应用有限元分析软件,对花键轴的齿形成形过程进行模拟。
The thesis simulates the process of the spline forming by the FEM software.
采用微观测试分析方法对激光快速成形过程熔覆层裂纹的形成机理及影响因素进行研究。
The forming mechanism and influencing factors of crack in laser rapid forming cladding layers are investigated through micro measurement and analysis methods.
采用微观测试分析方法,研究了钛合金激光快速成形过程中缺陷的形成机理。
The defects forming mechanism in the Laser Rapid Forming(LRF) process of titanium and titanium alloy was studied through microscopic analysis methods.
基于构成机械零件的几何表面形成方法的论述,具体分析了固体材料质量减少成形工艺的运动方式。
Based on the forming methods of surfaces in the mechanical elements, the paper studies the patterns of motion in mass-reducing processes of solid materials.
采用理论推导,结合数值模拟的方法,分析了梯形成形算法的基本结构、幅频特性以及弹道亏损。
The basic structure, amplitude frequency response characteristics and ballistic deficit effect of the algorithm were studied with both theoretical analysis and computer simulation methods.
采用微观测试分析方法,针对316L不锈钢粉末,深入研究了激光快速成形过程中熔覆层的开裂行为及其形成机理。
The forming mechanism for the crack produced in the process of laser forming 316l stainless steel powder alloy has been studied in the paper by micro measurements.
为了研制数字化核谱仪,研究了一种用于数字多道脉冲幅度分析的梯形成形算法。
A trapezoidal shaping algorithm was studied for digital multi-channel pulse height analysis in a digital nuclear spectrometer.
从生产实际出发,分析了锻模液态模锻成形过程中热裂纹形成的主要原因,提出了降低锻模热裂纹的几点措。
In the paper, the hot crack for the forging die made by methods of squeeze casting is analyzed, how to reduce the hot crack is also given out.
研究了一种用于数字多道脉冲幅度分析的梯形成形算法。
A trapezoidal shaping algorithm was studied for digital multi-channel pulse height analysis in a digital nuclear spectrometer.
采用金相分析法,分析齿轮烧伤试件的齿面温度分布状态,结合成形磨削齿条的模拟试验,研究成形磨削烧伤形成机理及影响因素,提出了避免成形磨削烧伤的工艺措施。
The mechanism of profile grinding burn and its influencing factors are analysed through the simulated test of profile grinding racks, and the improvements of grinding burn are proposed simultaneously.
采用金相分析法,分析齿轮烧伤试件的齿面温度分布状态,结合成形磨削齿条的模拟试验,研究成形磨削烧伤形成机理及影响因素,提出了避免成形磨削烧伤的工艺措施。
The mechanism of profile grinding burn and its influencing factors are analysed through the simulated test of profile grinding racks, and the improvements of grinding burn are proposed simultaneously.
应用推荐