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Papers
61,005 resultsShowing papers similar to About Wave Nature of the Formation of Gradient and Microcomposite Zones Near Non-Metallic Inclusions During Laser Processing of the Steels
ClearEffect of Laser Shock Peening on the Microstructure and Properties of the Inconel 625 Surface Layer
Researchers investigated how laser shock peening affects the microstructure and mechanical properties of a high-performance nickel alloy. While unrelated to microplastics directly, understanding metal alloy behavior under stress is relevant to designing durable infrastructure that resists the mechanical wear that generates metal and polymer particles.
Influence of Tempering Transformation Induced Plasticity (T-TRIP) on the Evolution of Residual Stresses in Laser Heat Treated 50CrMo4 Steel
Despite its title referencing "plasticity," this paper studies residual stresses in a type of industrial steel (50CrMo4) during laser heat treatment — not plastic pollution or microplastics. It examines how tempering transformation induced plasticity affects metal component stresses and is entirely outside the field of microplastic research.
Micromechanics of small deformations in metal alloys under laser irra diation
This study investigated grain boundary sliding and plastic deformation in metal alloys at the microscale under laser irradiation. Understanding these nanoscale deformation mechanisms is important for predicting material behavior in precision manufacturing applications. The research contributes to materials science for high-performance metal components.
Crack tip microplasticity mediated by microstructure gradients
This study examined how microstructural gradients near crack tips affect crack growth behavior in metals under mechanical loading. The research is focused on materials fracture mechanics and has no direct relevance to microplastic pollution.
Crystal plasticity in fusion zone of a hybrid laser welded Al alloys joint: From nanoscale to macroscale
This materials science study examined the plasticity of hybrid laser-welded aluminum alloy joints from the nanoscale to the macroscale, developing models based on micropillar compression tests. It is focused on structural materials science rather than environmental plastic pollution.
The Microstructure and Properties of Laser Shock Peened CMSX4 Superalloy
This metallurgy study analyzed how laser shock peening—a surface treatment process—affects the microstructure and properties of a nickel-based superalloy used in jet engines. It has no relevance to microplastic or environmental health research.
Influence of hard phase size and spacing on the fatigue crack propagation in tool steels—Numerical simulation and experimental validation
Not relevant to microplastics research; this paper investigates how carbide size and spacing in tool steel microstructures affects fatigue crack growth rate, with no connection to plastic pollution.
Dislocation Patterning in Deforming Crystals: Theory, Computational Predictions and Validation (Final Technical Report)
This technical report covers a multi-year project on how dislocations — microscopic defects in metal crystals — form patterns during deformation. The research advances fundamental materials science relevant to metal manufacturing and is not directly related to microplastics or environmental health.
Stability of retained austenite in high carbon steel under compressive stress: an investigation from macro to nano scale
This materials science study investigates how retained austenite in high-carbon steel behaves under compressive stress at both macro and nano scales, using electron microscopy and diffraction techniques. The research addresses industrial steel performance and has no direct connection to microplastics or environmental health.
Research Progress of Aluminum Alloy Welding/Plastic Deformation Composite Forming Technology in Achieving High-Strength Joints
Not relevant to microplastics — this paper covers aluminum alloy welding and plastic deformation manufacturing techniques, not plastic pollution.
Beyond Serrated Flow in Bulk Metallic Glasses: What Comes Next?
This is a materials science article on serrated flow and plastic deformation in bulk metallic glasses, exploring unusual mechanical behavior in these amorphous metals. It is not related to microplastics or environmental science.
Shock-wave induced compressive stress on alumina ceramics by laser peening
Researchers applied laser shock peening to alumina ceramics to induce compressive stress and improve their mechanical properties. This is an advanced materials engineering paper unrelated to environmental microplastics.
Effect of Cyclic Ice Plug Deformation on Microstructure and Mechanical Behaviors of Nuclear-Grade Low-Carbon Tubular Steel
Not relevant to microplastics — this is a metallurgy study examining how cyclic freeze-thaw ice plugging affects the dislocation microstructure and mechanical properties of nuclear-grade steel pipeline material.
Exploring the effect of complex hierarchic microstructure of quenched and partitioned martensitic stainless steels on their high cycle fatigue behaviour
Not relevant to microplastics — this paper investigates high cycle fatigue behavior of quenched-and-partitioned martensitic stainless steels, exploring how their complex retained-austenite microstructure affects fatigue fracture performance.
On-Road Measurements and Modelling of Disc Brake Temperatures and Brake Wear Particle Number Emissions on a Heavy-Duty Tractor Trailer
Despite its title referencing "plasticity," this paper studies residual stress patterns in 50CrMo4 steel subjected to laser heat treatment — not plastic pollution or microplastics. It examines how tempering transformation affects the internal stresses in metal components and is not relevant to microplastics or human health.
Numerische und experimentelle Untersuchung zerspanungsbedingter Gefügeumwandlungen und Modellierung des thermo-mechanischen Lastkollektivs beim Bohren von 42CrMo4
This German engineering thesis used numerical simulation and experimental methods to study how the drilling process transforms the microstructure of 42CrMo4 steel near the machined surface. This is a manufacturing engineering study with no relevance to microplastic pollution or environmental health.
Quantification of dislocation structures from anelastic deformation behaviour
This materials science study analyzes the pre-yield deformation behavior of iron and low-alloy steel, modeling how dislocations move reversibly before permanent plastic deformation begins. The research is relevant to structural materials engineering but has no connection to microplastics or environmental health.
Variation of the Vibrational Treatment on Mechanical Properties and Weld Residual Stress
This materials engineering paper examines vibrational treatment as a cost-effective alternative to heat treatment for relieving welding residual stresses in metal structures. The study is unrelated to microplastic pollution research.
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.
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 Influence of Weld Interface Characteristics on the Bond Strength of Collision Welded Aluminium–Steel Joints
This paper is not about microplastics — it is a materials science study on the bond strength of aluminium-steel joints produced by collision welding, examining weld interface characteristics and process parameters.
Microplasticity Detected by an Acoustic Technique
This materials science paper describes an acoustic technique that detects microplastic deformation events — tiny slip occurrences within metal crystals during loading — by monitoring longitudinal oscillations. 'Microplasticity' here refers to microscale plastic deformation in crystalline materials and is unrelated to environmental plastic pollution.