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EFFECT OF TENSILE STRESS AND RESIDUAL STRESS ON THE SPONTANEOUS STRAY FIELD SIGNALS FROM THE SURFACE OF 0.45%C STEEL 被引量:4
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作者 DONG Lihong XU Binshi +3 位作者 DONG ShiYun CHEN Qunzhi WANG Dan YIN Dawei 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2007年第6期29-32,共4页
In order to explore the quantitative method of metal magnetic memory testing(MMMT) and clarify the relationship between Hp(y), the normal component of spontaneous stray field, and applied stress or residual stress... In order to explore the quantitative method of metal magnetic memory testing(MMMT) and clarify the relationship between Hp(y), the normal component of spontaneous stray field, and applied stress or residual stress, the static tensile tests of 0.45%C steel sheet specimens are carried out on a servo hydraulic MTS810 machine. Hp(y) values are measured during the test process by an EMS-2003 metal magnetic memory diagnostic apparatus and a non-magnetic electric control displacement instrument. Residual stresses of some points on the surface of a specimen are measured by a Stress Tech X-Stress 3000 X-ray diffraction instrument. The results show that the same variation rules of Hp(y) value versus applied tensile stress are presented under the different conditions of load-on and load-off. However, the same rule does not exist between the Hp(y) value and residual stress. The variation of Hp(y) value reflects the history of applied tensile stress. 展开更多
关键词 Metal magnetic memory Spontaneous stray field tensile stress residual stress
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An Overview of Techniques for Measuring Residual Stress in Metal Matrix Composites
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作者 Qingping Wang Pakeeza Maryum Yuxin Liu 《Journal of Materials Science and Chemical Engineering》 CAS 2022年第10期59-77,共19页
Measurement of residual stress is signi&#64257;cant to ensure safety, reliability and the life of composites, and currently has been a hot issue in scienti&#64257;c research. The fabrication processes such as ... Measurement of residual stress is signi&#64257;cant to ensure safety, reliability and the life of composites, and currently has been a hot issue in scienti&#64257;c research. The fabrication processes such as machining, and heat treatment inherit either kind of residual stress which had either positive consequences or negative ones, for example, the fatigue limit of a component enhances by compressive stress, whereas corrosion resistance gets reduced by tensile stress. This study is aimed at a brief overview of the recent advancement in this field to help researchers in the in-depth study of measuring residual stress. It helps them in selecting the most appropriate techniques among destructive methods i.e., mainly Contour, ring core, deep hole-drilling method, and non-destructive techniques i.e., diffraction, ultrasonic method, depending on their requirements and applications. For each available technique, working methodology, physical limitations, and applications are discussed. At the end of this paper, future trends regarding an assessment of residual stress have been forecasted. 展开更多
关键词 residual stress Destructive Methods Compressive residual stress tensile residual stress Non-Destructive Methods
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