1) crushing failure at high speed
快速挤压
2) rapid extrusion
快速挤压法
1.
This article compared the traditional soxhlet extraction with the new rapid extrusion.
本文对传统的索氏萃取法与新的试验法———快速挤压法进行对比分析。
3) high-speed extrusion at low temperature
低温快速挤压
4) extrusion speed
挤压速度
1.
The influence of extrusion speed and frictional status on Aluminum profile extrusion processes;
挤压速度和摩擦状态对铝型材挤压过程的影响
2.
Effects of extrusion speed and billets of electromagnetic casting on microstructure and mechanical properties of AZ31 magnesium alloy sheet
挤压速度和电磁铸造锭坯对AZ31镁合金板材组织和性能影响
3.
3mm,spiral angle was 30°,the experiment with six speed ,the relation of pitch and extrusion speed was researched in the paper.
3mm,螺旋角度为30°的双螺旋孔棒为研究对象,采用六种挤压速度研究了螺距与挤压速度的关系,结果表明螺距随挤压速度的增加而增加。
5) extruding speed
挤压速度
1.
It is proved that the extruding speed in reverse extruding can be increased to 27.
对中强焊接结构材料7N01铝合金进行了高速反向挤压实验,研究了挤压方式、挤压温度、挤压速度对合金成型过程以及组织性能的影响。
2.
The simulation result shows that deformation of the whole sample is heterogeneous when the extruding speed or the friction coefficient becomes larger gradually.
模拟结果表明:随着挤压速度或摩擦的增大,试样整体变形越来越不均匀。
6) high speed extrusion
高速挤压
1.
Give a detail elaborate on advanced techniques such as the isothetmal extrusion , high speed extrusion, optimizing extrusion process parameters, autonatic control systems, treating as a reference to development of product for Chinese enterprise.
介绍和分析了国外硬钎料挤压技术的现状,阐述了等温挤压、高速挤压、挤压工艺参数优化及自动控制系统等先进技术,供国内企业发展生产参考。
2.
The article describes the technical development of aluminium extrusion presses in the world with respect to the process technology, mechanic equipment, hydraulic and automatic control systems with special stresses on describing the advanced techniques such as the isothermal extrusion, high speed extrusion, optimizing extrusion process parameters, indirect extrusion and etc.
介绍了国外挤压机在工艺、机械、液压和自动控制方面的技术发展,着重叙述等温挤压、高速挤压、挤压工艺参数优化和反向挤压等先进技术以及为实现等温挤压和高速挤压所采取的铸锭梯温加热、挤压减速控制、模具冷却等措施。
补充资料:冲击挤压(见冷挤压)
冲击挤压(见冷挤压)
impact extrusion
ehongji jiya冲击挤压(impaet extrusion)见冷挤压。
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