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61,005 resultsShowing papers similar to Temperature Dependence of the Deformation Behavior of High-entropy Alloys Co20cr20fe20mn20ni20, Co19cr20fe20mn20ni20с1 and Co17cr20fe20mn20ni20с3. Mechanical Properties and Temperature Dependence of Yield Strength
ClearTemperature Dependence of Mechanical Properties and Plastic Flow Behavior of Cast Multicomponent Alloys Fe20Cr20Mn20Ni20Co20-xCx (x = 0, 1, 3, 5)
This materials science paper examines how carbon additions affect the mechanical properties and deformation behavior of high-entropy metal alloys at temperatures ranging from near absolute zero to room temperature. The paper addresses metallic plasticity at a microscale level and is unrelated to environmental microplastic pollution.
Temperature Dependence of the Deformation Behavior of High-Entropy Alloys Co20Cr20Fe20Mn20Ni20, Co19Cr20Fe20Mn20Ni20С1, and Co17Cr20Fe20Mn20Ni20С3. Mechanical Properties and Temperature Dependence of Yield Stress
Not relevant to microplastics — this study examines the mechanical properties and temperature-dependent deformation of high-entropy Cantor alloys doped with carbon, noting 'microplastic deformation' only as a materials science term for sub-yield-stress plastic flow, not as a reference to environmental microplastic pollution.
Effects of Adiabatic Heating and Strain Rate on the Dynamic Response of a CoCrFeMnNi High-Entropy Alloy
This materials science study analyzed how a high-entropy metal alloy responds to high-speed compression, including heat buildup at different strain rates. The research is not directly related to microplastics or human health.
Mechanical Spectroscopy Study of CrNiCoFeMn High-Entropy Alloys
This study characterized the mechanical properties of a high-entropy alloy manufactured by both conventional induction melting and selective laser melting (3D printing). The research is focused on advanced materials engineering with limited direct relevance to microplastic pollution.
A bcc refractory high-entropy alloy: the ideal case of smooth plastic flow
This materials science paper characterizes smooth plastic flow in a body-centered cubic refractory high-entropy alloy, examining dislocation dynamics and deformation mechanisms; it is not directly related to microplastic environmental research.
Transformation Kinetics, Microplasticity and Aging of Martensite in FE-31 Ni.
This materials science study examines microplastic behavior in iron-nickel martensite alloys, finding that stress-induced phase transformation produces unusually large microplastic strains. The term 'microplasticity' refers to small-scale plastic deformation in metals and is not related to environmental plastic pollution.
Preparation and High‐Temperature Microplastic Forming Performance of Nano‐FeCoNi Medium‐Entropy Alloy Foils
Researchers fabricated nanocrystalline FeCoNi medium-entropy alloy foils using alternating current pulse electrodeposition and characterized their microstructure, crystallographic properties, and mechanical performance. A 45 µm foil was produced and subjected to high-temperature microbulging tests, demonstrating its potential for precision microforming applications at elevated temperatures.
Micromechanical aspects of the effect of temperature and local plastic strain magnitude on the fracture toughness of ferrite steels
This materials science study examined how temperature and plastic strain affect the fracture toughness of ferrite steels at the microscopic scale. The term 'microplastic' here refers to microscopic plastic deformation in metal — this is an engineering study unrelated to plastic particle pollution.
Hot Deformation Behavior and Processing Maps of a New Ti-6Al-2Nb-2Zr-0.4B Titanium Alloy
This materials science study characterized the high-temperature deformation behavior of a new titanium alloy used in aerospace and industrial applications. It has no direct relevance to microplastic or environmental health research.
Effects of Ultra-Low Temperatures on the Mechanical Properties and Microstructure Evolution of a Ni-Co-Based Superalloy Thin Sheet during Micro-Tensile Deformation
This materials science paper examines how ultra-low temperatures affect the mechanical properties and microstructure of a nickel-cobalt superalloy used in aerospace and nuclear applications. The study is focused on extreme-condition materials performance and is unrelated to microplastic research.
Rate-Controlling Microplastic Processes during Plastic Flow in FCC Metals: Origin of the Variation of Strain Rate Sensitivity in Aluminum from 78 to 300 K
This materials science study examines the temperature dependence of deformation mechanisms in aluminum, specifically how strain rate sensitivity changes from cryogenic to room temperature — not related to microplastics or environmental health.
Influence of the pearlite fineness on the mechanical properties, deformation behavior, and fracture characteristics of carbon steel
This metallurgy study compared deformation and fracture behavior of carbon steel with coarse versus fine microstructure, finding that finer pearlite deforms more uniformly while coarser pearlite shows structural discontinuities. This is a materials science study with no relevance to environmental microplastics.
Strain localization in the Alloy 718 Ni-based superalloy: From room temperature to 650 °C
This study investigates how a nickel-based superalloy deforms at different temperatures using high-resolution imaging techniques. The paper is not related to microplastics or human health. It focuses on the mechanical behavior of metal alloys used in engineering applications, examining how strain localizes in the material's internal structure at temperatures up to 650 degrees Celsius.
Rapid estimation of fatigue limit for C45 steel by thermography and digital image correlation
This materials engineering study used thermography and digital image correlation to rapidly estimate the fatigue limit of steel, linking temperature and mechanical changes to the onset of microplastic deformation in metal. It is a mechanical engineering paper not related to environmental microplastics.
Dynamic Processes of Substructural Rearrangement under Friction of Carbon Steel
This study examined how heat treatment affects the friction and wear properties of medium carbon steel, linking material microstructure to tribological performance. The research is focused on materials engineering with limited direct relevance to microplastic pollution or human health.
Dislocation Arrangements and Cyclic Microplasticity Surrounding Stress Concentration in a Ni‐Based Single‐Crystal Superalloy
Not relevant to microplastics — this materials science study examines dislocation behavior and fatigue crack initiation in nickel-based single-crystal superalloys; 'microplasticity' here refers to microscale metal deformation, not plastic particles.
Temperature-Dependent Misfit Stress in Gamma Double Prime Strengthened Ni-Base Superalloys
This paper studied temperature-dependent internal stresses in Inconel 718, a nickel superalloy used in aerospace and industrial applications. While unrelated to microplastics, understanding mechanical behavior of high-performance materials is relevant to designing equipment that minimizes particle shedding during operation.
Mechanical Properties and Fracture Toughness Prediction of Ductile Cast Iron under Thermomechanical Treatment
This paper is not about microplastics. It studied the mechanical properties and fracture toughness of ductile cast iron under different temperatures and strain rates. The term 'plastic deformation' in this context refers to metal bending, not plastic pollution particles.
Microstructural signatures of dislocation avalanches in a high-entropy alloy
This materials physics study traced how individual atomic slip events (dislocation avalanches) produce visible slip lines in a high-entropy alloy under stress. The term 'microplastic events' here refers to a materials science concept about small-scale deformation, not environmental plastic particles.
Characterizing and Modeling Transformation-Induced Plasticity in 13Cr-4Ni Welds upon Cooling
This materials science paper investigates transformation-induced plasticity in martensitic stainless steel welds used in hydraulic turbine manufacturing. The study is focused on metal alloy behavior during cooling and is unrelated to microplastic pollution research.
The Effects of Deep Cryogenic Treatment with Regard to the Mechanical Properties and Microstructural Evolution of Al-Mg Alloys with Different Grain Sizes
Deep cryogenic treatment (exposing materials to very low temperatures) was studied for its effects on microplastic mechanical properties, finding changes in brittleness and fragmentation tendency. Understanding how temperature extremes affect plastic degradation informs predictions of microplastic generation in cold environments.
Variety of scaling behaviors in nanocrystalline plasticity
This is a materials science study examining the variety of scaling behaviors observed in nanocrystalline plasticity, exploring how grain size affects deformation mechanisms in metals. It is not related to environmental microplastics.
From Micro‐ to Macroplasticity
This materials science perspective discusses the transition from microplastic deformation (below the yield stress) to macroplastic deformation in nanocrystalline metals, noting that the traditional 0.2% yield stress definition does not accurately capture when bulk plastic flow begins. This is a materials physics study on metal deformation behavior with no relevance to environmental microplastics.
Identification of the scatter in high cycle fatigue from temperature measurements
This engineering paper proposed using temperature measurements from thermography to determine the statistical scatter in metal fatigue performance, linking tiny temperature changes to microplasticity. This is a materials engineering study with no relevance to environmental microplastics.