1) axisymmetric hot steel forging
回转体短轴类锻件
1.
The thesis expounds the development of a CAD system aimed to designing axisymmetric hot steel forging.
该系统适合于设计回转体短轴类锻件(主要是齿轮件)锤上开式模锻的终锻模膛。
2) circumgyrating forging
回转体类锻件
1.
This paper introduces the forging method utilizing the existing loose tooling forging dies of circumgyrating forging with a small quantity, and summarizes the designing method of loose tooling forging die of circumgyrating forging for universal purpose.
介绍了利用现有胎模锻造小批量回转体类锻件的方法,并总结了此类锻件胎模通用化设计的方法。
3) rotational shape workpiece of forging steel
回转体锻钢件
4) gyrorotor die forgings
回转体模锻件
1.
Production cycle,utilization ratio of material,the quality of product in various making processes for gyrorotor die forgings are contrasted and analyzed in the paper.
对回转体模锻件不同制坯方式的生产周期、材料利用率、产品质量进行对比分析,为制定和优化工艺提供参考。
5) axial forging
轴类锻件
1.
The forging method with horizontal V-shaped anvils(HVA) was introduced to control fibrous tissue flow direction,to improve the anisotropy of mechanical properties of axial forgings.
应用一种新的锻造工艺——水平V形砧锻造法,通过有效控制锻件的纤维流向,改善了轴类锻件力学性能的异向性。
2.
The forging method with horizontal V-shaped anvil were used to control fibrous tissue flow direction,to improve the anisotropy of mechanical properties of axial forgings,to realize uniform forging,resulting in the unique effects that conventional forging methods can not lead to.
利用水平V形砧锻造法,通过有效控制锻件的纤维流向,改善轴类锻件力学性能的异向性,实现轴类锻件的等向锻造,创造普通锻造法无法达到的特殊锻造效果。
3.
Heavy axial forgings made by conventional methods have fibrous tissue, whose direction is parallel to their axes, leading to the anisotropy of mechanical properties.
常规锻造工艺生产的大型轴类锻件,由于锻件成形后所形成的纤维方向基本上平行于轴的中心线,即沿着锻件轴向形成明显的纤维组织,其力学性能存在明显的异向性,即纵向力学性能大于横向力学性能。
6) die forging/long shaft type forgings
模锻/长轴类锻件
补充资料:半短轴
半短轴
semiminor axis
椭圆短轴的一半长度。
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