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VACUUM ›› 2024, Vol. 61 ›› Issue (3): 79-83.doi: 10.13385/j.cnki.vacuum.2024.03.14

• Vacuum Metallurgy and Thermal Engineering • Previous Articles     Next Articles

Design Analysis of External Mechanized Chamber Heat Treatment Furnace

WANG Bao-lai, SU Ning, CHEN Ding, CHE En-lin, LIU Jun, WANG Zhen   

  1. Shenyang Vacuum Technology Institute Co., Ltd., Shenyang 110042, China
  • Received:2023-07-25 Published:2024-06-04

Abstract: The external mechanized chamber heat treatment furnace is an important equipment for heat treatment of steel pipes and bars. The scientific and rational design is conducive to improving the operating efficiency of the external mechanized chamber heat treatment furnace and the steel pipe quality. This article analyzes the overall equipment design requirements of the external mechanized chamber heat treatment furnace from the perspective of process and structure design. Taking the design of a certain treatment furnace as an example, combined with its process requirements, installation process, safety and quality inspection requirements, the difficulties in heat treatment furnace design were explored from different aspects, in order to provide a reference for relevant personnel.

Key words: mechanization, chamber type heat treatment furnace, design

CLC Number:  TB756

[1] 桂愉平, 王彦杰, 李少军, 等. 真空热处理炉绝缘陶瓷对钽粉杂质的影响[J]. 热处理技术与装备, 2023, 44(2): 64-67.
[2] 赵振兴. 关于热处理炉应用与有效加热区检测的探讨[J]. 冶金与材料, 2023, 43(1): 29-31.
[3] 马容忠. 承压设备焊后热处理工艺实施的控制[J]. 化工装备技术, 2023, 44(1): 65-68.
[4] 张荣明. 单张极薄钢板连续热处理炉炉辊间距的计算[J]. 工业炉, 2023, 45(1): 46-49.
[5] ALLEY K D.Microbial machines: experiments with decentralized wastewater treatment and reuse in India[M]. California: University of California Press, 2023.
[6] ESQUINAS M A.Ventilator induced lung injury in non-invasive ventilatory support: pathophysiology, treatment and prevention[M]. New York:Nova Science Publishers, Inc., 2023.
[7] DUNCANSON G R.Veterinary treatment of llamas and alpacas[M].London:CABI,2023.
[8] HARVEY J P, SINGH S, OISHI K, et al.Quantification of the chemical reactivity of molten nitrate salts with heat treatable aluminum alloys[J]. Materials & Design, 2021, 198: 109293.
[9] 王猛, 卢宪强, 温亮. 钢厂热处理炉保安电源可靠性分析与改造[J]. 冶金动力, 2022(4): 27-31.
[10] 刘越. 高精度热处理炉系统精度影响因素分析[J].工业加热, 2022, 51(7): 53-55.
[11] 吴家雷, 姜贤文, 王乃军, 等. 变容式台车热处理电阻炉的选型设计[J]. 现代制造技术与装备, 2022, 58(4): 90-97.
[12] 周杰, 史和生, 史航, 等. 一种智能化电热处理炉用温湿度传感器的变送器: CN215450012U[P].2022-01-07.
[13] 李春泉. 台车式热处理炉加热过程模拟与分析[J].油气田地面工程, 2022, 41(4): 17-22.
[14] 杨超. 辊底式热处理炉炉底辊损坏形式及对策分析[J]. 冶金与材料, 2021, 41(4): 27-28.
[15] 杨小兵, 江华. 高速烟气环流技术在辊底式热处理炉上的应用[J]. 工业加热, 2021, 50(1): 24-26.
[16] 杨东峰, 李倩倩. 浅析降低无氧化辊底式热处理炉天然气消耗的途径[J].中国金属通报, 2020(12): 189-190.
[17] 李家栋, 刘宇佳, 王孝敏, 等. 厚板辊底式热处理炉过程控制系统研发及应用[J]. 冶金自动化, 2020, 44(5): 61-67.
[18] 赵振永, 汪有源, 刘东国, 等. 炉底烧嘴在步进梁式热处理炉上的应用[J]. 工业炉, 2020, 42(1): 27-29.
[19] 于吉生, 徐颖, 张盛开. 脉冲式热处理炉炉温自适应设计[J]. 冶金自动化, 2018, 42(6): 37-40.
[20] 王俊. 辊底式热处理炉过程控制系统及应用[J]. 冶金与材料, 2018, 38(5): 78.
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