首先由压痕实验得到了载荷-位移曲线,然后对压痕实验进行有限元仿真,计算结果表明:实验和仿真所得到的载荷-位移曲线基本一致。
First, load versus depth curve is gained by indentation test, and then is compared with result of finite element simulation. They are very accordant.
该工艺可推广到承受较大交变载荷场合下零件的磨损、压痕的修复。
This technics also extends to the renovation of accessory's abrasion and scars in the situation of big alternant load.
利用纳米压痕技术对单晶铝作压痕试验,获得载荷-压深的加载和卸载曲线。
Nanoindentation experiments were made on single crystal aluminium, and load-depth loading and unloading curves were obtained.
测试结果表明,热障涂层系统的显微硬度存在压痕尺寸效应,即表观显微硬度随施压载荷的增加而显著降低。
Through centrifugal model tests, the influence of plate size on the results of plate loading tests was studied.
测试结果表明,热障涂层系统的显微硬度存在压痕尺寸效应,即表观显微硬度随施压载荷的增加而显著降低。
Through centrifugal model tests, the influence of plate size on the results of plate loading tests was studied.
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