Relevant bibliographies by topics / Thermoplastic composite armors reinforced

Academic literature on the topic 'Thermoplastic composite armors reinforced'

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Published: 6 September 2023

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Journal articles on the topic "Thermoplastic composite armors reinforced"

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Bandaru, Aswani Kumar, Vikrant V. Chavan, Suhail Ahmad, R. Alagirusamy, and Naresh Bhatnagar. "Ballistic impact response of Kevlar® reinforced thermoplastic composite armors." International Journal of Impact Engineering 89 (March 2016): 1–13. http://dx.doi.org/10.1016/j.ijimpeng.2015.10.014.

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Bandaru, Aswani Kumar, Suhail Ahmad, and Naresh Bhatnagar. "Ballistic performance of hybrid thermoplastic composite armors reinforced with Kevlar and basalt fabrics." Composites Part A: Applied Science and Manufacturing 97 (June 2017): 151–65. http://dx.doi.org/10.1016/j.compositesa.2016.12.007.

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Mayer, P., D. Pyka, K. Jamroziak, J. Pach, and M. Bocian. "Experimental and Numerical Studies on Ballistic Laminates on the Polyethylene and Polypropylene Matrix." Journal of Mechanics 35, no. 02 (November 15, 2017): 187–97. http://dx.doi.org/10.1017/jmech.2017.103.

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ABSTRACTThe paper analyzes the issues relating to the applicability of innovative material systems for flexible composite armors. The authors made several samplings of aramid fibers (Kevlar 49) by replacing the epoxy resin base, which is often described in the literature, with the thermoplastic matrix - polyethylene (HDPE) and polypropylene (PP). The samples were fired with .38 Special Full Metal Jacketed (FMJ) ammunition produced by the S&B Company, and then the process of firing was modeled in the ABAQUS program. The advantages and disadvantages of the new material system including the possibility of its use in the construction of hybrid composite armors have been presented on the basis of the results of numerical analyses and ballistic tests.
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Ayvaz, Mehmet, and Hakan Cetinel. "Ballistic performance of powder metal Al5Cu-B4C composite as monolithic and laminated armor." Materials Testing 63, no. 6 (June 1, 2021): 512–18. http://dx.doi.org/10.1515/mt-2020-0084.

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Abstract In this study, ballistic performances of x wt.-% B4C (x = 5, 10, and 20) reinforced Al5Cu matrix composite samples were investigated as a monolithic and laminated composite armor component. Composite armor plates were produced by the powder metallurgy method. The prepared powders were pressed under 400 MPa pressing pressure. Green compacts were pre-sintered at 400 °C for 30 minutes in order to blow the lubricant. Subsequently, liquid phase sintering was performed at 610 °C for 210 minutes. In ballistic tests, 7.62 mm caliber armor-piercing bullets were used as the ballistic threat. In the ballistic tests of monolithic armors, only 10 mm thick powder metal composite plates were tested. In the ballistic tests of laminated composite armors, these powdered metal plates were layered with 10 mm thick alumina ceramic plate front layers and 10 mm thick AA5083 plates. Although all of the monolithic powder metal composite armors were penetrated, they showed multi-hit capability. All of the laminated composite armors provided full ballistic protection. It was determined that with the increase in B4C reinforcement rate, the ballistic resistance also increased due to the improvement in strength, hardness, and abrasive feature.
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Kling, Veronika, Sohel Rana, and Raul Fangueiro. "Fibre Reinforced Thermoplastic Composite Rods." Materials Science Forum 730-732 (November 2012): 331–36. http://dx.doi.org/10.4028/www.scientific.net/msf.730-732.331.

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The present investigation is concerned with the development of fibre reinforced thermoplastic composite rods using braiding process. An innovative technique has been developed to produce composite rods with outer braided layer of polyester fibres and axially reinforced with high performance glass fibres. Polypropylene filaments which were introduced in to the core along with the glass fibres during the braiding process formed the thermoplastic matrix upon melting. A special mould has been designed for uniform application of heat and pressure during the consolidation of the composite rods as well as for the alignment of core fibres. The cross-section of composite rods was characterized with help of optical microscopy in order to see the distribution of core fibres and matrix. The effect of amount of glass fibres on the mechanical properties (tensile and flexural) of composite rods has been investigated and discussed.
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Vasquez, Jasmin Z., and Leslie Joy L. Diaz. "Unidirectional Abaca Fiber Reinforced Thermoplastic Starch Composite." Materials Science Forum 894 (March 2017): 56–61. http://dx.doi.org/10.4028/www.scientific.net/msf.894.56.

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Unidirectional abaca fiber reinforced thermoplastic starch composite was prepared via compression molding by varying the fiber volume fraction, compression pressure and fiber treatment. Factorial analysis at 95% confidence level has shown that changing fiber volume from 5% to 10% has a significant effect on the tensile strength of the composite. A treatment-pressure interaction was also found to have significant effect on the tensile strength of the composite. Result of tensile test showed that composite fabricated using 6.89 MPa (1000 psi) compression pressure, 10% fiber volume, and treated fibers exhibited the highest tensile strength of 19.73MPa while composite fabricated using 6.89 MPa (1000 psi) compression pressure, 10% fiber volume and untreated fibers exhibited only a tensile strength of 12.30 MPa. Scanning electron microscopy (SEM) on the transverse cross section has shown that alkali treatment was able to improve the interfacial bond between the fibers and the thermoplastic starch matrix resulting to an increase in strength of the composite fabricated at 6.89 MPa (1000 psi). However, using a compression pressure of 13.79 MPa (2000 psi) during fabrication induced damage, i.e. internal cracking, on the alkali treated fibers, thereby reducing the strength of the composite.
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Azrin Hani Abdul, Rashid, Ahmad Roslan, Mariatti Jaafar, Mohd Nazrul Roslan, and Saparudin Ariffin. "Mechanical Properties Evaluation of Woven Coir and Kevlar Reinforced Epoxy Composites." Advanced Materials Research 277 (July 2011): 36–42. http://dx.doi.org/10.4028/www.scientific.net/amr.277.36.

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The utilization of coconut fibers as reinforcement in polymer composites has been increase significantly due to their low cost and high specification of mechanical properties. Whereas kevlar fibers has widely used as the core material in flexible body armors due to its great mechanical properties, such as high strength, light weight, good chemical resistance and thermal stability. The research work is concerned with the evaluation of high speed impact and flexural test of hybrid textile reinforced epoxy composites. Samples were prepared from coir yarn, kevlar yarn, interlaced of coir and kevlar yarn with different warp/weft orientation and pure epoxy as control specimen. The woven samples were produced using handloom and the composites specimens were prepared using hand lay-up technique. From the results obtained, it was found that woven kevlar composites samples displayed the highest impact properties while it exhibits the lowest flexural properties. Results also showed that the composite plate for woven coir yarn (warp) and kevlar yarn (weft) has the flexural strength and impact strength of 17 MPa and 67 kJ/m², which presented as the nearest properties to woven Kevlar composite respectively. These results indicate that coir as a natural fiber can be used as a potential reinforcing material for high impact resistance such as body armors in order to reduce the usage of synthetic materials whilst utilizing the natural resources.
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Ostgathe, M., C. Mayer, and M. Neitzel. "Continuous Manufacturing of Thermoplastic Composite Sheets." Engineering Plastics 4, no. 7 (January 1996): 147823919600400. http://dx.doi.org/10.1177/147823919600400705.

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For high speed press forming of fibre reinforced thermoplastic sheet materials, a high impregnation quality is advantageous for utilisation of the potential regarding mechanical properties. Hence, the impregnation process is crucial to material properties and economy. In this paper the influence of process parameters on mechanical properties is investigated using an isobaric double belt press technique. Relevant process parameters are defined and varied using the Taguchi technique. Evaluating impregnation quality with 3-point bending tests and micrographs, the influence and meaning of process parameters is specified. Process parameters are optimised regarding flexural stress and strength, and a process window for a fabric reinforced polyamide PA 12 is defined.
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Ostgathe, M., C. Mayer, and M. Neitzel. "Continuous Manufacturing of Thermoplastic Composite Sheets." Polymers and Polymer Composites 4, no. 7 (October 1996): 505–12. http://dx.doi.org/10.1177/096739119600400705.

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For high speed press forming of fibre reinforced thermoplastic sheet materials, a high impregnation quality is advantageous for utilisation of the potential regarding mechanical properties. Hence, the impregnation process is crucial to material properties and economy. In this paper the influence of process parameters on mechanical properties is investigated using an isobaric double belt press technique. Relevant process parameters are defined and varied using the Taguchi technique. Evaluating impregnation quality with 3-point bending tests and micrographs, the influence and meaning of process parameters is specified. Process parameters are optimised regarding flexural stress and strength, and a process window for a fabric reinforced polyamide PA 12 is defined.
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de Miranda, L. F., L. H. Silveira, Leonardo Gondim Andrade e Silva, and Antônio Hortêncio Munhoz Jr. "Irradiation of a Polypropilene-Glass Fiber Composite." Advances in Science and Technology 71 (October 2010): 138–44. http://dx.doi.org/10.4028/www.scientific.net/ast.71.138.

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The use of composite materials, mainly reinforced thermoplastic has increased on the polymer industry, mainly the polypropylene resins (PP) reinforced by glass fibers (GF). The ionizing radiation can promote alterations in the polymeric chains by scission and crosslinking reactions. The objective of this work is to study the effect of the ionizing radiation in the properties of the polypropylene long fiber glass reinforced thermoplastic. Pellets with 1,3 cm of length, contend 15wt% of the unidirectional long glass fiber were obtained by extrusion and, subsequently, the samples were molded by injection, irradiated and submitted to thermal and mechanical tests. The mechanical (tensile and impact) properties and thermal (HDT and Vicat softening temperature) of irradiated and non irradiated reinforced thermoplastic were determined. The doses of the irradiation of the samples were 30, 50 and 100 kGy in a source of 60Co. The results showed a reduction in the thermal and mechanical performances indicating a degradation of the polymeric matrix.
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Dissertations / Theses on the topic "Thermoplastic composite armors reinforced"

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Ekström, Lars Johan. "Welding of bistable fibre-reinforced thermoplastic composite pipelines." Thesis, University of Cambridge, 2005. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.614933.

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Wu, Xiang. "Thermoforming continuous fiber reinforced thermoplastic composites." Diss., Georgia Institute of Technology, 1990. http://hdl.handle.net/1853/9383.

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Howes, Jeremy C. "Interfacial strength development in thermoplastic resins and fiber-reinforced thermoplastic composites." Thesis, Virginia Polytechnic Institute and State University, 1987. http://hdl.handle.net/10919/77899.

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The objective of this study was to develop tests that could be used to characterize autohesive strength development in amorphous thermoplastic resins and fiber-reinforced thermoplastic prepregs. All tests were performed using polysulfone P1700 thermoplastic resin and AS4/P1700 graphite-polysulfone prepreg. Two test methods were examined to measure autohesion in neat resin samples. These included an interfacial tension test based on the ASTM tensile adhesion test (ASTM D897) and a fracture toughness test using a compact tension (CT) specimen (based on the ASTM toughness test for metals ASTM E399-83). The interfacial tensile test proved to be very difficult to perform and with an unacceptable amount of data scatter. The data obtained using the compact tension test were repeatable and could be correlated with temperature and contact time. Autohesive strength development in fiber-reinforced prepreg samples was measured using a double cantilever beam (DCB) interlaminar fracture toughness test. The fracture mechanisms were determined to be different in the healed DCB specimen than the virgin specimen due to resin flow at the crack plane during the healing tests. The CT test was found suitable for use in determining the autohesive properties and self-diffusion coefficient of neat resin. The DCB test, although not suitable for autohesive testing, indicated that repair of thermoplastic matrix composites is possible; however, the repair will not be as tough as the virgin material.
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Leach, David W. "An experimental study of the processing parameters in thermoplastic filament winding." Thesis, Georgia Institute of Technology, 1991. http://hdl.handle.net/1853/16030.

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Claassen, Marius. "A reconfigurable manufacturing system for thermoplastic fibre-reinforced composite parts : a feasibility assessment." Thesis, Stellenbosch : Stellenbosch University, 2015. http://hdl.handle.net/10019.1/97045.

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Thesis (MEng)--Stellenbosch University, 2015.
ENGLISH ABSTRACT: The South African manufacturing industry plays a pivotal role in the growth of its local economy. Modern manufacturing requirements include the ability to respond quickly to product variability, fluctuations in product demand and new process technologies. The reconfigurable manufacturing paradigm has been proposed to meet the demands of the new manufacturing requirements. In order to assess the feasibility of incorporating automated, reconfigurable manufacturing technologies into the production process of thermoplastic fibre-reinforced composite parts, a system, based on the thermoforming process, that implements these technologies was developed and evaluated. The assessment uses a seat pan for commercial aircraft as case study. Aspects that were addressed include the architecture, configuration and control of the system. The architecture and configuration addressed the sheet cutting, fixturing, reinforcing, heating, forming, quality assurance and transportation. The control, implemented using agents and based on the ADACOR holonic reference architecture, addresses the cell control requirements of the thermoforming process. An evaluation of the system’s reconfigurability and throughput is performed using KUKA Sim Pro. The evaluation of the system’s throughput is compared to the predicted throughput of the conventional technique for manufacturing thermoplastic fibre reinforced composite parts in a thermoforming process. The evaluation of the system’s performance show that the system designed in this thesis for the manufacture of a thermoplastic fibre-reinforced composite seat pan sports a significant advantage in terms of throughput rate, which demonstrates its technical feasibility. The evaluation of the system’s reconfigurability show that, through its ability to handle new hardware and product changes, it exhibits the reconfigurability characteristics of modularity, convertibility, integrability and scalability.
AFRIKAANSE OPSOMMING: Die Suid-Afrikaanse vervaardigingsbedryf speel 'n sentrale rol in die groei van die plaaslike ekonomie. Moderne vervaardiging vereistes sluit in die vermoë om vinnig te reageer op die produk veranderlikheid, skommelinge in die produk aanvraag en nuwe proses tegnologieë. Die herkonfigureerbare vervaardiging paradigma is voorgestel om te voldoen aan die nuwe produksie vereistes. Ten einde die uitvoerbaarheid van die integrasie van outomatiese, herkonfigureerbare vervaardiging-tegnologieë in die produksieproses van veselversterkte saamgestelde onderdele te evalueer, is 'n stelsel, gebaseer op die termo-vormingsproses, wat sulke tegnologieë implementeer, ontwikkel. Die assessering gebruik 'n sitplek pan vir kommersiële vliegtuie as gevallestudie. Aspekte wat aangespreek is sluit in die argitektuur, konfigurasie en beheer van die vervaardigingstelsel. Die argitektuur en konfigurasie spreek aan die sny, setmate, versterking, verwarming, vorm, gehalteversekering en vervoer van n veselversterkte saamgestelde sitplek pan in 'n termo-vormingsproses. Die beheer, geïmplementeer deur die gebruik van agente en gebaseer op die ADACOR holoniese verwysing argitektuur, spreek die selbeheervereistes van die termo-vormingsproses aan. 'n Evaluering van die stelsel se herkonfigureerbaarheid en deurvoer word gedoen met die behulp van KUKA Sim Pro. Die evaluering van die stelsel se deurvoer word vergelyk met die deurvoer van die konvensionele vervaardigingsproses vir termoplastiese vessel-versterkte saamgestelde onderdele in 'n termo-vormingsproses. Die evaluering van die stelsel se prestasie toon dat die stelsel wat in hierdie tesis ontwerp is vir die vervaardiging van 'n termoplastiese vessel-versterkte saamgestelde sitplek pan, hou 'n beduidende voordeel, in terme van deurvloeikoers, in wat die stelsel se tegniese haalbaarheid toon. Die evaluering van die stelsel se herkonfigureerbaarheid wys dat, deur middel van sy vermoë om nuwe hardeware en produk veranderinge te hanteer, die stelsel herkonfigureerbare einskappe van modulariteit, inwisselbaarheid, integreerbaarheid en skaalbaarheid vertoon.
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Brunnacker, Lena. "Short Carbon Fiber-Reinforced Thermoplastic Composites for Jet Engine Components." Thesis, Luleå tekniska universitet, Institutionen för teknikvetenskap och matematik, 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:ltu:diva-76733.

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State-of-the-art aircraft engine manufactures aim to reduce theirenvironmental impact steadily. Thereby they attempt to increase engineefficiency, use new renewable fuel sources and most importantly aim toreduce component weight. While Titanium, Aluminum and continuousfiber reinforced thermosetting composites and superalloys prevail in thecurrent material selection, the present work desires to raise awareness fora novel group of materials; short carbon fiber reinforced thermoplasticcomposites (SCFRTPs). In this kind of composite short fibers givedimensional stability and strength while the thermoplastic matrix ensuresthe physical properties, even at temperatures up to 300°C.Even though in some applications these materials offer great potential tosave weight and cost, it is not clear if their properties suffice to be used indemanding areas of the aero engine and if they are still able provide costand weight reductions there.The present work therefore investigated potential aero-engine componentsthat could be replaced by SCFRTPs. With literature, manufacturer data andmaterial and process modelling approaches, it is shown that SCFRTPsmechanical and physical properties suffice for the selected component.Further it is shown that cost reductions up to 77% and weight savings upto 67% compared to the Ti-6Al-4V baseline component are possible.
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LUPONE, FEDERICO. "Additive manufacturing of carbon fiber reinforced thermoplastic polymer composites." Doctoral thesis, Politecnico di Torino, 2022. http://hdl.handle.net/11583/2966347.

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Gray, Robert Williamson IV. "The Effects of Processing Conditions on Thermoplastic Prototypes Reinforced with Thermotropic Liquid Crystalline Polymers." Thesis, Virginia Tech, 1997. http://hdl.handle.net/10919/46512.

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This work is concerned with preliminary studies on developing thermoplastic composite materials suitable for use in fused deposition modeling (FDM). Polypropylene (PP) strands reinforced with continuous thermotropic liquid crystalline polymer (TLCP) fibrils were generated in a novel dual extruder process. Strands were then re-extruded to form short fiber composite monofilaments that were used as feed stock in the FDM 1600 rapid prototyping system. Prototypes containing 40 wt% Vectra A were shown to have tensile properties twice those of parts built using acrylonitrile butadiene styrene copolymer (ABS), a commercially available material used in the FDM 1600 rapid prototyping system. It was also shown that the final mechanical properties of a composite prototype can be tailored to a specific application by adjusting the lay-down pattern, increasing the functionality of the prototype. In order to obtain the maximum tensile properties in these composite prototype, additional studies were performed to determine the effects of thermal and deformation histories on the mechanical properties of monofilaments that were re-extruded from long fiber TLCP reinforced strands. Strands were consolidated uniaxially at temperatures just above the melting point of the matrix in order to determine the effects of thermal history, and an approximate 20% reduction in tensile modulus relative to the modulus of the strands was observed. Monofilaments that could be used as feed stock in FDM were extruded from long fiber TLCP reinforced strands using a capillary rheometer in order to study the effects of capillary diameter, capillary L/D, and apparent shear rate on the tensile properties.
Master of Science
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Beguinel, Johanna. "Interfacial adhesion in continuous fiber reinforced thermoplastic composites : from micro-scale to macro-scale." Thesis, Lyon, 2016. http://www.theses.fr/2016LYSEI051.

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L’intérêt croissant de l’industrie pour les matériaux composites thermoplastiques est motivé par leurs propriétés de thermoformabilité, de recyclabilité ainsi que leurs capacités de cadences de production élevées. Le développement de matériaux pré-imprégnés thermoplastiques, apparus dès les années 1980, s’est imposé comme un moyen efficace de contourner les fortes viscosités des polymères utilisés en réduisant la distance d’écoulement des polymères à l’état « fondu ». Cette étude s’est plus particulièrement intéressée au développement de composites à base de tissus de verre et de carbone pré-imprégnés par un latex acrylique, le TPREG I. En outre, les propriétés mécaniques élevées des matrices acryliques, alliées à un coût relativement faible, en font un matériau intéressant, de nature à permettre un saut technologique dans la conception et la fabrication de composites structuraux à matrice organique. Notre étude s’est concentrée sur la mesure de l’adhésion à l’interface fibre/matrice acrylique car cette région est au cœur du transfert de charge de la matrice vers les fibres et conditionne donc les propriétés mécaniques du composite. Nous avons choisi d’évaluer l’adhésion interfaciale en combinant des analyses de mouilllage avec des tests mécaniques aux échelles microscopique et macroscopique. Le test micromécanique de la microgoutte permet de mettre en évidence le rôle central de l’ensimage des fibres sur la contrainte de cisaillement interfaciale. L’adhésion thermodynamique, déterminé par des mesures d’énergie de surface, est en accord avec la contrainte de cisaillement et souligne l’influence de la polarité de l’ensimage. A l’échelle macroscopique, les essais de traction hors-axe sur composites unidirectionnels permettant de solliciter l’interface en cisaillement quasi-plan ont mis en exergue une corrélation entre les échelles micro et macro. L’étude a également permis de dégager une forte augmentation de l’adhésion grâce à une modification de la matrice acrylique, ainsi qu’une dégradation des propriétés interfaciales à l’échelle micro par vieillissement hydrolytique. Cette étude constitue une première base de données concernant les propriétés interfaciales de composites thermoplastiques acryliques et démontre l’importance d’une étude multi-échelles dans la conception de nouveaux composites
The present study was initiated by the development of a new processing route, i.e. latex-dip impregnation, for thermoplastic (TP) acrylic semi-finished materials. The composites resulting from thermocompression of TPREG I plies were studied by focusing of interfacial adhesion. Indeed the fiber/matrix interface governs the stress transfer from matrix to fibers. Thus, a multi-scale analysis of acrylic matrix/fiber interfaces was conducted by considering microcomposites, as models for fiber-based composites, and unidirectional (UD)macro-composites. The study displayed various types of sized glass and carbon fibers. On one hand, the correlation between thermodynamic adhesion and practical adhesion, resulting from micromechanical testing, is discussed by highlighting the role of the physico-chemistry of the created interphase. Wetting and thermodynamical adhesion are driven by the polarity of the film former of the sizing. On the other hand, in-plane shear modulus values from off-axis tensile test results on UD composites are consistent with the quantitative analyses of the interfacial shear strength obtained from microcomposites. More specifically, both tests have enabled a differentiation of interface properties based on the fiber sizing nature for glass and carbon fiber-reinforced (micro-)composites. The study of overall mechanical and interface properties of glass and carbon fiber/acrylic composites revealed the need for tailoring interfacial adhesion. Modifications of the matrix led to successful increases of interfacial adhesion in glass fiber/acrylic composites. An additional hygrothermal ageing study evidenced a significant loss of interfacial shear strength at micro-scale which was not observed for UD composites. The results of this study are a first step towards a database of relevant interface properties of structural TP composites. Finally, the analyses of interfaces/phases at different scales demonstrate the importance of a multi-scale approach to tailor the final properties of composite parts
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Louwsma, Jeroen. "Synthesis and investigation of oligomers based on phenylalanine as interfacial agents in fibre-reinforced thermoplastic composite materials." Thesis, Strasbourg, 2018. http://www.theses.fr/2018STRAF047.

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Le développement d’agents interfaciaux pour des matériaux composites renforcés de fibres est nécessaire afin d’obtenir des matériaux performants notamment pour l’industrie automobile. Le projet se concentre sur la synthèse d’oligomères à séquences contrôlées préparés par synthèse en phase solide par réaction d’amidification et de cycloaddition assistée par le cuivre entre un azoture et un alcyne pour introduire précisément des unités de phénylalanine et des groupes aliphatiques. Ces oligomères ont été testés comme agents interfaciaux pour des matériaux composites à base de polypropylène renforcés de fibres de Kevlar. Leur capacité à s’adsorber sur les fibres a été étudiée de façon qualitative par microscopie électronique à balayage et quantitative par analyse gravimétrique. Des expériences préliminaires sur des fibres de Kevlar traitées avec des oligomères synthétisés dans une matrice de polypropylène ont été réalisées pour estimer leur potentielle utilisation dans des matériaux composites
The development of interfacial agents for fibre-reinforced composite materials is needed to obtain performant materials especially for the automotive industry. The project focused on the synthesis of sequence-controlled oligomers prepared by solid phase synthesis using amidation and copper-assisted alkyne-azide cycloaddition reactions to introduce precisely phenylalanine and aliphatic building blocks. These oligomers were evaluated as potential interfacial agents for Kevlar fibre-reinforced polypropylene composite materials. Their ability to adsorb on the fibres was investigated qualitatively by scanning electron microscopy and quantitatively by gravimetric analysis. Some preliminary experiments on the Kevlar fibres treated with some of the synthesised oligomers in a polypropylene matrix were conducted to estimate their potential use in composite materials
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Books on the topic "Thermoplastic composite armors reinforced"

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C, Loos Alfred, and United States. National Aeronautics and Space Administration., eds. Interfacial strength development in thermoplastic resins and fiber-reinforced thermoplastic composites. Blacksburg, Va: College of Engineering, Virginia Polytechnic and State University, 1987.

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H, Hou T., Tiwari S. N, and United States. National Aeronautics and Space Administration., eds. Analysis of pultrusion processing for long fiber reinforced thermoplastic composite system. Norfolk, Va: Old Dominion University, 1993.

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Schlechter, Melvin. Composites: Resins, fillers, reinforcements, natural fibers and nanocomposites. Norwalk, CT: Business Communications Co., 2002.

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Analysis of pultrusion processing for long fiber reinforced thermoplastic composite system. Norfolk, Va: Old Dominion University, 1993.

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An improved compression molding technology for continuous fiber reinforced composite laminate: Part 1: AS-4/LaRC-TPI 1500 (HFG) prepreg system. Hampton, Va: National Aeronautics and Space Administration, Langley Research Center, 1991.

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Book chapters on the topic "Thermoplastic composite armors reinforced"

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Russo, Pietro, Giorgio Simeoli, Valentina Lopresto, Antonio Langella, and Ilaria Papa. "Environmental Friendly Thermoplastic Composite Laminates Reinforced with Jute Fabric." In Advances in Natural Fibre Composites, 119–26. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-64641-1_11.

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Cervenka, A. "Composite Pipes Based on Thermoplastic Matrices Reinforced by Continuous Fibres." In Mechanics of Composite Materials and Structures, 309–18. Dordrecht: Springer Netherlands, 1999. http://dx.doi.org/10.1007/978-94-011-4489-6_18.

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Gutiérrez, Tomy J., Romina Ollier, and Vera A. Alvarez. "Surface Properties of Thermoplastic Starch Materials Reinforced with Natural Fillers." In Springer Series on Polymer and Composite Materials, 131–58. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-66417-0_5.

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Martin, T. A., D. Bhattachryya, and R. B. Pipes. "Computer-Aided Grid Strain Analysis in Fibre Reinforced Thermoplastic Sheet Forming." In Computer Aided Design in Composite Material Technology III, 143–62. Dordrecht: Springer Netherlands, 1992. http://dx.doi.org/10.1007/978-94-011-2874-2_10.

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Azaman, M. D., S. M. Sapuan, S. Sulaiman, E. S. Zainudin, and A. Khalina. "Processability of Wood Fibre-Filled Thermoplastic Composite Thin-Walled Parts Using Injection Moulding." In Manufacturing of Natural Fibre Reinforced Polymer Composites, 351–67. Cham: Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-07944-8_17.

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Mitscherling, J., and W. Michaeli. "An Extended Model for the Forming Simulation of Fabric Reinforced Thermoplastic Prepregs." In Developments in the Science and Technology of Composite Materials, 113–18. Dordrecht: Springer Netherlands, 1990. http://dx.doi.org/10.1007/978-94-009-0787-4_13.

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Leterrier, Y., C. G’sell, and A. Gerard. "Structural Evolution of a Stamping Reinforced Thermoplastic (SRT) in Both Extensional and Shearing Flows." In Developments in the Science and Technology of Composite Materials, 1067–72. Dordrecht: Springer Netherlands, 1990. http://dx.doi.org/10.1007/978-94-009-0787-4_154.

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Kim, Jin Woo, and Dong Gi Lee. "Effect of Fiber Content and Fiber Orientation on the Tensile Strength in Glass Mat Reinforced Thermoplastic Sheet." In Advances in Composite Materials and Structures, 337–40. Stafa: Trans Tech Publications Ltd., 2007. http://dx.doi.org/10.4028/0-87849-427-8.337.

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Brecher, C., M. Emonts, J. Stimpfl, and A. Kermer-Meyer. "Production of Customized Hybrid Fiber-Reinforced Thermoplastic Composite Components Using Laser-Assisted Tape Placement." In Lecture Notes in Production Engineering, 123–29. Cham: Springer International Publishing, 2013. http://dx.doi.org/10.1007/978-3-319-01964-2_17.

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Bar, Mahadev, R. Alagirusamy, and Apurba Das. "Advances in Natural Fibre Reinforced Thermoplastic Composite Manufacturing: Effect of Interface and Hybrid Yarn Structure on Composite Properties." In Advances in Natural Fibre Composites, 99–117. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-64641-1_10.

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Conference papers on the topic "Thermoplastic composite armors reinforced"

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Skeie, Geir, Nils Sødahl, and Dag McGeorge. "Cross Section Analysis of Flexible Risers Including Composite Layers." In ASME 2022 41st International Conference on Ocean, Offshore and Arctic Engineering. American Society of Mechanical Engineers, 2022. http://dx.doi.org/10.1115/omae2022-81326.

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Abstract Oil and gas exploration and exploitation in deep and ultra-deep waters challenges classical riser technology and configuration. New technologies, including carbon fiber as composite armors, influence weight and strength of the riser. This can allow for more simple configurations compared with conventional ones, simplifies installation procedures and eventually lead to reduced costs. The new fiber reinforced cross section sheaths requires new analytical models in the local stress analysis tools. The current paper explores efficient and accurate implementations of orthotropic laminate sheaths into classical cross section simulation tools. The model is based on a classic partition of the analysis scheme into a combined load and response model consisting of an axisymmetric and pure bending part. The suggested model is based on full 3D elasticity solution that allows for thick cylindrical laminates taking into account all stress and strain components. The model is compared with 3D Abaqus results for a number of different lay-ups and the results show excellent agreement with the more advanced 3D simulations in both axisymmetric and bending response modes. The laminate, a thermoplastic composite layer with carbon fibers, is used as a component in an unbonded flexible pipe. The cross-sectional analysis is thus performed in the classical way.
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Nino, Giovanni, Harald Bersee, Adriaan Beukers, and Tahira Ahmed. "Erosion of Fiber Reinforced Thermoplastic Composite Structures." In 49th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference
16th AIAA/ASME/AHS Adaptive Structures Conference
10t. Reston, Virigina: American Institute of Aeronautics and Astronautics, 2008. http://dx.doi.org/10.2514/6.2008-1909.

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Meyer, Didier, Paola Carnevale, Harald Bersee, and Adriaan Beukers. "New Affordable Reinforced Thermoplastic Composite for Structural Aircraft Applications." In 50th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference. Reston, Virigina: American Institute of Aeronautics and Astronautics, 2009. http://dx.doi.org/10.2514/6.2009-2337.

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Liang, Jiaai, and Shankar Kalyanasundaram. "Failure behavior of a glass-fiber reinforced thermoplastic composite." In 2ND INTERNATIONAL CONFERENCE ON COMPOSITE MATERIALS AND MATERIAL ENGINEERING (ICCMME 2017). Author(s), 2017. http://dx.doi.org/10.1063/1.4983583.

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Selim, M., M. Moore, J. Lee, and A. Green. "A Sustainable and Durable Glass Reinforced Thermoplastic Composite Railroad Crosstie." In CAMX 2019. NA SAMPE, 2019. http://dx.doi.org/10.33599/nasampe/c.19.0831.

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Saito, Takeshi, Ryo Morimoto, Masaru Imamura, Akio Ohtani, and Asami Nakai. "Dimensional and Internal Structural Design for Braided Fabric Reinforced Thermoplastic Composite." In ASME 2013 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2013. http://dx.doi.org/10.1115/imece2013-64416.

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The braided fabrics are one of the typical textiles and have been expected to be an excellent performs for the reinforcements of composite materials. Fig.1 shows schematic drawing of a braided fabric. Braided fabrics are composed of Braided Yarns (BY) oriented diagonally and Middle End Yarns (MEY) inserted into the fabric in longitudinal direction. In previous study, it was clarified that the internal structures for the braided fabric were decided with 4 parameters; area and cross-sectional shape of braiding yarns, the braiding angle and distance between braiding yarns. And it have been suggested that internal structural parameters for braided fabric reinforced composites with thermo-setting resin are possible to be predicted. However in the case of braided composites with thermoplastic resin, impregnation mechanism of thermoplastic resin with solid state is completely different from that of thermosetting resin with liquid state. In order to predict internal structures of braided composites with thermoplastic resin, it is necessary to investigate the impregnation process or mechanism of thermoplastic resin in to fiber bundles apply enough heat on thermoplastic resin to be liquid state for good impregnation especially in the case of intermediate material such as comingled yarn, and etc. The purpose of this study is to predict the relationship between dimensional and internal structural parameters for braided fabric reinforced thermoplastic composite. The braided fabric was fabricated with intermediate material such as commingled yarns. During molding with heat and pressure, effect of molding time on the mechanism of impregnation and internal structural parameters were investigated.
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Sorrentino, L., L. Cafiero, M. D’Auria, and S. Iannace. "Processing and properties of multiscale cellular thermoplastic fiber reinforced composite (CellFRC)." In THE SECOND ICRANET CÉSAR LATTES MEETING: Supernovae, Neutron Stars and Black Holes. AIP Publishing LLC, 2015. http://dx.doi.org/10.1063/1.4937309.

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Maron, Bernhard, Christian Garthaus, Florian Lenz, Andreas Hornig, Michael Hübner, and Maik Gude. "Forming of carbon fiber reinforced thermoplastic composite tubes - Experimental and numerical approaches." In ESAFORM 2016: Proceedings of the 19th International ESAFORM Conference on Material Forming. Author(s), 2016. http://dx.doi.org/10.1063/1.4963584.

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Kuhtz, M., B. Maron, A. Hornig, M. Müller, A. Langkamp, and M. Gude. "Characterising the thermoforming behaviour of glass fibre textile reinforced thermoplastic composite materials." In PROCEEDINGS OF THE 21ST INTERNATIONAL ESAFORM CONFERENCE ON MATERIAL FORMING: ESAFORM 2018. Author(s), 2018. http://dx.doi.org/10.1063/1.5034815.

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Meyer, Didier, Harald Bersee, and Adriaan Beukers. "Temperature Effect on Reinforced Thermoplastic Composite Properties for Primary Aircraft Structure Applications." In 49th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference
16th AIAA/ASME/AHS Adaptive Structures Conference
10t. Reston, Virigina: American Institute of Aeronautics and Astronautics, 2008. http://dx.doi.org/10.2514/6.2008-1938.

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Reports on the topic "Thermoplastic composite armors reinforced"

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Naus, Dan J., James Corum, Lynn B. Klett, Mike Davenport, Rick Battiste, and Jr ,. William A. Simpson. Durability-Based Design Criteria for a Quasi-Isotropic Carbon-Fiber-Reinforced Thermoplastic Automotive Composite. Office of Scientific and Technical Information (OSTI), April 2006. http://dx.doi.org/10.2172/930728.

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(Archived), Irina Ward, and Farah Abu Saleh. PR-473-144506-R01 State of the Art Alternatives to Steel Pipelines. Chantilly, Virginia: Pipeline Research Council International, Inc. (PRCI), December 2017. http://dx.doi.org/10.55274/r0011459.

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This report is a literature review of several non-metallic material systems often used as alter-natives to steel pipelines. The pipeline systems reviewed are high density polyethylene (HDPE), fiberglass reinforced plastic (FRP), flexible composite and thermoplastic liners. This report is not intended to be a detailed guide or design manual on the use of the referenced materials for pipeline applications, rather an overall evaluation on the current state of these systems. Significant industry literature and documentation already exists on the design, manufacturing, installation, and operation of these pipelines. This information currently resides in pipe manufacturer's manuals and various industry standards and guides published by organizations such as ASTM International (ASTM), American Petroleum Institute (API) American Water Works Association (AWWA), and International Organization for Standardization (ISO). In Canada, the oil and gas industry pipeline code, CSA Z662-2015 (Canadian Standards Association, 2015). Users should frequently consult the manufacturers of the pipe products in use or under consideration for use for clarification and suggestions regarding the best practices, considerations and applications of the materials in question. In addition, pipeline operators should be aware of the applicable regulatory requirements in the jurisdictions they are operating within.
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