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A Critical Review on Finite Element Models Towards Physico-Mechanical Properties of Bamboo Fibre/Filler-Reinforced Composite Materials
Bamboo is nowadays considered one of the most promising alternative substitutes to synthetic fibre composites. In addition to being affordable,... -
Multi-faceted Uncertainty Quantification for Structure-Property Relationship with Crystal Plasticity Finite Element
The structure-property linkage is one of the two most important relationships in materials science besides the process-structure linkage, especially... -
A Micromechanical Modeling Approach for the Estimation of the Weathering-Induced Degradation of Wind Turbine Blades
Glass fiber reinforced polymers (GFRPs) are widely used as composite material for a variety of applications such as wind turbine blades (WTBs)....
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Mechanical Behavior of Spheroidized Steel Sheets: Effects of Microstructural Features, Loading, and Boundary Condition Modeling
In this study, the effects of the microstructural features on the mechanical behavior of the spheroidal steel sheets are investigated. The crystal...
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Design and Optimization of Manufacturing Process of Polymer Composites Through Multiscale Cure Analysis and NSGA-II
Thermoset polymer composite structures are heavily used in the aerospace, defense, transport, and energy sectors due to their lightweight and...
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On the origin of power-scaling exponents in silica aerogels
The macroscopic properties of open-porous cellular materials hinge upon the microscopic skeletal architecture and features of the material....
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Effects of non-uniform needled microstructure on failure mechanisms of 3D needled composites thick-walled cylinder under axial compression and internal pressure
Three-dimensional (3D) needled ZrC–SiC-modified C/C composites (C/C–ZrC–SiC composites) as cutting-edge materials for throat or expansion section of...
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Dark energy in crystals: prediction of stored energy in polycrystalline aggregates
During the plastic deformation of metallic materials, part of expended mechanical energy diffuses as heat. The fraction of plastic work converted...
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Thermo-electro-mechanical microstructural interdependences in conductive thermoplastics
Additive manufacturing has enabled the design of thermoplastic components that provide structural support, electrical conductivity and heat...
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Atomistic Simulations of the Elastic Compression of Platinum Nanoparticles
The elastic behavior of nanoparticles depends strongly on particle shape, size, and crystallographic orientation. Many prior investigations have...
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Microstructure-Based Modelling of Elastoplastic Properties and Deformation Characteristics of Advanced High Strength Dual-Phase Steel
AbstractThe 3D representative volume element modelling concerning different microstructural features and renowned work hardening models was developed...
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Impact of Aluminium and Cooling Conditions on Silicon Distribution in High Si-SGI by Performing 3D-Microstructure Simulations
Solid-solution-strengthened ferritic ductile ironSolid-solution-strengthened ferritic ductile iron (SSFDI) exhibits a superior ratio of tensile... -
Development of EN AW-6082 Metal Foams and Stochastic Foam Modeling for the Individualization of Extruded Profiles
Lightweight design and hybrid components enable innovative and new component concepts, especially when combining structurally reliable metal...
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Simulated Mechanical Properties of NbC-Fe Composite Material under Tensile Load
With the continuous development of composite materials for various application fields, the demand for their performance has increased substantially....
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Computational Homogenization of Precipitated Shape Memory Alloys: A Comparative Study of FFT Versus FEA
Aging heat treatments in Shape Memory Alloys (SMAs) often lead to formation of precipitates, which affect phase transformation. In order to analyze...
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High Strain-Rate Testing of Brittle Materials Using Miniature Beryllium Split-Hopkinson Pressure Bars
Split-Hopkinson Pressure Bars (SHPB) or “Kolsky” bars are often employed for determining the high-rate compressive failure strength of high-strength... -
Study on the Micro-Scale Deformation Behavior of Al-B4C Composite by Using CPFE-CZ Model
Aluminum metal matrix composites (AMMCs) reinforced with B4C particles (Al-B4C) exhibit excellent properties, rendering them a promising material for... -
Influence of Scanning and Building Strategies on the Deformation Behavior of Additively Manufactured AlSi10Mg: CPFEM and Finite Element Studies
AbstractA novel computational framework has been presented in this work for understanding the mechanical deformation behavior in additively...
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Numerical Simulation of Shot Peening Process for AISI 4340 Steel Using Random Balls Method
A novel approach for simulating the process is proposed in this work, which studies the influences of shot peening parameters such as peening angle,...
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Multiscale Modelling of Polymer Composites
Polymers are increasingly replacing conventional materials at a fast pace. New and innovative products are being developed daily. Any useful...