1) Flow Stress
流动应力
1.
Effects of Temperature on Flow Stress and Microstructure of TC11 Alloy at High Strain Rate;
变形温度对TC11合金流动应力及组织的影响
2.
Research on the flow stress model of titanium alloy TC4 during the cutting process;
钛合金TC4切削过程流动应力模型研究
3.
Research on flow stress model of high carbon steel;
高碳钢的流动应力模型研究
2) flowing stress
流动应力
1.
Ferrite transformation region was determined for the deformation by measuring flowing stress and transformation behavior.
006%的超低碳钢在两相区变形的形变特征和规律;通过测定钢的流动应力和相变行为,得到了铁素体相变区间。
2.
Through a Gleeble-1500 simulator, the flowing stress curves of three aluminum alloys were experimentally determined at high temperatures at a constant speed with the effects of deforming temperatures, deforming speed and deforming degree .
采用Gleeble-1500热模拟试验机,测定了3种铝合金材料在高温下的流动应力,分析了应变速率、变形程度和 变形温度对流动应力的影响。
3.
The flowing stress curves of four copper alloys were experimentally determined at high temperatures with a Gleeble1500 simulator at a constant speed with the effects of deforming temperatutes,deforming speed and deforming degree analysed.
采用Gleeble 1500热模拟实验机,测定了4种铜合金材料在热态下的流动应力,分析了应变速率、变形程度及变形温度对流动应力的影响规律。
3) stress of fluidity
流动性应力
4) Flow Stress Model
流动应力模型
1.
In this paper the flow stress model of ANSI 1043 at room temperature has been got by an experimental method and an interpolation method respectively, then the two models have been used in the research of upsetting process.
分别采用实验和插值的方法获得ANSI 1 0 4 3钢在室温下的流动应力模型 ,然后利用两种模型对简单的镦粗过程进行研究 ,研究结果表明精确的流动应力模型是提高金属材料有限元仿真精度的先决条件 ,目前有限元仿真中利用插值的方法推算变形材料在不同温度范围内的流动应力模型是不科学的 ,会严重影响有限元仿真的精度。
2.
Therefore, based on understanding of deformation mechanism, to establish accurately the microstructure and flow stress models, which reflects the influence of microstructure evolution on the flow stre.
因此,在正确理解金属塑性变形机理的基础上,建立精确的微观组织模型和反映微观组织参数影响的流动应力模型是实现材料变形过程的变形-传热-微观组织耦合数值模拟的基础,而且对于揭示金属塑性成形规律,优化工艺参数,提高产品质量及性能,促进先进塑性加工技术的发展具有重要意义。
5) hemodynamic responses
血流动力学反应
1.
Objective To compare the hemodynamic responses to nasotracheal intubation with GlideScope videolaryngoscope (GSVL), Macintosh direct laryngoscope (MDLS), and fiberoptic bronchoscope (FOB).
目的比较采用GlideScope视频喉镜(GSVL)、Macintosh型直接喉镜(MDLS)和光导纤维支气管镜(FOB)实施经鼻气管插管时的血流动力学反应。
6) Hydrodynamic response
流体动力响应
补充资料:轧辊残余应力(见轧辊应力)
轧辊残余应力(见轧辊应力)
residual stresses in roll
zhagun eanyu yingli轧辊残余应力(residual stresses in roll)见礼辐应力。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条