Citation:
Xuebiao Zhang,Yulong Yang and Yujun Liu.Feasibility Research on Application of a High Frequency Induction Heat to Line Heating Technology[J].Journal of Marine Science and Application,2011,(4):456-464.[doi:10.1007/s11804-011-1091-0]
Click and Copy
Feasibility Research on Application of a High Frequency Induction Heat to Line Heating Technology
Xuebiao Zhang,Yulong Yang and Yujun Liu.Feasibility Research on Application of a High Frequency Induction Heat to Line Heating Technology[J].Journal of Marine Science and Application,2011,(4):456-464.[doi:10.1007/s11804-011-1091-0]
Info
- Title:
- Feasibility Research on Application of a High Frequency Induction Heat to Line Heating Technology
- Author(s):
- Xuebiao Zhang; Yulong Yang and Yujun Liu
- Affilations:
- DOI:
- 10.1007/s11804-011-1091-0
- Abstract:
- The purpose of this paper is to investigate the feasibility of high-frequency induction heat for the line heating process through a series of experimental studies and numerical calculations. The results show that the heating temperature of induction heating meets the demands of steel plate bending, and the deformation of a steel plate heated by induction heating can achieve the same effect as flame heating. Meanwhile, the finite element model of moving induction heating of the plate is developed, and the comparison of the residual strain fields and transverse shrinkage between these two kinds of heating shows that great similarity has been achieved.
References:
Bae KangYul, Yang YoungSoo, Hyun ChungMin, Cho SiHun (2008). Derivation of simplified formulas to predict deformations of plate in steel forming process with induction heating. International Journal of Machine Tools and Manufacture, 48(15), 1646-1652.
Hao Hai, Jin Junze, Zhang Xingguo (1999). Study on induction heat in electromagnetic casting. Foundry, 8, 5-9.
Kihara H (1973a). Effect of fabricating method at assembly stage on notch toughness of steel plates: Thermoplastic deformation and local brittleness due to line heating. Journal of Zosen Kyokai, 133, 319-329. (in Japanese)
Kihara H (1973b). Effect of fabricating method at assembly stage on notch toughness of steel plates: Effect of line heating condition on notch toughness of steel plates. Journal of Zosen Kyokai, 133, 319-329. (in Japanese)
Lee KS, Kim SW, Eom DH (2011). Temperature distribution and bending behavior of thick metal plate by high frequency induction heating. Materials Research and Innovations, 15(1), 283-287.
Liu F, Shi Y, Lei X (2009). Numerical investigation of the temperature field of a metal plate during high-frequency induction heat forming. Proceedings of the Institution of Mechanical Engineers, Part C. Journal of Mechanical Engineering Science, 223(4), 979-986.
Shuai Kegang, Luo Yu, Sha Wanhua, Xie Lei (2004). FEM analysis of the temperature field of high frequency induction heating in plate bend molding. Boiler Technology, 35(3), 52-54.
Ueda Y, Murakawa H, Mohamed A, Okumoto Y (1994a). Development of computer-aided process planning system for plate bending by line heating (report 1): Relation between final form of plate and inherent strain. Journal of Ship Production, 10(1), 59-67.
Ueda Y, Murakawa H, Mohamed A, Okumoto Y (1994b). Development of computer-aided process planning system for plate bending by line heating (report 2): Practice for plate bending in shipyard viewed from aspect of inherent strain. Journal of Ship Production, 10(4), 239-247.
Ueda Y, Murakawa H, Mohamed A, Okumoto Y (1994c). Development of computer-aided process planning system for plate bending by line heating (report 3). Relation between heating condition and deformation. Journal of Ship Production, 10(4), 248-257.
Yang Shiming (2003). Fundamentals of heat transfer. Advanced Education Press, Beijing, China, 10-50.
Yoshihiko T (2003). Automated line heating for plate forming by HIH-ALPHA system and its application to construction of actual vessels. Journal of the Society of Naval Architects of Japan, 193, 85-95.
Zhang Xuebiao, Liu Yujun, Hu Xuefeng, Ji Zhuoshang (2009). Experimental analysis and numerical simulation of induction heat forming of steel plate. Journal of Harbin Engineering University, 30(3), 238-243. (in Chinese).
Memo
- Memo:
- Supported by the National Natural Science Foundation of China (50805016)
