摘要
研究确定难变形Inconel 625合金大型厚壁管挤压加工窗口,是获得具有良好组织性能挤压管材的关键。采用响应面法建立了一种确定基于温控挤压加工窗口的方法。首先,采用基于有限元计算数据的正交回归方法,建立了分别描述温升和峰值温度与关键挤压参数之间的响应面模型;其次,基于建立的响应面模型,分析揭示了关键挤压参数对温升和温度峰值的交互作用规律;最后,通过绘制挤压速度和初始温度空间峰值温度的等高线图,建立了不同挤压比下挤压加工窗口。基于该挤压加工窗口,可方便快速地确定合适的关键挤压参数组合。
Identifying suitable processing window is necessary but difficult for achieving favorable microstructure and performance in extrusion of large thick-walled pipe with difficult-to-deform Inconel 625 alloy. In this work, a method was established for identifying the extrusion process window considering temperature control using response surface methodology. Firstly, the response surface models, which correlate temperature rise and peak temperature to key extrusion parameters, have been developed by orthogonal regression based on finite element calculated data. Secondly, the coupled effects of the key extrusion parameters on the temperature rise and peak temperature have been disclosed based on the regression models. Lastly, suitable extrusion processing windows, which are described by contour map of peak temperature in the space of extrusion speed and initial billet temperature, have been established for different extrusion ratios. Using the identified process window, a suitable combination of the key extrusion parameters can be determined conveniently and quickly.
基金
Project(2009ZX04005-031-11)supported by the Major National Science and Technology Special Project of China
Project(318968)supported by the Marie Curie International Research Staff Exchange Scheme(IRSES,Mat Pro Future)within the 7th EC Framework Program(FP7)
Project(B08040)supported by the 111 Plan,China
关键词
型材挤压
加工窗口
响应面法
难变形材料
有限元模拟
profile extrusion
processing window
response surface methodology
difficult-to-deform materials
finite element simulation
