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Damage Monitoring of Regularly Arrayed Short-Fiber-Reinforced Composite Laminates under Tensile Load Based on Acoustic Emission Technology. [PDF]
Polymers (Basel)Cai H, Lu W, Ma J, Huang Y, Hu J.
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2017
Fiber reinforced composite (FRC) is a promising class of materials that gives clinicians alternative treatment options. FRCs are acknowledged by their excellent mechanical properties, and their strength is superior to many restorative dental materials.
Ho, Kingsley, Erden, Seckin
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Fiber reinforced composite (FRC) is a promising class of materials that gives clinicians alternative treatment options. FRCs are acknowledged by their excellent mechanical properties, and their strength is superior to many restorative dental materials.
Ho, Kingsley, Erden, Seckin
+4 more sources
Fiber-reinforced composite prostheses
Dental Clinics of North America, 2004Metal-free prosthetic dentistry continues to gain interest. Although the metal alloys contribute great strength and stiffness to restorations and prostheses, they do so at a considerable esthetic liability. Two somewhat divergent metal-free approaches to fixed tooth replacement continue to be developed for a variety of clinical applications.
Martin A, Freilich, Jonathan C, Meiers
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Natural Fiber-Reinforced composites
Polymer Reviews, 2012Over the last decade, composites of polymers reinforced with natural fibres have received increasing attention, both from the academic world and from several industries. There is a wide range of natural fibres which can be applied as reinforcements or fillers thanks to their properties and availability; i.e. flax, hemp, jute, kenaf and sisal.
Di Bella, G +2 more
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2008
Part A. Fiber-Reinforced Concrete 22.1 Historical Development 22-2 22.2 General Characteristics 22-2 22.3 Mixture Proportioning 22-4 22.4 Mechanics of Fiber Reinforcement 22-5 First Cracking Load • Critical Fiber Length: Length Factor • Critical Fiber Spacing: Space Factor • Fiber Orientation: Fiber Efficiency Factor • Static Flexural Strength ...
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Part A. Fiber-Reinforced Concrete 22.1 Historical Development 22-2 22.2 General Characteristics 22-2 22.3 Mixture Proportioning 22-4 22.4 Mechanics of Fiber Reinforcement 22-5 First Cracking Load • Critical Fiber Length: Length Factor • Critical Fiber Spacing: Space Factor • Fiber Orientation: Fiber Efficiency Factor • Static Flexural Strength ...
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FIBER REINFORCED PIEZOELECTRIC COMPOSITES
2015Multifunctional carbon fiber composites are fabricated utilizing the piezoelectric property of nanostructured zinc oxide and barium titanate deposited on Kevlar and carbon fiber fabrics.
Christopher C. Bowland +3 more
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Extruded Fiber-Reinforced Composite
2002Publisher Summary High performance fiber-reinforced cementitious composites (HPFRCC) exhibit increased tensile strength, enhanced toughness, and sometimes, a strain-hardening response. The amount of fiber reinforcement needed to achieve this behavior is higher than what can typically be added to conventional cast-in-place concrete.
B. Mu, M.F. Cyr, S.P. Shah
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Fiber reinforced composites orthodontic retainers.
Minerva stomatologica, 2015Retention is the phase of orthodontic treatment that attempts to hold teeth in their corrected positions after orthodontic therapy is completed. The aim of this study was to consider fiber-reinforced composites (FRC) as a possible alternative to conventional multistranded stainless steel wire for retention through SEM analysis.Two different FRC ...
LUCCHESE , ALESSANDRA +7 more
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Bagasse-Fiber-Reinforced Composites
Journal of Elastomers & Plastics, 1981This paper describes the evaluation of five water soluble phenolic resins as binders, at 5 percent concentration, for oriented and random bagasse-reinforced composite materials. De termined was the amount of resin retained during processing when these phenolics are precipitated from a water slurry onto the bagasse fibers.
Arthur M. Usmani +3 more
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Fiber-Reinforced, Sintered Composites
1966Successful reinforcement of two powder metal matrix systems with improvement of room and elevated temperature properties through incorporation of metal fibers or fiber glass is reported. Fiber parameters such as length, diameter, volume fraction and placement, as well as methods of processing, are discussed.
R. H. Baskey +2 more
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