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Creep and stress relaxation behavior of functionalized microcrystalline cellulose/epoxy composites
The study of silane-functionalized microcrystalline cellulose as reinforcement in polymeric composite materials have been increasing. Since polymer...
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Evaluation of the Tensile Creep Behavior of Various Warp Knitted Fabric Structures Using Viscoelastic Models
Fabric extension as a result of tensile creep can disfigure and disturb the function of textiles in various applications from garment to technical...
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Highly Improved Creep Resistance in Polypropylene Through Thermally Reduced Graphene Oxide and Its Creep Lifetime Prediction
Polypropylene (PP) exhibits suboptimal creep resistance due to the presence of methyl groups on its main chain, leading to irregular chain segment...
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Use of artificial neural network to fit creep behavior of polyetherimide/carbon fiber composite under low-stress load
High-performance composites are subjected to different mechanical forces and stresses during their lifetime. Hence, knowledge of the time-dependent...
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Mechanical Properties, Stretching Durability, and Creep Behavior of Stretchable Thermally Conductive Films with Embedded-Graphite-Composite Patterns
Because thermal interface materials are composites with high-filler-loading, they are rigid, while also having large thermal conductivity. Their use...
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Influence of Creep Conditions and Grain Size on the Creep Behavior of Nano-Twinned Silicon Carbide Polycrystal: A Molecular Dynamics Study
The existence of a planar defects on any ceramic material has invoke greater modifications in the material features of many intermetallic and...
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Testing and Analysis of Micro Creep
Creep can be beneficial or detrimental for a concrete structure, the fundamental mechanism of which has not been fully understood due to the complex... -
Multiscale Prediction of Creep Property of Cementitious Materials
The existing multiscale models to predict the creep property of cementitious materials by micromechanics-based homogenization are reviewed in this... -
Analysis on the Impact of Creep Environment and Grain Size During Biaxial Creep Characterization on the Creep Features of Ferrosilicon Alloy: a Molecular Dynamics Study
The underlying deformation mechanism of ferrosilicon polycrystal alloy during biaxial creep characterization has been explored through molecular...
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Short‐term creep experiments and modeling on the effect of nano-sized calcium carbonate particles and applied stress on nonlinear viscoelastic behavior of high-density polyethylene
In selecting uses areas engineering parts obtained from polymer materials, they have been decisive their mechanical behavior. Creep behavior is one...
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Creep behavior of flax fiber-reinforced polyamide 6 composites: experimental and numerical studies
The use of natural fiber-reinforced polymer composites has been the subject of many research projects, for the development of environment-friendly...
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Multicycle indentation based fatigue and creep study of polymers
Polymers are the latest designed materials used in structural, fitting, joint, and other applications. Three thermoplastic polymers, named Polyether...
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High Temperature Creep Property of Nanoparticle Reinforced Composite by Discrete Dislocation Dynamic Method
Metal-matrix composites (MMCs) reinforced by nanoparticles exert much fine mechanical performance such as high strength, high modulus and good... -
Effects of Nucleating Agent on the Thermal Conductivity and Creep Strain Behavior of Rigid Polyurethane Foams Blown by an Environment-Friendly Foaming Agent
The effects of liquid-type additive, methoxynonafluorobutane, on the morphology, thermal conductivity, creep strain, and mechanical strength of...
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Mechanical characterization of Araldite LY 564 epoxy: creep, relaxation, quasi-static compression and high strain rate behaviors
A comprehensive mechanical characterization of a commercially available hot curing epoxy system (Araldite ® LY 564 with Aradur ® 2954, HUNTSMAN Corp.)...
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A simple model to fit and interpret creep curves-behaviour of modified micro-cellulose particulate composites
Micro crystalline cellulose is mostly used to improve thermo-mechanical properties of composites. This study aims to evaluate the creep behaviour of...
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Fatigue and Creep Properties of Carbon Nanotube/Aramid Fiber Synergistically-Reinforced Rubber Sealing Composites
Short fiber-reinforced composites are widely used in petrochemical industry, especially in sealing devices. Due to harsh service environment, the...
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Effects of blend phase ratio upon thermomechanical, viscoelastic relaxation and strain recovery behavior of crosslinked LDPE/EVA foams
Crosslinked foams based on blends of low-density polyethylene (LDPE) and copolymer of ethylene–vinyl acetate (EVA) with various blend phase ratios,...
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A strain rate-dependent interfacial contact model by considering the strain rate and temperature of lithium for LLZO-based solid-state lithium batteries
The interfacial contact between the electrolyte and electrode is a crucial factor influencing the interface impedance in all-solid-state lithium...
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A three-phase micromechanical model for evaluating creep modulus of polymer/Al2O3 nanocomposites
In this paper, the creep modulus of polymer/spherical Al 2 O 3 nanoparticle nanocomposites is predicted. An analytical micromechanics model is developed...