Forming Process and Analysis of 436L Ferritic Stainless Steel Heat Exchanger Plate

Wang Guotao; Wang Guiquan; Liu Zhongli; Wang Mingjia

doi:10.20057/j.1003-8620.2023-00237

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Forming Process and Analysis of 436L Ferritic Stainless Steel Heat Exchanger Plate

Forming and Phase Transition | 更新时间：2025-05-09

- Forming Process and Analysis of 436L Ferritic Stainless Steel Heat Exchanger Plate
- Special Steel Vol. 45, Issue 3, Pages: 62-69(2024)
- 作者机构：
  
  烟台大学核装备与核工程学院，烟台 264005
- 作者简介：
- 基金信息：
- DOI：10.20057/j.1003-8620.2023-00237
  CLC： TG386
- Received：24 November 2023，
  
  Published：30 May 2024
- 稿件说明：
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王国涛,王桂权,刘仲礼等.436L铁素体不锈钢换热板片的成形过程及分析[J].特殊钢,2024,45(03):62-69.

Wang Guotao,Wang Guiquan,Liu Zhongli,et al.Forming Process and Analysis of 436L Ferritic Stainless Steel Heat Exchanger Plate[J].Special Steel,2024,45(03):62-69.
王国涛,王桂权,刘仲礼等.436L铁素体不锈钢换热板片的成形过程及分析[J].特殊钢,2024,45(03):62-69. DOI： 10.20057/j.1003-8620.2023-00237.

Wang Guotao,Wang Guiquan,Liu Zhongli,et al.Forming Process and Analysis of 436L Ferritic Stainless Steel Heat Exchanger Plate[J].Special Steel,2024,45(03):62-69. DOI： 10.20057/j.1003-8620.2023-00237.

摘要

针对436L铁素体不锈钢换热板片冲压成形的开裂问题，通过Dynaform数值模拟分析和冲压成形试验，对两种典型波纹结构换热板片的成形特征进行研究，分析其成形过程中的成形极限和减薄率的演变规律，研究板片厚度和波纹参数（波纹法向节距）对裂纹位置及开裂程度的影响，探讨波纹法向节距对减薄率的影响。结果表明，436L铁素体不锈钢换热板片的开裂和减薄同时受板厚及波纹参数的影响。对于浅波纹换热板片（波纹深度2 mm），易开裂处为波纹的波峰圆角顶部，板厚增加对开裂倾向和减薄率影响显著，每增加0.1 mm板材厚度，波峰圆角处最大减薄率可降低约2.6%，此时，能够安全成形的最大减薄率为18.9%，最小成形板厚为0.6 mm。而对于深波纹换热板片（波纹深度2.6 mm），易开裂处为波纹的波峰圆角两侧和波峰圆角顶部，此时，板厚增加对开裂倾向和减薄率影响较小，每增加0.1 mm板材厚度，波峰圆角处最大减薄率仅降低约1.4%，需通过增大波纹法向节距满足成形质量要求。

Abstract

In order to resolve the cracking problem of 436L ferritic stainless steel heat exchanger plates during stamping forming， the forming characteristics of two typical corrugated structure heat exchange plate were studied through Dynaform numerical simulation analysis and stamping forming experiments， the evolution of forming limit and thinning rate during the forming process was analyzed， and the influence of plate thickness and corrugation parameters （corrugation pitch） on crack location and degree of cracking was studied. Additionally， the impact of corrugation pitch on thinning rate was also discussed. The results indicate that the cracking and thinning of 436L ferritic stainless steel heat exchanger plates are both affected by plate thickness and corrugation parameters. For shallow corrugated heat exchanger plates （corrugation depth of 2 mm）， the vulnerable area for cracking is the top of the corrugation’s rounded corner. Increasing the plate thickness significantly affects the tendency for cracking and thinning rate， with a decrease of approximately 2.6% in the maximum thinning rate at the rounded corner for every 0.1 mm increase in plate thickness. At this point， the maximum safe thinning rate for forming is 18.9%， and the minimum forming plate thickness is 0.6 mm. For deep corrugated heat exchanger plates （corrugation depth of 2.6 mm）， the vulnerable areas for cracking are the sides of the corrugation’s rounded corner and the top of the rounded corner. Increasing the plate thickness has a smaller impact on the tendency for cracking and thinning rate， with only a decrease of approximately 1.4% in the maximum thinning rate at the rounded corner for every 0.1 mm increase in plate thickness. To ensure that the quality requirements for forming are met， it is necessary to increase the normal pitch of the corrugation.

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references

赵伟 . 基于有限元技术的换热器板片结构与工艺参数对成型质量影响的分析［D］. 长春：长春工业大学， 2023 .

Choi S W ， Park S H ， Jeong H S ， et al . Improvement of formability for fabricating thin continuously corrugated structures in sheet metal forming process ［J］. Journal of Mechanical Science and Technology ， 2012 ， 26 （ 8 ）： 2397 - 2403 .

Mazzucco A ， Voskuilen T G ， Waters E L ， et al . Heat exchanger selection and design analyses for metal hydride heat pump systems ［J］. International Journal of Hydrogen Energy ， 2016 ， 41 （ 7 ）： 4198 - 4213 .

杨　刚，冯翰翔，汪向磊，等 . 板式换热器的研究进展［J］. 化学工程与装备， 2019 （ 5 ）： 240 - 241+74 .

苏厚德，徐建新，张玉福，等 . 波纹板结构参数对传热及力学特性的数值研究［J］. 化工机械， 2022 ， 49 （ 3 ）： 423 - 431 .

Gillham M W H . A new composite material for plate heat exchangers ［J］. Materials & Design ， 1988 ， 9 （ 4 ）： 192 - 194 .

史　伟，俄　馨，王顺花，等 . 板式换热器用304L不锈钢冷冲压波纹板片的耐腐蚀性能试验［J］. 机械研究与应用， 2021 ， 34 （ 2 ）： 57 - 60 .

Ravi Kumar B ， Mahato B ， Bandyopadhyay N R ， et al . Comparison of rolling texture in low and medium stacking fault energy austenitic stainless steels ［J］. Materials Science and Engineering： A ， 2005 ， 394 （ 1-2 ）： 296 - 301 .

Kumar B R ， Singh A K ， Das S ， et al . Cold rolling texture in AISI 304 stainless steel ［J］. Materials Science and Engineering： A ， 2004 ， 364 （ 1-2 ）： 132 - 139 .

李宇梁，周光辉 . 我国不锈钢产业发展浅析［J］. 冶金管理， 2020 （ 2 ）： 47 - 51 .

杜文静，赵浚哲，张立新，等 . 换热器结构发展综述及展望［J］. 山东大学学报（工学版）， 2021 ， 51 （ 5 ）： 76 - 83 .

康喜范 . 铁素体不锈钢［M］. 北京：冶金工业出版社， 2012 ： 10 - 13 .

Luo H ， Su H Z ， Li B S ， et al . Electrochemical and passive behaviour of tin alloyed ferritic stainless steel in concrete environment ［J］. Applied Surface Science ， 2018 ， 439 ： 232 - 239 .

刘洪涛 . 1Cr17铁素体不锈钢的成形性能研究［D］. 北京：北京科技大学， 2018 .

杜　伟，江来珠，余海峰，等 . 铁素体不锈钢的冲压性［J］. 宝钢技术， 2012 （ 6 ）： 66 - 76 .

Shin H J ， An J K ， Park S H ， et al . The effect of texture on ridging of ferritic stainless steel ［J］. Acta Materialia ， 2003 ， 51 （ 16 ）： 4693 - 4706 .

Yazawa Y ， Muraki M ， Kato Y ， et al . Effect of chromium content on relationship between R-value and｛111｝recrystallization texture in ferritic steel ［J］. ISIJ International ， 2003 ， 43 （ 10 ）： 1647 - 1651 .

王军伟，靳塞特，蒋妍彦，等 . 436L不锈钢冲压起皱和颈缩缺陷分析［J］. 铸造技术， 2020 ， 41 （ 4 ）： 381 - 383 .

张　源，李静媛，方　智，等 . 基于Dynaform模拟冲压工艺对17%Cr超纯铁素体不锈钢表面起皱的影响［J］. 材料导报， 2017 ， 31 （ 8 ）： 156 - 161 .

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