recoveries ranged within the 98–104% range, and detection and quantification limits were 1.33 and 4.42μg/kg, respectively. Statistical parameters indicated the occurrence of matrix effect; consequently calibration was performed on spiked samples. Degradation of boscalid was studied in a blueberry field located in Concordia, Argentina, with fruits from Emerald and Jewel varieties. The degradation of boscalid in both blueberry varieties studied followed a first order rate kinetics and the half-life for boscalid was 5.3 and 6.3days for Emerald and Jewel cultivars, respectively. [Copyright &y& Elsevier]

Published
2013
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49. Recent advances in nanomaterials utilized in fiber coatings for solid-phase microextraction

Author

Mehdinia, Ali and Aziz-Zanjani, Mohammad Ovais

Subjects
*NANOSTRUCTURED materials, *SOLID phase extraction, *PROTECTIVE coatings, *CHEMICAL stability, *COATING processes, *POLYMERS
Abstract

Abstract: Since the introduction of solid-phase microextraction (SPME) in the 1990s, different types of coating have shown their crucial role in extraction efficiency. In the past decade, unique properties of nanostructured materials (e.g., large surface area, and remarkable thermal, mechanical and chemical stability) led to their application as desirable coatings in SPME. The current review classifies nanomaterial–based SPME coatings as based on carbon, polymer, silica or metal nanoparticles. It also briefly discusses new developments and methods in preparing nanomaterial-based SPME coatings. [Copyright &y& Elsevier]

Published
2013
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