用超塑性成形工艺能一次成形出复杂形状的零件。
The complicated shaped parts are able to be singly formed by a superplastic forming process.
展示了超塑性成形技术在某些领域中的应用前景。
It also shows the prospects for applying the superplastic forming technique in some fields.
超塑性成形工艺制造该零件比原机加工工艺简单,节省材料超过60%。
This part by superplastic forming process is simpler and saving material over 60% than by machin…
与原机加工工艺相比,超塑性成形该零件的工艺简单,节省材料60%以上。
This part by superplastic forming process if simpler and saving material over 60% than by machining process.
本文的试验结果可作为其它类型超塑性材料超塑成形后力学性能分析的参考。
There is much in this articles results that we can use for reference to other type superplastic materials mechanical properties analysis after superplastic forming.
超塑性胀形控制有各种方法,本文介绍了一种按气压与高度曲线控制的方法,使成形过程更接近于等应变速率胀形,能进一步改善零件厚度的不均匀性。
This paper introduces a method to controll a superplastic bulging by a gas-pressure and a height curve. This method can significantly reduce the thinning rate and unevenness of bulging material.
超塑性胀形控制有各种方法,本文介绍了一种按气压与高度曲线控制的方法,使成形过程更接近于等应变速率胀形,能进一步改善零件厚度的不均匀性。
This paper introduces a method to controll a superplastic bulging by a gas-pressure and a height curve. This method can significantly reduce the thinning rate and unevenness of bulging material.
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