Acta Metall Sin  1990, Vol. 26 Issue (3): 136-141    DOI:

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RESISTANCE OF METALS TO MICROSTRAIN AND ITS INFLUENTIAL FACTORS

ZHANG Lining;ZHU Ping;ZHOU Jinyin Southeast University; Nanjing Department of Materials; Southeast University; Nanjing 210018

ZHANG Lining;ZHU Ping;ZHOU Jinyin Southeast University; Nanjing Department of Materials; Southeast University; Nanjing 210018. RESISTANCE OF METALS TO MICROSTRAIN AND ITS INFLUENTIAL FACTORS. Acta Metall Sin, 1990, 26(3): 136-141.

Abstract References Related Articles Recommended Metrics Download:  PDF(942KB)  Export:  BibTeX | EndNote (RIS)       Abstract  The microstraining prior to yield of several common metallic mate-rials has been studied. The resistances of metals to microstrain and to macroyieldare believed to be based on different deformation mechanisms and to be changedfrom different patterns. The influential factors upon the microstraining, such asheat treatment, predeformation, strain-aging and residual stress together withtheir mechanisms have been also discussed. Key words:  microstrain      dislocation      plastic deformation      Received:  18 March 1990      Service E-mail this article Add to citation manager E-mail Alert RSS （） Articles by authors URL:  https://www.ams.org.cn/EN/     OR     https://www.ams.org.cn/EN/Y1990/V26/I3/136 1 Honeycombe R W K. The Plastic Deformation of Metals, London: Edward Arnold, 1984: 237 2 Хенкин МЛ,Локшин И Х著,蔡安源,杜淑芳译.精密机械制造与仪器制造中金属与合金的尺寸稳定性,北京:科学出版社,1981:4 3 Marschall C W, Maringer R E. Dimensional Instability, Oxford: Pergamon, 1977: 64 4 Kula E. Weiss V. Residual Stress and Stress Relaxation, New York: Plenum. 1982: 297, 331 5 #12 6 #12 7 张力宁,周锦银.理化检验,1989;(6) :26 9 朱平,张力宁.金属学报,1989;25:B410 9 Kumar K, McCarthy J, Vander Sande J B. Metall Trans, 1985; 16A: 5, 80 [1] ZHANG Haifeng, YAN Haile, FANG Feng, JIA Nan. Molecular Dynamic Simulations of Deformation Mechanisms for FeMnCoCrNi High-Entropy Alloy Bicrystal Micropillars[J]. 金属学报, 2023, 59(8): 1051-1064. [2] WAN Tao, CHENG Zhao, LU Lei. Effect of Component Proportion on Mechanical Behaviors of Laminated Nanotwinned Cu[J]. 金属学报, 2023, 59(4): 567-576. [3] HAN Weizhong, LU Yan, ZHANG Yuheng. Mechanism of Ductile-to-Brittle Transition in Body-Centered-Cubic Metals：A Brief Review[J]. 金属学报, 2023, 59(3): 335-348. [4] HAN Dong, ZHANG Yanjie, LI Xiaowu. Effect of Short-Range Ordering on the Tension-Tension Fatigue Deformation Behavior and Damage Mechanisms of Cu-Mn Alloys with High Stacking Fault Energies[J]. 金属学报, 2022, 58(9): 1208-1220. [5] TIAN Ni, SHI Xu, LIU Wei, LIU Chuncheng, ZHAO Gang, ZUO Liang. Effect of Pre-Tension on the Fatigue Fracture of Under-Aged 7N01 Aluminum Alloy Plate[J]. 金属学报, 2022, 58(6): 760-770. [6] ZHENG Shijian, YAN Zhe, KONG Xiangfei, ZHANG Ruifeng. Interface Modifications on Strength and Plasticity of Nanolayered Metallic Composites[J]. 金属学报, 2022, 58(6): 709-725. [7] GAO Chuan, DENG Yunlai, WANG Fengquan, GUO Xiaobin. Effect of Creep Aging on Mechanical Properties of Under-Aged 7075 Aluminum Alloy[J]. 金属学报, 2022, 58(6): 746-759. [8] GUO Xiangru, SHEN Junjie. Modelling of the Plastic Behavior of Cu Crystal with Twinning-Induced Softening and Strengthening Effects[J]. 金属学报, 2022, 58(3): 375-384. [9] REN Shaofei, ZHANG Jianyang, ZHANG Xinfang, SUN Mingyue, XU Bin, CUI Chuanyong. Evolution of Interfacial Microstructure of Ni-Co Base Superalloy During Plastic Deformation Bonding and Its Bonding Mechanism[J]. 金属学报, 2022, 58(2): 129-140. [10] WU Xiaolei, ZHU Yuntian. Heterostructured Metallic Materials: Plastic Deformation and Strain Hardening[J]. 金属学报, 2022, 58(11): 1349-1359. [11] AN Xudong, ZHU Te, WANG Qianqian, SONG Yamin, LIU Jinyang, ZHANG Peng, ZHANG Zhaokuan, WAN Mingpan, CAO Xingzhong. Interaction Mechanism of Dislocation and Hydrogen in Austenitic 316 Stainless Steel[J]. 金属学报, 2021, 57(7): 913-920. [12] LAN Liangyun, KONG Xiangwei, QIU Chunlin, DU Linxiu. A Review of Recent Advance on Hydrogen Embrittlement Phenomenon Based on Multiscale Mechanical Experiments[J]. 金属学报, 2021, 57(7): 845-859. [13] SHI Zengmin, LIANG Jingyu, LI Jian, WANG Maoqiu, FANG Zifan. In Situ Analysis of Plastic Deformation of Lath Martensite During Tensile Process[J]. 金属学报, 2021, 57(5): 595-604. [14] LIN Pengcheng, PANG Yuhua, SUN Qi, WANG Hangduo, LIU Dong, ZHANG Zhe. 3D-SPD Rolling Method of 45 Steel Ultrafine Grained Bar with Bulk Size[J]. 金属学报, 2021, 57(5): 605-612. [15] CAO Qingping, LV Linbo, WANG Xiaodong, JIANG Jianzhong. Magnetron Sputtering Metal Glass Film Preparation and the “Specimen Size Effect” of the Mechanical Property[J]. 金属学报, 2021, 57(4): 473-490. No Suggested Reading articles found! Viewed Full text Abstract Cited   Shared      Discussed