Acta Metall Sin  1996, Vol. 32 Issue (3): 261-264    DOI:

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EFFECT OF PLASTIC DEFORMATION PROPAGATION ON FATIGUE BEHAVIOUR OF METALS UNDER CYCLIC LOADING

FENG Zhongxin; ZHANG Jianzhong; YANG Jianjun; CHEN Xinzeng 1）Xi'an Jiaotong University; Xi'an 710049 2) Ningbo College; Ningbo 315010(Manuscript received 1 995-06-23; in revised form 1 995-09- 1 8)

FENG Zhongxin; ZHANG Jianzhong; YANG Jianjun; CHEN Xinzeng 1）Xi'an Jiaotong University; Xi'an 710049 2) Ningbo College; Ningbo 315010(Manuscript received 1 995-06-23; in revised form 1 995-09- 1 8). EFFECT OF PLASTIC DEFORMATION PROPAGATION ON FATIGUE BEHAVIOUR OF METALS UNDER CYCLIC LOADING. Acta Metall Sin, 1996, 32(3): 261-264.

Abstract References Related Articles Recommended Metrics Download:  PDF(328KB)  Export:  BibTeX | EndNote (RIS)       Abstract  Studies of the fatigue crack initiation and propagation show that there is the loading frequency effect for the quenched and tempered or normalized 40Cr steel, but no the loading frequency effect for the solution treated ICr18Ni9Ti. The essential reason that causes the loading frequency effect is due to decrease in the plastic deformation propagation speed with the inereasing loading frequency. The decrease in plastic strain amplitude and the increase in residual compressive stress play a main role for the delaying fatigue crack initiation and the retarding crack propagation. The study of the loading frequency effect on the fatigue behaviour of the metals with the lower plastic deformation propagation speed possesses important engineering signification. Correspondent: FENG Zhongxin, associate professor, Institute of Metallic Materials and Strength, Xi'an Jiaotong University, Xi'an 710049 Key words:  fatigue crack initiation      fatigue crack propagation      loading frequency      plastic deformation propagation      residual stress      Received:  18 March 1996      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/Y1996/V32/I3/261 1冯忠信,张建中,杨建军,陈新增．金属学报,1995;31:A3512横堀武夫．日本材料强度学会志,1985;19(3):673RitChieRO．MetSci,1977;11:3687$ [1] JIANG He, NAI Qiliang, XU Chao, ZHAO Xiao, YAO Zhihao, DONG Jianxin. Sensitive Temperature and Reason of Rapid Fatigue Crack Propagation in Nickel-Based Superalloy[J]. 金属学报, 2023, 59(9): 1190-1200. [2] BI Zhongnan, QIN Hailong, LIU Pei, SHI Songyi, XIE Jinli, ZHANG Ji. Research Progress Regarding Quantitative Characterization and Control Technology of Residual Stress in Superalloy Forgings[J]. 金属学报, 2023, 59(9): 1144-1158. [3] DU Jinhui, BI Zhongnan, QU Jinglong. Recent Development of Triple Melt GH4169 Alloy[J]. 金属学报, 2023, 59(9): 1159-1172. [4] LI Shilei, LI Yang, WANG Youkang, WANG Shengjie, HE Lunhua, SUN Guang'ai, XIAO Tiqiao, WANG Yandong. Multiscale Residual Stress Evaluation of Engineering Materials/Components Based on Neutron and Synchrotron Radiation Technology[J]. 金属学报, 2023, 59(8): 1001-1014. [5] WANG Chongyang, HAN Shiwei, XIE Feng, HU Long, DENG Dean. Influence of Solid-State Phase Transformation and Softening Effect on Welding Residual Stress of Ultra-High Strength Steel[J]. 金属学报, 2023, 59(12): 1613-1623. [6] ZHANG Kaiyuan, DONG Wenchao, ZHAO Dong, LI Shijian, LU Shanping. Effect of Solid-State Phase Transformation on Stress and Distortion for Fe-Co-Ni Ultra-High Strength Steel Components During Welding and Vacuum Gas Quenching Processes[J]. 金属学报, 2023, 59(12): 1633-1643. [7] LU Haifei, LV Jiming, LUO Kaiyu, LU Jinzhong. Microstructure and Mechanical Properties of Ti6Al4V Alloy by Laser Integrated Additive Manufacturing with Alternately Thermal/Mechanical Effects[J]. 金属学报, 2023, 59(1): 125-135. [8] WU Jin, YANG Jie, CHEN Haofeng. Fracture Behavior of DMWJ Under Different Constraints Considering Residual Stress[J]. 金属学报, 2022, 58(7): 956-964. [9] ZHANG Xinfang, XIANG Siqi, YI Kun, GUO Jingdong. Controlling the Residual Stress in Metallic Solids by Pulsed Electric Current[J]. 金属学报, 2022, 58(5): 581-598. [10] SU Kaixin, ZHANG Jiwang, ZHANG Yanbin, YAN Tao, LI Hang, JI Dongdong. High-Cycle Fatigue Properties and Residual Stress Relaxation Mechanism of Micro-Arc Oxidation 6082-T6 Aluminum Alloy[J]. 金属学报, 2022, 58(3): 334-344. [11] LUO Wenze, HU Long, DENG Dean. Numerical Simulation and Development of Efficient Calculation Method for Residual Stress of SUS316 Saddle Tube-Pipe Joint[J]. 金属学报, 2022, 58(10): 1334-1348. [12] LI Suo, CHEN Weiqi, HU Long, DENG Dean. Influence of Strain Hardening and Annealing Effect on the Prediction of Welding Residual Stresses in a Thick-Wall 316 Stainless Steel Butt-Welded Pipe Joint[J]. 金属学报, 2021, 57(12): 1653-1666. [13] JIANG Lin, ZHANG Liang, LIU Zhiquan. Effects of Al Interlayer and Ni(V) Transition Layer on the Welding Residual Stress of Co/Al/Cu Sandwich Target Assembly[J]. 金属学报, 2020, 56(10): 1433-1440. [14] BI Zhongnan,QIN Hailong,DONG Zhiguo,WANG Xiangping,WANG Ming,LIU Yongquan,DU Jinhui,ZHANG Ji. Residual Stress Evolution and Its Mechanism During the Manufacture of Superalloy Disk Forgings[J]. 金属学报, 2019, 55(9): 1160-1174. [15] Peiyuan DAI,Xing HU,Shijie LU,Yifeng WANG,Dean DENG. Influence of Size Factor on Calculation Accuracy of Welding Residual Stress of Stainless Steel Pipe by 2D Axisymmetric Model[J]. 金属学报, 2019, 55(8): 1058-1066. No Suggested Reading articles found! Viewed Full text Abstract Cited   Shared      Discussed