Influence of Tensile Strain on Young’s Modulus in High-strength Cold-rolled Steel Sheets

Kizu, Taro; Okuda, Koichi; Nagataki, Yasunobu; Urabe, Toshiaki; Seto, Kazuhiro

doi:10.2355/isijinternational.55.1502

Cited by 3 publications

(2 citation statements)

References 20 publications

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“…For instance, the elastic modulus of plain carbon steels is assumed to be 210 GPa, while this value is 200 GPa in an AISI-304 (i.e., a highly alloyed steel). However, recent studies [62][63][64][65][66] carried out at macro-scale have shown that the elastic modulus has a minor but not irrelevant dependence on strain hardening. Account of this phenomenon allows having better predictions of the spring back character of most metallic alloys, which is indeed of enormous industrial interest.…”

Section: Small-scale Mechanical Properties Of Each Constitutive Phase: Statistical Analysismentioning

confidence: 99%

Novel Mechanical Characterization of Austenite and Ferrite Phases within Duplex Stainless Steel

Besharatloo

Carpio

Cabrera

et al. 2020

Metals

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The microstructure and micromechanical properties of the constitutive phases of a particular duplex stainless steel in various processing conditions have been characterized. Hardness (H), elastic modulus (E) and H/E cartography maps were obtained by using a high-speed nanoindentation mapping technique. Small-scale H and E evolution at different processing conditions has been investigated by statistical analysis of a large number of nanoindentations (10,000 imprints per sample). Two mechanically distinct phases, ferrite (α) and austenite (γ), were deconvoluted from this dataset using Ulm and Constantinides’ method, with the remaining values assigned to a third mechanical phase linked to composite-like (containing α/γ interphase boundaries) regions. These mechanical property phase assessments were supplemented by overlaying crystallographic phase maps obtained by electron backscattered diffraction. An excellent correlation between microstructure and small-scale mechanical properties was achieved, especially when considering the ratio H/E.

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Section: Small-scale Mechanical Properties Of Each Constitutive Phase: Statistical Analysismentioning

confidence: 99%

Novel Mechanical Characterization of Austenite and Ferrite Phases within Duplex Stainless Steel

Besharatloo

Carpio

Cabrera

et al. 2020

Metals

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“…れている (Bunge and Roberts, 1969), (Hu, 1980), (Bunge, 1982), (長嶋，1984)， (Hiwatashi et al, 1994)，(山本他，1996)， (Kizu et al, 2015)．例えば，深絞り用アルミキルド鋼板のヤング率は，圧延方向とその直交方向が低く，45゜方向が高い逆…”

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Torsional rigidity of steel square tubes with elastic anisotropy

Yonemura

Kawachi

Sugiura

et al. 2017

Transactions of the JSME (In Japanese)

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Elastic moduli of metal sheets have planar anisotropy determined by crystalline texture. Texture control is effective in raising Young's modulus of steel sheets in some directions on the plane. Some steel sheets with strong elastic anisotropy produced by cold-rolling and continuous annealing can be applied to some structural components to improve their rigidity. However, the elastic anisotropy of the steel sheet with texture has been applied to few industrial products because the structural design using anisotropic materials is difficult. In the present study, two steel sheets with different texture were prepared for the experiments and numerical simulation, the torsional rigidity was investigated in steel square tubes with elastic anisotropy. Torsional rigidity have been examined, it depended on the direction of the sheet applied to the component. It was most effectively improved when the direction of the highest shear modulus coincided with longitudinal direction in the square tube. Elastic compliance matrix was identified by fitting to Young's modulus of steel sheet with elastic anisotropy, and finite element analysis was carried out using shell elements by considering the elastic anisotropy. Furthermore, the Voigt-Reuss assumption calculations of elastic anisotropy based on the texture measurements revealed that the decreases in shear modulus at diagonal direction were caused by the ODF intensity around {110}<001> component, and the increases in shear modulus were caused by {112}<110> component.

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A precise magnetic flux leakage method for the defects detection within the steel thin sheet

Wang

2018

IOP Conf. Ser.: Mater. Sci. Eng.

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Influence of Tensile Strain on Young’s Modulus in High-strength Cold-rolled Steel Sheets

Cited by 3 publications

References 20 publications

Novel Mechanical Characterization of Austenite and Ferrite Phases within Duplex Stainless Steel

Novel Mechanical Characterization of Austenite and Ferrite Phases within Duplex Stainless Steel

Torsional rigidity of steel square tubes with elastic anisotropy

A precise magnetic flux leakage method for the defects detection within the steel thin sheet

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