Temperature increases and thermoplastic microstructural evolution in adiabatic shear bands in a high-strength and high-toughness 10 wt.% Ni steel

材料科学 电子背散射衍射 绝热剪切带 晶界 动态再结晶 晶粒生长 再结晶(地质) 粒度 微观结构 晶体孪晶 韧性 冶金 复合材料 热加工 古生物学 生物
作者
Sung‐Il Baik,Ratnesh Kumar Gupta,K.S. Kumar,David N. Seidman
出处
期刊:Acta Materialia [Elsevier BV]
卷期号:205: 116568-116568 被引量:32
标识
DOI:10.1016/j.actamat.2020.116568
摘要

A 10 wt.% nickel-steel has been developed for high pressures and low-temperature applications, due to its high strength, excellent toughness, and low ductile-to-brittle transition temperature (DBTT). Under dynamic loading conditions this steel is, however, prone to shear localization that manifests as adiabatic shear bands (ASBs). The temperature increases and thermoplastic microstructural evolution in the ASB are studied in detail, from the microscopic length scale to the atomic-scale employing correlative electron-backscatter diffraction (EBSD), transmission electron microscopy (TEM), and atom-probe tomography (APT). From a calculation of the temperature increase under adiabatic conditions, based on the conversion of plastic-work to heat generation, the microstructural transitions in the ASB are discussed specifically for: (i) a b.c.c.-f.c.c. phase-transformation and elemental partitioning of alloying elements; (ii) a thermodynamic model for the compositional change of the V(Nb)-rich carbonitride precipitates during a temperature increase; (iii) grain-refinement and rotation by dynamic/mechanical recrystallization processes. Solute segregation at subgrain boundaries, measured using the Gibbsian interfacial excess methodology, reveals how solute segregation contributes to the instability of localized shear-deformation by promoting the depinning of solute elements and the migration of a grain boundary. Finally, a kinetic model for grain refinement/rotation within an ASB is described by the dynamic recrystallization behavior with: (i) sub-grain formation; (ii) rotation/refinement by deformation; and (iii) grain growth by subgrain coalescence with further rotation and a temperature increase. The temperature increase under dynamic deformation in an ASB promotes grain boundary migration and subgrain coalescence to create a large degree of equiaxed grains with a low density of imperfections.
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