Void formation, void growth and tensile fracture of plain carbon steel and a dual-phase steel
Author:
Publisher
Elsevier BV
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Reference12 articles.
1. The mechanism of void formation, void growth, and tensile fracture in an alloy consisting of two ductile phases
2. Void formation, void growth and tensile fracture in Ti-6AI-4V
3. A rationalization of tensile ductility and fracture in Alpha-Beta Ti-Mn alloys
4. Observations on void nucleation and growth in α/β Ti-Mn alloys
5. Investigation of the fracture mechanism of Ti-5AI-2.5Sn at cryogenic temperatures
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1. Microstructural Analysis of Strain Rate Dependence for Commercial Dual Phase Steel DP590 Undergoing Finite Strain Deformation;International Journal of Integrated Engineering;2021-11-11
2. Effect of Ferrite and Martensite Hardening Variation on Mechanism of Void Formation in Low-Alloy Dual-Phase Steel;Metallography, Microstructure, and Analysis;2021-10
3. A New Electron Backscatter Diffraction-Based Method to Study the Role of Crystallographic Orientation in Ductile Damage Initiation;Metals;2020-01-12
4. Microstructure and Mechanical Properties of a Novel Cold Rolled Medium-Mn Steel with Superior Strength and Ductility;ACTA METALL SIN;2019
5. Microscopic investigation of damage mechanisms and anisotropic evolution of damage in DP600;Materials Science and Engineering: A;2019-01
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