1) electrostatic die wall lubrication
静电模壁润滑
1.
Combining electrostatic die wall lubrication and warm compaction to enhance green and sintered properties of P/M components;
用静电模壁润滑—温压复合工艺增高粉末冶金零件生坯与烧结件性能
2.
Factors Influencing charging performance of lubricant powder in PM electrostatic die wall lubrication;
粉末冶金静电模壁润滑中润滑剂粉末的荷电影响因素
2) die wall lubrication
模壁润滑
1.
Study on sintering behaviors of warm compacted Fe-2Ni-2Cu-1Mo-1C material in die wall lubrication;
模壁润滑温压Fe-2Ni-2Cu-1Mo-1C材料的烧结行为研究
2.
High density compaction of stainless steel 316L powders through warm compaction and die wall lubrication;
316L不锈钢粉末温压与模壁润滑的高密度成形
3.
Effect of the admixed lubricant content on die wall lubrication in warm compaction;
润滑剂含量对模壁润滑温压工艺的影响
3) die wall lubricated warm compaction
模壁润滑温压
1.
Results show that die wall lubricated warm compaction technology could improve the densities and mechanical properties of Fe-2Cu-2Ni-1Mo-1C materials.
结果表明:模壁润滑温压工艺能明显提高烧结材料的密度和性能;在130℃、400~700 MPa压力范围内材料压坯密度、烧结密度和烧结性能均随压制压力增大而提高;700 MPa下材料压坯密度7。
2.
Samples were formed by die wall lubricated warm compaction method,then,sintered in hydrogen atmosphere at 1150℃ for 60min and cooled at three different rates,4.
本文研究了模壁润滑温压部分扩散预合金 Fe-2Cu-2Ni-1Mo-1C 材料的烧结硬化性能,讨论了冷却速度对材料力学性能和显微组织的影响。
5) dymanic-static pressure lubrication
动静压润滑
6) hydrostatic lubrication
铃静压润滑
补充资料:凹模壁厚及凹模垫板尺寸
型腔壁部投影面积 壁 厚, 毫 米
F, 厘米2 h1 h2 h3 h4 h5
<5 15~20 30~40 <=10 15~20 30~40
>5~10 20~25 40~50 10~15 20~25 40~55
>10~50 20~30 50~60 15~20 20~30 55~65
>50~100 30~35 60~75 20~25 30~40 65~70
>100~200 35~40 75~85 25~30 40~50 70~75
>200 >40 >85 30~35 50~60 >80
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