| 1. | The resultant effect on flash temperature is not immediately apparent .
这些情况对瞬现温度的综合影响是不能直接看出的。 |
| 2. | Calculation of scuffing load capacity of cylindrical , bevel and hypoid gears - flash temperature method
圆柱形齿轮伞齿轮和准双曲面齿轮磨损承载能力的计算.闪蒸温度法 |
| 3. | Calculation of scuffing load capacity of cylindrical , bevel and hypoid gears - part 1 : flash temperature method
圆柱齿轮锥齿轮和准双曲面齿轮胶合承载能力计算方法第1部分:闪温法 |
| 4. | The research on the flash temperature is made by finite element methods . the distribution of the flash temperature on tooth surface is obtained
在齿面温升的有限元分析中,利用ansys软件,分析了在不同啮合位置处面齿轮齿面的温度场。 |
| 5. | At first the research current situation of the flash temperature field of rough surface and the algorithm of contact problems with friction were reviewed in this paper
本文评述了粗糙表面的闪温以及摩擦接触算法的研究现状;建立粗糙表面接触模型并对其滑动摩擦界面的传热规律进行了研究。 |
| 6. | In the study of the flash temperature , the formula is given for the flash temperature by the heat exchange theory . the effects of geometric and operating parameters on the flash temperature are studied
在面齿轮传动齿面瞬时温升的研究中,利用传热学基本原理,推导了齿面瞬时温升的基本公式,求解了各有关计算参数,研究了模数、压力角、传动比等参数变化时对齿面瞬时温升的影响。 |
| 7. | The generation of orthogonal - shaft face gear ( fg ) , the geometric character of the tooth surface , the flash temperature of the fg and the distributing of tooth surface temperature analyzed by finite element methods are studied in the paper . the software about the flash temperature of the fg is also developed
本文主要研究了正交面齿轮的齿面生成、齿面的几何特性、面齿轮传动的齿面瞬时温升、齿面温升分布的有限元分析,并在此基础上开发了正交面齿轮传动的温升计算系统软件。 |
