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Microstructure and properties of hot-rolled bonded titanium clade steel plate |
YU Chao,WU Zong-he,GUO Zi-xuan,ZHENG Xue-feng,XIE Hong-biao,XIAO Hong |
(National Engineering Research Center for Equipment and Technology of Cold Strip Rolling, Yanshan University,Qinhuangdao 066004, Hebei, China) |
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Abstract In order to study the effect of bonding temperature and reduction ratio on properties of titanium clad steel plate,TA2/Q235B composite plate was prepared by hot-rolled bonding in a vacuum. The microstructural properties of the composite plate were investigated by scanning electron microscopy and energy dispersive spectrometer. The results show that when the bonding temperature was between 850 and 1 050 ℃,the thickness of ferrite region near the carbon steel side of the composite interface increased with the bonding temperature. And the increase of the compound on the composite interface made the shear strength reduced. The large reduction ratio is conducive to improve the bonding strength. When the bonding temperature were 850 and 950 ℃,the reduction ratio was 58%,and the rolling temperature was 1 050 ℃,the reduction ratio was 70%,the shear strength of the bonding surface reached the 0 types titanium clad steel plate standard in national standards.
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Received: 25 September 2017
Published: 09 April 2018
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[1] |
许哲峰.热压扩散法制备钛钢复合板的研究进展[J].热加工工艺, 2017, (10):14-
|
[1] |
许哲峰.热压扩散法制备钛钢复合板的研究进展[J].热加工工艺, 2017, (10):14-
|
[2] |
XU Zhe-feng.Research Progress of Titanium Steel Composite Plate Prepared by Hot-pressing Diffusion Method[J].Hot Working Technology, 2017(10): 14.
|
[2] |
XU Zhe-feng.Research Progress of Titanium Steel Composite Plate Prepared by Hot-pressing Diffusion Method[J].Hot Working Technology, 2017(10): 14.
|
[3] |
Ha J S, Hong S I.Deformation and fracture of Ti/439 stainless steel clad composite at intermediate temperatures[J]. Materials Science & Engineering A, 2016(651): 805.
|
[3] |
Ha J S, Hong S I.Deformation and fracture of Ti/439 stainless steel clad composite at intermediate temperatures[J]. Materials Science & Engineering A, 2016(651): 805.
|
[4] |
Prasanthi T N, Sudha R C, Saroja S.Explosive cladding and post-weld heat treatment of mild steel and titanium[J]. Materials & Design, 2016(93): 180.
|
[4] |
Prasanthi T N, Sudha R C, Saroja S.Explosive cladding and post-weld heat treatment of mild steel and titanium[J]. Materials & Design, 2016(93): 180.
|
[5] |
赵林升, 史长根, 葛雨珩, 等.钛钢双立式爆炸焊接参数优化[J].材料科学与工艺, 2016, 24(1):80-
|
[5] |
赵林升, 史长根, 葛雨珩, 等.钛钢双立式爆炸焊接参数优化[J].材料科学与工艺, 2016, 24(1):80-
|
[6] |
ZHAO Lin-sheng, SHI Chang-gen, GE Yu-heng, et al.Parameter optimization in double vertical explosive welding of Ti /steel[J], Materials Science & Technology, 2016, 24(1):80.
|
[6] |
ZHAO Lin-sheng, SHI Chang-gen, GE Yu-heng, et al.Parameter optimization in double vertical explosive welding of Ti /steel[J], Materials Science & Technology, 2016, 24(1):80.
|
[7] |
Momono T, Enjo T, Ikeuchi K.Effect of carbon content on the diffusion bonding of iron and steel to titanium[J].Isij International, 2007, 30(11):978-
|
[7] |
Momono T, Enjo T, Ikeuchi K.Effect of carbon content on the diffusion bonding of iron and steel to titanium[J].Isij International, 2007, 30(11):978-
|
[8] |
Jiang H T, Yan X Q, Liu J X, et al.Effect of heat treatment on microstructure and mechanical property of Ti?steel explosive-rolling clad plate[J].Transactions of Nonferrous Metals Society of China, 2014, 24(3):697-
|
[8] |
Jiang H T, Yan X Q, Liu J X, et al.Effect of heat treatment on microstructure and mechanical property of Ti?steel explosive-rolling clad plate[J].Transactions of Nonferrous Metals Society of China, 2014, 24(3):697-
|
[9] |
代响林, 刘宝玺, 马久乐, 等.真空热轧法制备不锈钢复合板组织和力学性能[J].钢铁, 2017, 52(2):65-
|
[9] |
代响林, 刘宝玺, 马久乐, 等.真空热轧法制备不锈钢复合板组织和力学性能[J].钢铁, 2017, 52(2):65-
|
[10] |
DAI Xiang-lin, LIU Bao-xi, MA Jiu-le, et al.Microstructure and mechanical properties of stainless steel clad plate fabricated by vacuum hot rolling[J].Iron and Steel, 2017, 52(2):65-
|
[10] |
DAI Xiang-lin, LIU Bao-xi, MA Jiu-le, et al.Microstructure and mechanical properties of stainless steel clad plate fabricated by vacuum hot rolling[J].Iron and Steel, 2017, 52(2):65-
|
[11] |
骆宗安, 陈晓峰, 谢广明, 等.真空轧制合金钢复合板的组织性能[J].钢铁, 2017, 52(3):64-
|
[11] |
骆宗安, 陈晓峰, 谢广明, 等.真空轧制合金钢复合板的组织性能[J].钢铁, 2017, 52(3):64-
|
[12] |
LUO Zong-an, CHEN Xiao-feng, XIE Guang-ming, ed al.Microstructure and mechanical property of vacuum hot-rolled 825 alloyX65 pipeline steel clad plate[J].Iron and Steel, 2017, 52(3):64-
|
[12] |
LUO Zong-an, CHEN Xiao-feng, XIE Guang-ming, ed al.Microstructure and mechanical property of vacuum hot-rolled 825 alloyX65 pipeline steel clad plate[J].Iron and Steel, 2017, 52(3):64-
|
[13] |
Saboktakin M, Razavi G R, Monajati H, The investigate metallurgical properties of roll bonding titanium clad steel[J].International Journal of Applied Physics and Mathematics, 2011, 1(3):177.
|
[13] |
Saboktakin M, Razavi G R, Monajati H, The investigate metallurgical properties of roll bonding titanium clad steel[J].International Journal of Applied Physics and Mathematics, 2011, 1(3):177.
|
[14] |
Yan J C, Zhao D S, Wang C W, et al.Vacuum hot roll bonding of titanium alloy and stainless steel using nickel interlayer[J].Materials Science & Technology, 2013, 25(7):914-
|
[14] |
Yan J C, Zhao D S, Wang C W, et al.Vacuum hot roll bonding of titanium alloy and stainless steel using nickel interlayer[J].Materials Science & Technology, 2013, 25(7):914-
|
[15] |
Luo Z A, Wang G L, Xie G M, et al.Interfacial microstructure and properties of a vacuum hot roll-bonded titanium-stainless steel clad plate with a niobium interlayer[J].Acta Metallurgica Sinica, 2013, 26(6):754-
|
[15] |
Luo Z A, Wang G L, Xie G M, et al.Interfacial microstructure and properties of a vacuum hot roll-bonded titanium-stainless steel clad plate with a niobium interlayer[J].Acta Metallurgica Sinica, 2013, 26(6):754-
|
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