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Micromechanics of Thermal Conductive Composites: Review, Developments and Applications
Micromechanics investigations of composites with fiber-shaped reinforcement are extensively applied in the engineering design and theoretical...
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Advancements and Challenges of Micromechanics-based Homogenization for the Short Fiber Reinforced Composites
In the realm of technologically important short fiber and particulate-reinforced composites, homogenization approaches based on micromechanics are...
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Interfacial micromechanics study on contact modeling for bolted joints
Bolted joints represent the discontinuity of the assembled structures, so their contact characteristics contribute significantly to the overall...
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Second Moment of Displacement State and Effective Energy-Based Criteria in Peridynamic Micromechanics of Random Structure Composites
The basic feature of the peridynamics is a continuum description of material behavior as the combined nonlocal force interactions between...
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Transformation Field Analysis and Clustering Discretization Method in Peridynamic Micromechanics of Composites
In contrast to the classical local theories, the peridynamic equation of motion introduced by Silling (J Mech Phys Solids 48:175–209,
2000 ) is free... -
Interfacial micromechanics modeling for bolted joints in ultra-precision machine tools
Bolted joints are widely adopted in various mechanical structures. However, the uncertainty and complexity of the contact surfaces affect accurate...
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Estimations of Effective Energy-Based Criteria in Nonlinear Phenomena in Peridynamic Micromechanics of Random Structure Composites
One of the most important features of peridynamic modeling is a continuum description of material behavior as the summation of force interactions...
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Micromechanics-based analysis of PVA–ECC after thermal exposure
In this paper, the thermal effects on mechanical properties of polyvinyl alcohol fiber-reinforced engineered cementitious composites (PVA–ECC) were...
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Background of Peridynamic Micromechanics
In this chapter, some background principles of peridynamic micromechanics are presented. The classical representations of effective elastic moduli... -
Micromechanics Model for Rubber Blends Filled by a Nano-Reinforced Devulcanized Recycled Rubber: Application in the Automotive Industry
The present report proposes a micromechanics model for predicting the dynamic modulus of rubber blends consisting of a base rubber and devulcanized...
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Multiscale micromechanics modeling of plant fibers: upscaling of stiffness and elastic limits from cellulose nanofibrils to technical fibers
The mechanical properties of natural fibers, as used to produce sustainable biocomposites, vary significantly—both among different plant species and...
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Continuum Models via Granular Micromechanics
The utilization of continuum modelling in describing complex material systems is historically widespread because of the computational feasibility of... -
The Effect of Change in Basilar Membrane Stiffness on the Micromechanics Cochlear Model
In this present work, the micromechanical cochlea model has developed in order to describe mathematically the displacement of cochlear partition... -
Studying the effect of design microscale factors on the thermoelastic response of carbon nanotube-reinforced metal nanocomposites using the finite element micromechanics method
Thermoelastic constants seem to be important in designing metal-based composite structures under temperature variations. In the current research, the...
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Peridynamic Micromechanics of Random Structure Composites
In this chapter, we consider the solution methods of the GIE of peridynamic micromechanics. These methods are based on extraction from the material... -
Micromechanics-based binary-medium constitutive model for frozen soil considering the influence of coarse-grained contents and freeze–thaw cycles
In cold regions, the deformation characteristics of frozen soils with different coarse-grained contents change significantly under the freeze–thaw...
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Combination of mean-field micromechanics and cycle jump technique for cyclic response of PA66/GF composites with viscoelastic–viscoplastic and damage mechanisms
An accelerated micromechanics framework based on the extended Mori–Tanaka transformation field analysis (TFA) and cycle jump technique is proposed to...
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Generalized Mori-Tanaka Approach in Peridynamic Micromechanics of Multilayered Composites of Random Structure
The basic feature of the peridynamics (PD) is a continuum description of material behavior as the integrated nonlocal force interactions between...
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Imposing Dirichlet boundary conditions directly for FFT-based computational micromechanics
We discuss how Dirichlet boundary conditions can be directly imposed for the Moulinec–Suquet discretization on the boundary of rectangular domains in...