Characterization of diffusion-bonded titanium alloy and 304 stainless steel with Ag as an interlayer

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• 作者：M. Balasubramanian
• 关键词：Ti ; 6Al ; 4 V ; Silver ; AISI 304 Stainless steel ; Interlayer ; Diffusion bonding
• 刊名：The International Journal of Advanced Manufacturing Technology
• 出版年：2016
• 出版时间：January 2016
• 年：2016
• 卷：82
• 期：1-4
• 页码：153-162
• 全文大小：2,535 KB
• 参考文献：1.Hef LD (2010) Fine grain Ti-6Al-4V for superplastic forming and diffusion bonding of aerospace Products. J Miner Met Mater Soc 62:42–45
  2.Lee HS (2012) Diffusion bonding of metal alloys in aerospace and other applications. Weld Join Aerosp Mater 320–344
  3.Balasubramanian M, Jayabalan V, Balasubramanian V (2008) Effect of current pulsing on tensile properties of titanium alloy. J Mater Des 29:1459–1466CrossRef
  4.Salman P, Amir R, Ibramin D, Mihai N (2014) Influence of tool materials on machinability of titanium and nickel based alloys- A review. Mater Manuf Process 29(3):219–252CrossRef
  5.Balasubramanian M, Jayabalan V, Balasubramanian V (2008) Developing mathematical models to predict tensile properties of pulsed current gas tungsten arc welded Ti-6Al-4V alloy. J Mater Des 29(1):92–97CrossRef
  6.Vigraman T, Ravindran D, Narayanasamy R (2012) Effect of phase transformation and intermetallic compounds on the microstructure and tensile strength properties of diffusion bonded joints between Ti-6Al-4V and AISI 304 L. Mater Des 36:714–727CrossRef
  7.Sheng GM, Huang JW, Qin B, Zhou B, Qiu SY, Li C (2005) An experimental investigation of phase transformation superplastic diffusion bonding of Titanium alloy to Stainless Steel. J Mater Sci 40:6385–6390CrossRef
  8.Zeer GM, Zelenkova EG, Koroleva YP, Mikheev AA, Prokopyer SV (2013) Diffusion bonding through interlayer. Weld Int 27(8):638–643CrossRef
  9.Manonmani K, Murugan N, Buvanasekaran G (2005) Effect of process parameters on the weld geometry of laser beam welded stainless steel sheets. Int J Join Mater 17(4):103–109
  10.Ozdemir N, Bilgin B (2009) Interfacial properties of diffusion bonded Ti-6Al-4V to AISI 304 stainless steel by inserting a Cu interlayer. Int J Adv Manuf Technol 41:519–526CrossRef
  11.Ghosh M, Chatterjee S (2002) Characterization of transition joints of commercially pure titanium to 304 stainless steel. Mater Charact 48:393–399CrossRef
  12.Peng HE, Zhang J, Zhou R, Xiaoqiang LI (1999) Diffusion Bonding Technology of a Titanium Alloy to a Stainless Steel Web With an Ni Interlayer. Mater Charact 4:287–292
  13.Ghosh M, Chatterjee S (2003) Diffusion bonded transition joints of titanium to stainless steel with improved properties. Mater Sci Eng A 358:152–158CrossRef
  14.Kejanli H, Taşkin M, Kolukisa S, Topuz P (2009) Transient liquid phase (tlp) diffusion bonding of Ti45Ni49Cu6 P/M components using Cu interlayer. Int J Adv Manuf Technol 44(7–8):695–699CrossRef
  15.Naci K (2014) Investigation of the effect of diffusion bonding parameters on microstructure and mechanical properties of 7075 aluminium alloy. Int J Adv Manuf Technol 71(9–12):2115–2124
  16.Yuan XJ, Sheng GM, Qi M, Huang WZ, Zhou B (2008) Impulse pressuring diffusion bonding of titanium alloy to stainless steel. Mater Charact 59(7):930–936CrossRef
  17.He P, Yue X, Zhang JH (2008) Hot pressing diffusion bonding of a titanium alloy to a stainless steel with an aluminum alloy interlayer. Mater Sci Eng A 486(1–2):171–176CrossRef
  18.Box B, Qin B, Sheng GM, Huang JW, Zhou B, Qiu SY, Li C (2006) Phase transformation diffusion bonding of titanium alloy with stainless steel. Mater Charact 56(1):32–38CrossRef
  19.Aydın K, Kaya Y, Kahraman N (2012) Experimental study of diffusion welding/bonding of titanium to copper. Mater Des 37:356–368CrossRef
  20.Atasoy E, Kahraman N (2008) Diffusion bonding of commercially pure titanium to low carbon steel using a silver interlayer. Mater Charact 59(10):1481–1490CrossRef
  21.Deng Y, Sheng G, Chuan X (2013) Evaluation of the microstructure and mechanical properties of diffusion bonded joints of titanium to stainless steel with a pure silver interlayer. Mater Des 46:84–87CrossRef
  22.GE P, Wilson KB (1951) J R Stat Soc B 13:1–45
  23.Box GEP, Benhken DW (1960) Technometrics 2:195CrossRef
  24.Balasubramanian M (2015) Application of Box–Behnken design for fabrication of titanium alloy and 304 stainless steel joints with silver interlayer by diffusion bonding. Mater Des 77:161–169
  25.Askeland RD (1994) Science and Engineering of Materials, 3rd edn. PWS Publishing company, Boston
  26.Orhan N, Khan TI, Eroglu M (2001) Diffusion bonding of a microduplex Stainless Steel to Ti-6Al-4V. Scr Mater 45:441–446CrossRef
  27.Kunder S, Ghosh M, Laik A, Bhanumurthy K, Kale GB, Chatterjee S (2005) Mater Sci Eng A A407:154–160
  28.Elrefay A, Tillmann W (2009) Solid state diffusion bonding of titanium to steel using a copper base alloy as interlayer. J Mater Process Technol 209(5):2746–2752CrossRef
  29.Heller EMB, Suyver JF, Vredenberg AM, Boerma DO (1999) Oxidation and annealing of thin FeTi layers covered with Pd. Appl Surf Sci 150:227–234CrossRef
  30.Somekawa H, Watanabe, Mukai T, Higashi K (2003) Low temperature diffusion bonding in a superplastic AZ31Magnesium alloy. Scr Mater 48:1249–1254CrossRef
  
• 作者单位：M. Balasubramanian (1)
  
  1. Department of Mechanical Engineering, R.M.K. College of Engineering and Technology, Puduvoyal, Tiruvallur, India
  
• 刊物类别：Engineering
• 刊物主题：Industrial and Production Engineering
  Production and Logistics
  Mechanical Engineering
  Computer-Aided Engineering and Design
  
• 出版者：Springer London
• ISSN：1433-3015

文摘

Titanium alloy Ti-6Al-4 V plate was diffusion-bonded with AISI 304 stainless steel plate with silver foil as an intermediate layer at various temperatures for different holding periods. The appropriate process parameters have been investigated to achieve good quality joints. The microstructures formed in the diffusion region were observed and determined by optical microscopy. The microhardness across and perpendicular to the interface was measured, and the strength of the joints was also determined with lap shear test. X-ray diffraction analysis confirms the presence of intermetallic compounds present in interface regions. This paper focuses on the effect of process parameters on hardness, strength, and diffusion layer thickness of these dissimilar joints. Keywords Ti-6Al-4 V Silver AISI 304 Stainless steel Interlayer Diffusion bonding