|
摘要:
|
|
钛合金常规挤压时表面存在很厚的冷硬层,导致挤压抗力急剧升高,严重影响坯料成形。通过TC4杯形件常规挤压研究了该条件下钛合金表面冷硬层性质以及对成形过程的影响,分析了影响冷硬层形成的关键因素及机理。通过采用DEFORM-3D软件模拟分析了常规挤压状态下冷硬层对挤压件形状、应力、应变、载荷等的影响。模拟结果表明,当界面传热系数为11,摩擦系数为0.7时,坯料存在约3 mm、温度约为500℃的冷硬层。实验结果表明,在没有充分润滑和保温的常规挤压条件下凸模易断裂。TC4杯形件在常规挤压条件下成形,必须保证坯料有良好的润滑和保温,可以采用等温挤压、包套挤压或者热模挤压来消除或者减少成形过程的冷硬层。
|
|
The thick cooling hard layer exists on the surface of titanium alloy billet formed under conventional extrusion condition.The flow stress increases sharply,which affects the billet forming.The properties of cooling hard layer and influence on extrusion forming processes were investigated by simulation and experiment.The key factors affecting cooling hard layer were presented.The thickness and characteristic of cooling hard layer were analyzed by numerical simulation with DEFORM-3D software.The result of numerical simulation shows that cooling hard layer affects forging shape,flow stress,strain,load and so on.The thickness of cooling hard layer was about 3 mm and 500 ℃ when the interface transferring coefficient was set at 11 and the friction coefficient was set at 0.7.The result of experiments shows that the punch is easily broken if there is lack of effective lubrication and heat insulation.The effective lubrication and heat insulation are necessary conditions for ensuring the TC4 cup-shape part forming.The ideas of isothermal extrusion and wrap extrusion were proposed,which could eliminate or reduce the cooling hard layer.
|
|
基金项目:
|
|
|
|
作者简介:
|
|
|
|
参考文献:
|
[1](苏)尼克里斯基JI A等著,陈石卿,焦明山译.钛合金的模锻与挤压[M].北京:国防工业出版社,1982.
[2](苏)菲格林.金属等温变形工艺[M].薛永春译.北京:国防工业出版社,1981.
[3]Lee R S.Process design based on the deformation mechanism forthe non-isothermal forging of Ti-6Al-4V alloy[M].Journal ofMaterials Processing Technology,1998,79:224-235.
[4]黄昆.固体物理[M].北京:高等教育出版社,2001.
[5]安红萍.Mn18Cr18N钢护环的包套冲挤成形数值模拟与试验研究[J].锻压技术,2006,31(6):127-130.
|
|
服务与反馈:
|
|
【本网站尚未开通全文下载服务】【加入收藏】
|
|
|
|
