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汽轮机叶片锻坯优化设计
英文标题:Optimized design of forging stock for steam turbine blade
作者:张国新  
单位:无锡科技职业学院机电工程系  
关键词:汽轮机叶片  锻坯  Deform 
分类号:TG316
出版年,卷(期):页码:2008,33(4):19-21
摘要:
分析了汽轮机叶片锻坯设计所存在的问题:锻件飞边不均匀、试锻次数多等缺点;介绍了汽轮机叶片锻坯优化设计方法、步骤及其关键技术;借助于有限元正向模拟的方法,通过对叶片模锻成形模拟分析,得到了较为合理的叶片锻坯形状与尺寸。以RL1016叶片锻坯设计为例,进一步阐述了采用合理的经验参数初步设计汽轮机叶片锻坯,应用有限元数值模拟进行检验,经生产实践证明是可行的。这种设计方法提高了材料利用率,减少了试验次数,甚至可取消试锻,对于形状类似锻件的工艺设计有参考价值。
The problems on forging stock design of the steam turbine blade,such as non-uniform forging flash and overmuch times of testing forging were analyzed;the method,procedure and its key technology of optimized design for those problems were introduced.Simulation and analysis were carried out by using 3D rigid-viscoplastic FEM forward simulation for forging deformation of blade,and a reasonable shape and dimension of forging stock were obtained.As an example of the forging stock design for the steam turbine blade RL1016,the initial design of turbine blade's forgings by adopting available experience parameter was further described,the verification by application of forging simulation with the advanced Deform software was made.And it is proved that the optimized design is feasible in practice.With this new method,the material's utilizing rate is improved,the test times of forging are decreased effectively and even to be canceled,and it also has the reference value for the similar forging process.
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参考文献:
[1]孙前江,王高潮,黄映霞,等.曲轴锻造过程的数值模拟[J].锻压技术,2006,31(2):4-6.
[2]傅建,谢彬,林南,等.数值模拟技术在汽轮机叶片模锻成形中的应用[J].锻压技术,2007,32(2):98-101.
[3]李旭斌,张治民,杜战峰.变形镁合金件数值模拟及成形工艺优化设计[J].锻压技术,2007,32(2):130-133.
[4]陈飞,李红.叶片实体建模及模具加工[J].排灌机械,2001,19(3):7-9.
[5]刘郁丽.叶片精锻成形规律的三维有限元分析[D].西安:西北工业大学,2001.
[6]张国新.汽轮机叶片精锻模具开发工艺及其应用的研究[D].上海:上海交通大学,2004.
[7]赵国群,阮雪榆.链轨节锻造过程的有限元分析[J].模具技术,1991,(4):1-9.
[8]蒋鹏,付殿禹,曹飞,等.铁路货车钩尾框精密辊锻过程数值模拟[J].锻压技术,2007,32(3):107-110.
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