An overview of dual-phase steels: advances in microstructure-oriented processing and micromechanically guided design
Dual-phase (DP) steel is the flagship of advanced high-strength steels, which were the first
among various candidate alloy systems to find application in weight-reduced automotive …
among various candidate alloy systems to find application in weight-reduced automotive …
Microstructure-and damage-nucleation-based crystal plasticity finite element modeling for the nucleation of multi-type voids during plastic deformation of Al alloys
During deformation of aluminum (Al) alloys, there are three kinds of voids being formed by
distinct mechanisms, ie, matrix-cracking voids (MCVs), particle-cracking voids (PCVs), and …
distinct mechanisms, ie, matrix-cracking voids (MCVs), particle-cracking voids (PCVs), and …
Utilizing a ductile damage criterion for fracture analysis of a dissimilar aluminum/steel joint made by friction stir welding
Striving for lighter and more efficient vehicles, the automotive industry is currently seeking to
replace traditional materials like steel with lighter ones such as aluminum alloys. Among the …
replace traditional materials like steel with lighter ones such as aluminum alloys. Among the …
[HTML][HTML] Microstructure-based modeling of the PMZ mechanical properties in 2219-T8 aluminum alloy TIG welding joint
Partially melted zone (PMZ) is generally the weak region in 2219-T8 aluminum alloy TIG
welding joint. In this work, a microstructure-based numerical simulation was performed to …
welding joint. In this work, a microstructure-based numerical simulation was performed to …
A study of local deformation and damage of dual phase steel
Deformation and fracture behavior of Dual Phase (DP) high strength steel were investigated
by means of a microstructure based Finite Element (FE) modeling. Representative Volume …
by means of a microstructure based Finite Element (FE) modeling. Representative Volume …
Decoupling the contributions of constituent layers to the strength and ductility of a multi-layered steel
Multi-layered steel (MLS) consisting of alternating soft/ductile austenitic and hard/brittle
martensitic stainless steel layers is a new class of hybrid material for structural application as …
martensitic stainless steel layers is a new class of hybrid material for structural application as …
[HTML][HTML] Heterogeneous plastic deformation and HDI strengthening of the heterostructured dual-phase steels investigated by in-situ SEM-DIC
Heterostructured dual-phase (DP) steels comprising different martensite volume fractions
(HS740 steel, VM: 41%; HS780 steel, VM: 54%) were produced by cold rolling and …
(HS740 steel, VM: 41%; HS780 steel, VM: 54%) were produced by cold rolling and …
Computational modeling of dual-phase steels based on representative three-dimensional microstructures obtained from EBSD data
The microstructure of dual-phase steels consisting of a ferrite matrix with embedded
martensite inclusions is the main contributor to the mechanical properties such as high …
martensite inclusions is the main contributor to the mechanical properties such as high …
Failures analysis of in-situ Al–Mg2Si composites using actual microstructure based model
Abstract In-situ Al–Mg 2 Si composites (0, 5, 10, 15, 20 wt% Mg 2 Si) were synthesized in an
Al–Mg–Si system through gravity casting route. Influences of the Mg 2 Si addition (in terms of …
Al–Mg–Si system through gravity casting route. Influences of the Mg 2 Si addition (in terms of …
Theoretical analysis of strain-and stress-based forming limit diagrams
SK Paul - The Journal of Strain Analysis for Engineering …, 2013 - journals.sagepub.com
Forming limit diagram is extensively used in the analysis of sheet metal forming to define the
limit of deformation of materials without necking or fracture. This article contributes in …
limit of deformation of materials without necking or fracture. This article contributes in …