网站首页期刊简介编委会过刊目录投稿指南广告合作征订与发行联系我们English
第三类边界条件下大型圆柱体钢锭加热速度计算
英文标题:Calculation of large cylindrical ingot heating rate under the third boundary condition
作者:高兴勇 郑继明 
单位:贵州师范大学 机电学院 
关键词:第三类边界条件 大型圆柱体钢锭  加热速度 最大温差值  内应力 
分类号:TG316
出版年,卷(期):页码:2013,38(4):11-13
摘要:

针对大型钢锭在第三类边界条件下的加热过程进行分析,利用加热时温度沿钢锭横截面的分布变化和由温度梯度导致的钢锭瞬时热应力计算方法,建立了加热过程中钢锭径向、横向和切向的瞬时应力模型。在瞬时应力模型的基础上,根据钢锭在某一温度下的屈服强度和加热炉温度值,提出了控制钢锭加热速度的计算式。用此计算式计算加热工艺参数,可以有效控制钢锭在加热过程的温升速度,避免钢锭在加热过程中产生裂纹,该计算方法已在某特殊钢锻造厂得到实际应用,生产实践证明该方法可行。

The large steel ingot heating process under the third boundary condition was analyzed. The transient heating process of steel ingot radial, transverse and tangential stress model was established by the calculation method for the heating temperature distribution changes along the ingot crosssection and ingot transient thermal stress caused by the temperature gradient. Based on the instantaneous stress model, according to the ingot temperature yield strength and heating furnace temperature value, a formula was proposed to control the ingot heating speed. The heating process parameters calculated with this method can effectively control the ingot temperature rising speed to avoid the ingot cracks in the heating process. The method has been applied in some special steel forging factories and the production practice has proved that the method is feasible.

 

基金项目:
贵州省科学技术基金资助项目(黔科合J字[2012]2270号、黔科合J字[2011]2027号)
作者简介:
高兴勇(1963-),男,本科,教授
参考文献:


[1]高兴勇.第三类边界条件下大圆柱形钢锭的加热计算[J].热加工工艺,2011,40(5):99-101. Gao X Y ,Under third boundary condition largescale circular cylinder steel ingot heating calculation[J].Hot Working Technology, 2011,40(5):99-101.
[2]明赐东.调节阀应用1000问[M].北京:化学工业出版社,2006. Min C D. Regulating Valve Application 1000Q[M]. Beijing:Chemical Industry Press,2006.
[3]高兴勇.大型圆柱体钢锭非稳态导热的集总热容法应用[J].锻压技术,2011,36(2):116-119. Gao X Y,Application of lumped heatcapacity method to largebscale circular cylindersteel ingot unsteady state heat conduction[J].Forging & Stamping Technology, 2011,36(2):116-119.
[4]Alam M K , Goetz R L, Semiatin S L. Modeling of thermal stresses and thermal cracking during heating of large ingots[J]. Journal of Manufacturing Science and Engineering. 1996,(1): 118-237.
[5]Incropera F P,DeWitt D P, Bergman T L, 等. 传热和传质基本原理[M].葛新石,叶宏, 译.北京:化学工业出版社,2007.Incropera F P, DeWitt D P,Bergman T L, et al. Fundamentals of Heat and Mass Transfer[M].Translated by Ge X S, Ye H. Beijing:Chemical Industry Press,2007.
[6]Sun R C. Determination of the forging-heating Schedule for a large hastelloy alloy X ingot[J].  Metall. Trans.,1970,(1):1881-1887.
[7]GB/T12221984.弹簧钢国家标准[S]. GB/T12221984.Spring steel with national standards[S].

服务与反馈:
文章下载】【加入收藏
《锻压技术》编辑部版权所有

中国机械工业联合会主管  中国机械总院集团北京机电研究所有限公司 中国机械工程学会主办
联系地址:北京市海淀区学清路18号 邮编:100083
电话:+86-010-82415085 传真:+86-010-62920652
E-mail: fst@263.net(稿件) dyjsjournal@163.com(广告)
京ICP备07007000号-9