锻压技术

大尺寸钢板高频感应加热成形影响因素

英文标题：Influence factors of large-size steel plate in high frequency inductive heating forming

作者：王帅周开发孙嘉粲余宜璠王智祥

关键词：高频感应加热大尺寸钢板弯曲成形 COMSOL Multiphysics 有限元仿真

分类号：U671.6

出版年,卷(期):页码：2018,43(2):0-0

摘要：

为解决船用中厚钢板复杂曲面成形的问题，采用高频感应加热热源的热应力成形技术，探究了大尺寸钢板弯曲成形的重要影响因素。借助COMSOL Multiphysics多物理场仿真平台，分析了加热时间、自重、频率和加热功率4个因素对大尺寸钢板弯曲成形的影响。并通过实验验证了有限元仿真的有效性。仿真与实验结果表明：加热2 s后，钢板上表面温度和应力均有明显增加，并开始出现塑性变形；当钢板上表面最大温度达400 ℃之后，自重对大尺寸钢板弯曲位移有显著影响；与低频加热相比，当加热时间相同时，频率高的升温较快，但冷却时的降温也较快；随着加热时间增加，Y向位移与功率关系出现“反转”现象，为确定钢板曲面成形最佳加热时间提供理论依据。

In order to solve the problem in complex curve surface forming of ship medium-thick steel plate, the thermal stress forming techniques with high frequency induction heating as heat source were adopted, and the important factors influencing the bending of large-size steel plate were investigated. Then, the influences of heating time, gravity, frequency and power on the large-size steel plate bending were analyzed by COMSOL Multiphysics, and the validity of finite element simulation was verified by experiments. The results show that the heating temperature and stress in the upper surface of steel plate increase significantly after heating for 2 seconds, and the plastic deformation occurs. When the maximum temperature in the upper surface of steel plate reaches 400 ℃, the gravity has a remarkable effect on the bending displacement of large-size steel plate. Compared with the low frequency heating, during the same heating time, the temperature increases rapidly during high frequency heating, and the temperature drops rapidly during cooling. Thus, with the increasing of heating time, the “reversal” phenomenon of the relationship between Y axis displacement and power provides a theoretical basis for determining the optimal heating time of steel plate curve surface forming.

基金项目：

重庆市教委科学技术研究项目：大型船板复杂曲面高频感应加热数字化成形工艺研究（KJ1605403）

作者简介：王帅（1987-），男，硕士，讲师 E-mail：ws15993500427@163.com 通讯作者：周开发（1963-），男，硕士，副教授 E-mail：kfzhou@cqjtu.edu.cn

参考文献：

［1］Neki I, Ogawa J, Kamichika R. A simulation analysis on the thermal elastic-plastic deformation of steel plate by high frequency induction heating
［J］. Journal of the Society of Naval Architects of Japan, 1993, 174(12): 535-542.

［2］Bae K Y, Yang Y S, Hyun C M, et al. Derivation of simplified formulas to predict deformation of plate in steel forming process with induction heating
［J］. International Journal of Machine Tolls & Manufacture, 2008, 48:1646-1652.

［3］Nguyen T T, Yang Y S, Bae K Y. Analysis of bending deformation in triangle heating of steel plate with induction heating process using laminated plate theory
［J］.Mechanics Based Design of Structure and Machines, 2009, 37:228-246.

［4］Lee K S,Kim S W, Eom D H. Temperature distribution and bending behaviour of thick metal plate by high frequency induction heating
［J］. Materials Research Innovations,2011,15:283-287.

［5］杨玉龙,张雪彪,刘玉君.船体板高频感应加热的多场耦合数值分析
［J］.船海工程，2011，40(6): 24-27.

Yang Y L, Zhang X B, Liu Y J. Numerical analysis of multi-physics coupling for high frequency induction heating of hull plate
［J］. Ship & Ocean Engineering, 2011, 40(6): 24-27.

［6］周宏,罗宇,蒋志勇,等.船舶板材几何尺寸的变化对高频感应弯板成形的影响
［J］.舰船科学技术，2009，31(9): 22-30.

Zhou H, Luo Y, Jiang Z Y, et al. Influence of geometry of ship panel on high frequency inducting plate bending
［J］. Ship Science and Technology, 2009, 31(9): 22-30.

［7］张雪彪,杨玉龙,刘玉君.钢板高频感应加热过程电磁-热耦合场分析
［J］.大连理工大学学报，2012，52(5): 676-682.

Zhang X B, Yang Y L, Liu Y J. Analyses of electromagnetic-thermal coupling field for high frequency induction heating process of steel plate
［J］. Journal of Dalian University of Technology, 2012, 52(5): 676-682.

［8］王智祥,王帅,张继祥.基于固有应变法的板材高频感应加热热弹塑性变性规律研究
［J］.锻压技术，2014，39(7): 50-54.

Wang Z X, Wang S, Zhang J X. Investigation on inherent strain method for plate high frequency induction heating thermal elastic-plastic deformation
［J］. Forging & Stamping Technology, 2014, 39(7): 50-54.

［9］罗宇,江晓玲,邓德安.材料力学性能对高频感应弯板成形的影响
［J］.材料工程，2005，(8):35-38.

Luo Y, Jiang X L, Deng D A. Influence of mechanical proper ties of materials on high frequency inducting plate bending
［J］. Journal of Materials Engineering, 2005, (8):35-38.

［10］范平.高频感应弯板成形技术研究
［D］.南京:南京航天航空大学，2008.

Fan P. Research on High Frequency Induction Heating Forming of Plate
［D］. Nanjing: Nanjing University of Aeronautics and Astronautics. 2008.

［11］王智祥,李政君,张继祥,等.船用中厚板移动式感应加热成形性实验研究
［J］.热加工工艺，2014，43(1): 56-64.

Wang Z X, Li Z J, Zhang J X, et al. Experimental study of moving induction heating formability of the medium and heavy plate for marine
［J］. Hot Working Technology, 2014,43 (1): 56-64.

［12］范平,陈明和,黄永成,等.板料高频感应热应力成形技术试验研究
［J］.锻压技术，2008，33(4): 38-42.

Fan P, Chen M H, Huang Y C, et al. Experimental study of high frequency induction thermal stress forming technology of plate
［J］.Forging & Stamping Technology, 2008, 33(4): 38-42.

［13］张继祥,安国银,李政君,等.不同厚度下船舶钢板高频感应自由弯曲成形
［J］.重庆交通大学学报：自然科学版，2011，31(4): 900-904.

Zhang J X, An G Y, Li Z J, et al. Free bending of ship plate of different thickness on high-frequency induction
［J］. Journal of Chongqing Jiaotong University：Natural Science, 2011, 31(4): 900-904.

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