Transactions of Materials and Heat Treatment

Title：Integral SPF/DB forming process and its optimization for TC4 titanium alloy panel with large size, dual curvature and non-uniform thickness

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ClassificationCode：TG146.2+3

year,vol(issue):pagenumber：2022,47(1):75-80

Abstract：

The integral SPF/DB(Super Plastic Forming/Diffusion Bonding) forming process for TC4 titanium alloy panel with large size, dual curvature and non-uniform thickness was investigated, the forming defects including serious fracture (more than six places), obvious shrinkage of grooves (depth of more than 1.1 mm) and badly die attaching appeared after forming due to part size exceeding 1800 mm, complex profile (double curvature, chord height of 330 mm) and uneven wall thickness, and it was difficult to precisely control the distribution of wall thickness after forming by the chemical milling. Therefore, a new process of pre-deformation, chemical milling, diffusion bonding and superplastic forming was proposed, the distribution of wall thickness after superplastic forming was predicted by the FEM simulation, and the feasibility of the process route for chemical milling first and then SPF/DB was proved. Furthermore, the coating accuracy of release agent was improved by the automatic film coating and laser engraving, the panel parts were finally successfully obtained by integral superplastic forming under the condition of 870-930 ℃、1.0-1.5 MPa without defects such as step difference and shrinkage grooves on the surface, the degree of die attaching was smaller than 0.3 mm, the welding rate was more than 90%, the wall thickness distribution was relatively uniform, and the thinning at the intersection of mouth frame was most serious, which was 44.5% of the origin thickness (2 mm). Thus, the main technical requirements of the part were achieved.

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作者简介：王会东(1988-),男,学士,工程师 E-mail：260095181@qq.com

Reference：

[1] 刘莹，曲周德，王本贤.钛合金TC4的研究开发与应用[J].兵器材料科学与工程，2005，(1)：47-50.

Liu Y, Qu Z D, Wang B X. Research development and application of Ti6Al4Valloy[J]. Ordnance Materila Science and Engineering, 2005，(1):47-50.

[2] 朱知寿. 我国航空用钛合金技术研究现状及发展[J].航空材料学报，2014，34(4)：44-50.

Zhu Z S. Recent research and development of titanium alloys foraviation application in China[J]. Journal of Aeronautical Materials, 2014,34(4):44-50.

[3] Ding R, Guo Z X, Wilson A. Microstructural evolution of a Ti-6Al-4V alloy during thermomechanical processing[J]. Materials ence & Engineering A, 2002, 327(2):233-245.

[4] 曾元松. 先进航空板材成形技术应用现状与发展趋势[J].航空科学技术，2012，(1)：1-4.

Zeng Y S. Application and development trend of advanced sheet metal forming technology[J]. Aeronautical Science & Technology, 2012，(1):1-4.

[5] 王荣华，陈明和，陈国亮，等.TC4钛合金盒形件超塑成形工艺[J].热加工工艺，2008，(11)：46-48.

Wang R H, Chen M H, Chen G L, et al. Superplastic forming process for boxshaped part of TC4 alloy[J].Hot Working Technology, 2008，(11):46-48.

[6] 王斌，朱冬妹，刘章光，等.TA15钛合金四层板结构SPF/DB数值模拟及工艺研究[J].塑性工程学报，2020，27(6)：98-104.

Wang B, Zhu D M, Liu Z G, et al. Numerical simulation and process study of SPF/DB for four- sheetstructure of TA15 titanium alloy[J].Journal of Plasticity Engineering, 2020,27(6):98-104.

[7] 韩文波，张凯锋，王国峰.Ti-6Al-4V合金多层板结构的超塑成形/扩散连接工艺研究[J].航空材料学报，2005，(6)：32-35，54.

Han W B, Zhang K F, Wang G F. Superplastic forming and diffusion bonding for multilayer structure ofTi-6Al-4V alloy[J]. Journal of Aeronautical Materials,2005，(6):32-35，54.

[8] 门向南，童国权，徐雪峰，等.TC4钛合金双层板结构超塑成型/扩散连接工艺[J].机械工程材料，2010，34(5)：86-89，93.

Men X Q, Dong G Q, Xu X F, et al. Processing of superplastic forming and diffusion bonding for twosheet structure of Ti-6A1-4V titanium alloy[J]. Materials for Mechanical Engineering, 2010,34(5):86-89，93.

[9] 刘佳佳，付明杰，许慧元，等.TA15钛合金超塑及扩散连接性能[J].塑性工程学报，2016，23(6)：173-178.

Liu J J, Fu M J, Xu H Y, et al. Superplasticity and diffusion bonding property of TA15 alloy[J]. Journal of Plasticity Engineering, 2016,23(6):173-178.

[10]王斌，朱冬妹，刘章光，等.TA15钛合金四层板结构SPF/DB数值模拟及工艺研究[J].塑性工程学报，2020，27(6)：98-104.

Wang B, Zhu D M, Liu Z G, et al.Numerical simulation and process study of SPF/DB for four-sheetstructure of TA15 titanium alloy[J].Journal of Plasticity Engineering, 2020,27(6):98-104.

[11]韩颖杰，付和国，王会东，等.含预置板的双层钛合金超塑成形/扩散连接零件缺陷分析及工艺改进[J].塑性工程学报，2020，27(4)：41-47.

Han Y J, Fu H G, Wang H D, et al. Defects analysis and process improvement for doublelayer SPF/DB structure parts of titanium alloy with preset panel[J]. Journal of Plasticity Engineering,2020,27(4):41-47.

[12]Yoon J H, Lee H S, Yi Y M, et al. Finite element analysis on superplastic blow forming of Ti-6Al-4V multisheets[A]. Materials Science Forum[C]. Trans.Tech.Publications, 2007.

[13]朱丽，张晓巍，王国峰.基于PAMSTAMP2G的四层超塑成形/

扩散连接构件的数值模拟[J].热加工工艺，2016，45(1)：82-85.

Zhu L, Zhang X W, Wang G F. Numerical simulationof fourlayer SPF/DB component basedonPAMSTAMP2G[J]. Hot Working Technology,2016,45(1):82-85.

[14]王石川，童国权，袁继军，等.含预置块的TA15钛合金四层板SPF/DB试验研究[J].稀有金属，2017，41(1)：14-19.

Wang S C, Tong G Q, Yuan J J, et al. Superplastic forming/diffusion bonding of TA15 FourSheet sandwich with enhancement plates[J]. Chinese Journal of Rare Metals, 2017,41(1):14-19.

[15]何辰佳，吴勤，陈路，等.单通道气路加压的超塑成形/扩散连接新工艺[J].热加工工艺，2019，48(19)：151-155,159.

He C J, Wu Q, Chen L, et al. New process of superplastic forming/diffusion bondingwith single channel gas pressurization[J]. Hot Working Technology, 2019,48(19):151-155,159.

[16]王国峰，张建威，张晓巍，等.2B06铝合金双层结构件DB＆SPF组合工艺研究[J].锻压技术，2020，45(7)：187-191.

Wang G F, Zhang J W, Zhang X W, et al. Research on DB ＆ SPF combination process of doublelayer structural parts for 2B06 aluminum alloy[J]. Forging & Stamping Technology, 2020,45(7):187-191.

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