Vibratory stress relief is an important application of the vibration techniques in engineering.
振动时效是振动在工程上的重要应用。
The vibratory stress relief (VSR) Process is used to reduce the residual stress in welded 304l stainless steel.
针对304L不锈钢底板的焊后残余应力,采用振动时效(V SR)的方法进行消除。
The process of vibratory stress relief(VSR) is discussed to reduce the residual stresses after welding of stainless steel plate.
为了消除超大不锈钢焊接底板的残余应力,研究了采用振动时效(V SR)的方法消除焊接残余应力。
The mechanism, features, process and evaluation way in result of vibratory stress relief method in production have been introduced.
本文介绍了振动时效技术的机理、特点、工艺以及时效效果的评定方法。
Vibratory stress relief (VSR) can reduce the residual stress in component. The mainly cause is microcosmic plastic deformation of local region.
振动时效使残余应力峰值降低并得到均化的主要原因是材料内部微塑性变形的局部性。
The technology of vibratory stress relief(VSR) used in energy engineering, such as HT-7U nuclear fusion superconducting Tokamak massive base plate and vacuum vessel was introduced.
介绍了振动时效技术在HT-7U超导托卡马克核聚变大底板、真空装置等能源工程中的应用。
To eliminate the residual stress of aluminum alloy pre-stretching board, an elastic-plastic finite element model was developed to simulate the vibratory stress relief (VSR) process.
为消除铝合金预拉伸板中的残余应力,采用弹塑性有限元法对振动时效消除残余应力进行数值模拟。
This machine adopts steel plate welding structure, the fuselage using the finite element analysis and design, Vibratory stress Relief of internal stress, so that body stable and reliable.
液压剪板机采用钢板焊接结构,机身采用有限元分析设计、振动时效消除内应力,使机身稳定、可靠。
This machine adopts steel plate welding structure, the fuselage using the finite element analysis and design, Vibratory stress Relief of internal stress, so that body stable and reliable.
液压剪板机采用钢板焊接结构,机身采用有限元分析设计、振动时效消除内应力,使机身稳定、可靠。
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