Retention strength of carbon fiber reinforced polymer rebar under
Understanding the performance of carbon fiber reinforced polymer under elevated temperatures is essential to expanding its application in construction, particularly in fire-prone
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High Temperature Resistance Fiber
Thermal and mechanical properties of fiber reinforced high
Four SCC mixes, plain SCC, steel, polypropylene, and hybrid fiber reinforced SCC were considered in the test program. Data from mechanical property tests show that the presence of steel
Full article: Tribological Behaviors of Natural Fiber
The tribological behaviors of multiphase composites with polyaspartic polyurea matrix produced by vacuum assisted resin transfer molding (VARTM)
Effect of Fiber Surface Treatment on Wear Characteristics of Carbon
In this study, we investigated the effect of ozone treatment on interfacial and tribological properties of carbon fiber-reinforced PA6 composites. As a result, the IFSS of the composites were
Test Methods for Characterizing the Properties of Fiber
Recent research trends focus on developing bio-based (derived from agricultural byproducts) fiber-reinforced polymer (FRP) composites for structural
Test Methods for Characterizing the Properties of Fiber
Due to this variation, the fire resistance of FRP materials (both conventional and bio-based) poses a major concern for use in buildings.
Thermal resistance of carbon fibres/carbon fibre reinforced polymers
Recycling of carbon fibre reinforced polymer composites is a mostly unsolved problem. Thermal recycling (e.g. pyrolysis) is often described as a promising method for recycling of carbon
About the thermomechanical behaviour of a carbon fibre reinforced high
Novel high-temperature thermoplastic polymers offer potential advantages over thermoset ones and represent a promising alternative in advanced composite applications. This work proposes
Effects of High Temperatures on the Performance of Carbon Fiber
In this study, the safe critical temperature that can be tolerated by CFRP tendons under normal working conditions was derived through tensile tests at room and high temperatures.
Fiber-reinforced concrete in high-temperature environments: In-depth
Abstract and Figures The successful automatic performance of fiber-reinforced concrete (FRC) has led to its widespread application; adding fibers affects its novel properties.
High-Temperature Effect on the Tensile Mechanical Properties of
Carbon fiber-reinforced polymer (CFRP) has the advantages of a high strength-weight ratio and excellent fatigue resistance and has been widely used in aerospace, automotive, civil infrastructure,
High‐Temperature Tribological Performance of Short Bamboo Fiber
This study investigates the ball‐on‐disk tribological behavior of short bamboo fiber‐reinforced polypropylene matrix composite under temperatures ranging from room temperature
High temperature durability of fiber reinforced high alumina cement
This research studied the high-temperature resistance and water resistance of magnesium phosphate cement mortar containing different proportions of basalt fiber and silica fume.
Trial by wind: Testing the heat resistance of carbon fiber-reinforced
Carbon fiber-reinforced ultra-high-temperature ceramic (UHTC) matrix composites are extensively used in space shuttles and high-speed vehicles. However, these composites suffer from
Mechanical Properties of High-Temperature Fiber
Fiber-reinforced thermoset composites are a class of materials that address the arising needs from the aerospace and hypersonic industries for high
State-of-the-art review on high-temperature performance of
Using plant-based fibers in concrete composites has significantly contributed to the eco-friendliness and sustainability of the construction sector. However, the vulnerability of natural-fiber
Highly resilient PBAT foams fabricated by bamboo powder limiting
High-performance Poly (butylene adipate-co-butylene terephthalate) (PBAT) foam holds significant potential for application in packaging, construction and other sectors, but it has the
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In this study, the stresses occurring in the disk consisting of carbon fiber reinforced plastic material (CFRP) were investigated. Concepts such as temperature and modulus of elasticity are very
Degradation of carbon fiber-reinforced ultra-high-temperature ceramic
The heat resistance of carbon fiber-reinforced ultra-high-temperature ceramic matrix composites (C/UHTCMCs) was characterized by arc-wind tunnel testing with heat fluxes of 2, 4.54,
High-temperature resistance performance of silica
Fiber-reinforced silica aerogel blankets (FRABs) are an important high-temperature thermal insulation material for industry applications that have emerged in recent years.
Trial by wind: Testing the heat resistance of carbon fiber-reinforced
Even though C/C has excellent mechanical properties at high temperatures and inert atmospheres, it lacks oxidation resistance in these conditions, making its widespread use limited.
Analysis of damage mechanisms in fiber-reinforced ceramic matrix
Quasi-static and creep-fatigue tests were conducted at various temperatures and stress levels to investigate failure mechanisms at intermediate and high temperatures.
Effect of carbon fiber reinforcement and sintering temperature on
Three pressureless sintering temperatures (1850 °C, 1950 °C, and 2150 °C) were investigated to understand their effect on density, mechanical properties, and thermo-oxidative
Ultralight Carbon Foams and Their Sandwich Structures with Carbon
This swelling-assisted fabrication strategy, combined with the CAC-reinforced sandwich architecture, provides an effective and scalable route for developing ultralight carbon-based
A review of mechanical properties of fibre reinforced concrete at
In particular, the temperature-dependent mechanical properties of steel fibre reinforced concrete, polypropylene fibre reinforced concrete and hybrid fibre reinforced concrete are discussed,
Wear mechanisms of carbon fiber‐reinforced resin matrix composite at
The resin matrix exhibits high sensitivity to temperature variations, significantly affecting the wear behaviors of the composite. Notably, at 175°C, the angle between the relative sliding
Processing of Fiber‐Reinforced Ultra‐High Temperature
Ultra‐high temperature ceramics (UHTCs) have emerged as promising materials for high temperature aerospace applications due to their high
State of the art review on ultra-high-performance fiber reinforced
Ultra-High-Performance Fiber-Reinforced Concrete (UHPFRC) represents one of the most advanced construction materials, characterized by extremely high strength, compact