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Subtransus deformation mechanisms of TC11 titanium alloy with lamellar structure 被引量:2
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作者 宋鸿武 张士宏 程明 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2010年第11期2168-2173,共6页
Isothermal compression tests are applied to study the deformation mechanisms of TCll titanium alloy with lamellar structure under the deformation temperature range of 890-995 ℃ and strain rate range of 0.01-10 s^-1. ... Isothermal compression tests are applied to study the deformation mechanisms of TCll titanium alloy with lamellar structure under the deformation temperature range of 890-995 ℃ and strain rate range of 0.01-10 s^-1. According to the flow stress data obtained by compression tests, the deformation activations are calculated based on kinetics analysis of high temperature deformation, which are then used for deformation mechanism analysis combined with microstructure investigation. The results show that deformation mechanisms vary with deformation conditions: at low strain rate range, the deformation mechanism is mainly dislocation slip; at low temperature and high strain rate range, twinning is the main mechanism; at high temperature and high strain rate range, the deformation is mainly controlled by diffusion offl phase. 展开更多
关键词 tc11 titanium alloy lamellar structure deformation activation deformation mechanism
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Lamellar Disintegration Mechanism of TC11 Titanium Alloy during Hot Compression
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作者 郑佩琦 黄陆军 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2009年第S1期44-46,共3页
TC11 titanium alloy samples with lamellar microstructrue were compressed on a Gleeble 1500D Simulator.Compression tests were carried out at 950 ℃ and a strain rate of 0.1 s-1 with height reduction of 20%,40% and 60%,... TC11 titanium alloy samples with lamellar microstructrue were compressed on a Gleeble 1500D Simulator.Compression tests were carried out at 950 ℃ and a strain rate of 0.1 s-1 with height reduction of 20%,40% and 60%,respectively.Microstruture of the compressed TC11 alloy was obeserved and analyzed by optical microscopy(OM),transmission electron microscope(TEM),electron back-scattered diffraction(EBSD).The lamellar disintegration mechanism of the TC11 titanium alloy was deduced.The results indicated that the compressive deformation promoted the phase transformation in bi-phase area.βphase layers were formed along the gliding planes inα phase,and α slivers were disintegrated into many small flakes through theα/βinterface slipping. 展开更多
关键词 tc11 titanium alloy hot compression lamellar microstructure lamellar disintegration
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Characterization of hot deformation microstructures of alpha-beta titanium alloy with equiaxed structure 被引量:6
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作者 陈慧琴 曹春晓 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2012年第3期503-509,共7页
Hot deformation behavior and microstructure evolution of TC11(Ti-6.5Al-3.5Mo-1.5Zr-0.3Si) alloy with equiaxed structure were investigated in the two-phase field at temperatures in the range of 980-800 ℃ and at stra... Hot deformation behavior and microstructure evolution of TC11(Ti-6.5Al-3.5Mo-1.5Zr-0.3Si) alloy with equiaxed structure were investigated in the two-phase field at temperatures in the range of 980-800 ℃ and at strain rates of 0.001 s-1,0.01 s-1,0.1 s-1.Effects of thermo-mechanical parameters on both of the stress—strain curves and microstructure evolution were analyzed.Grain boundary characteristics of deformation microstructures were tested by electron backscattered diffraction(EBSD).The results reveal that β-phase dominates the deformation and presents discontinuous dynamic recrystallization at 980 ℃;meanwhile,α-phase coarsens at lower strain rates and dissolves at higher strain rates,and α-phase volume fraction and grain size decrease with increasing strain rate.Super-plastic deformation occurs at 950-900 ℃ and strain rate of 0.001 s-1.And the deformation is dominated by soft β-phase,phase interfaces and grain boundaries.Microstructural mechanism operated at 850 ℃ is continuous dynamic recrystallization of α-phase that dominates the deformation,and β-phase deforms to match the deformation of α-phase. 展开更多
关键词 tc11 titanium alloy equiaxed structure hot deformation microstructure evolution
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Stress-strain characteristics of linear friction welding of TC11 and TC17 alloys 被引量:1
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作者 赵鹏康 傅莉 +2 位作者 张田仓 钟德超 王佩艳 《China Welding》 EI CAS 2015年第1期13-17,共5页
Abstract Transient stress and strain fields of dissimilar titanium alloys (TCll and TC17 ) joint during linear friction welding ( LFW) were investigated by a two-dimensional model with ABAQUS/Explicit. The results... Abstract Transient stress and strain fields of dissimilar titanium alloys (TCll and TC17 ) joint during linear friction welding ( LFW) were investigated by a two-dimensional model with ABAQUS/Explicit. The results showed that in the X-axis, the maximum compressive stress of 850 MPa occurred in the center zone of friction interface , and the maximum tensile stress of 190 MPa distributed at the flash; in the Y-axis, the maximum compressive stress of 1 261 MPa located at the junction region between the welding fixture and edge of the specimen, and the maximum tensile stress of 320 MPa distributed in the connecting portion between the flash and edge of the specimen. In addition, areas of plastic strain increased gradually during welding process. In the X-axis, tensile strain mainly existed at the heads of the specimens; in the Y-axis, compressive strain mainly occurred at the heads of the specimens. 展开更多
关键词 linear friction welding tc11/TC17 titanium alloys joint stress and strain fields
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Interface microstructure evolution and bonding strength of TC11/c-TiA l bi-materials fabricated by laser powder deposition 被引量:4
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作者 Zhi-Jun Xu Yong-Zhong Zhang +1 位作者 Ming-Kun Liu Xin-Yong Gong 《Rare Metals》 SCIE EI CAS CSCD 2016年第6期456-462,共7页
Laser powder deposition was applied to fabricate the Ti-6.5Al-3.5Mo-1.5Zr-0.3Si (wt%)/Ti-47Al- 2Cr-2Nb-0.2W-0.15B (at%) bi-material system. The asdeposited TC11 alloy shows a basket-wave-like morphology while the ... Laser powder deposition was applied to fabricate the Ti-6.5Al-3.5Mo-1.5Zr-0.3Si (wt%)/Ti-47Al- 2Cr-2Nb-0.2W-0.15B (at%) bi-material system. The asdeposited TC11 alloy shows a basket-wave-like morphology while the as-deposited y-TiAl alloy consists of fully α2/γ lamellar microstructures. Regarding the thermal mismatch between TC11 and γ-TiAl during processing, the interface microstmcture evolution was concerned. The transformation pathway was illustrated. It is found that the content changes of Al elements and β-stabilizers Mo, Cr, and Nb are responsible for the evolution of microstructures at the interface. The fracture surfaces are located at the y-TiAl side. The bi-material shows a brittle-fracture manner, with the ultimate tensile strength of 560 MPa. 展开更多
关键词 Laser powder deposition tc11 titanium alloy γ-TiAl alloy BI-MATERIAL INTERFACE
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RHEOLOGICAL FORMING APPLICATION RESEARCH ON THE LIGHT METAL ALLOY MATERIALS
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作者 Yingshe Luo 1 Shuling Luo 1 2 Bangping Liu 2 Min Yu 1 Shuiping Yin 1 Bin Chen 1 ( 1 Institute of Rheological Mechanics and Material Engineering, Central South University of Forestry and Technology, Changsha 410004, China) ( 2 Especial Processing Central, China National South Aviation Industry Co. Ltd, Zhuzhou, 412002, China) 《Acta Mechanica Solida Sinica》 SCIE EI 2011年第S1期90-94,共5页
On the bases of high temperature creep experiments, the research on engineering application of rheological forming is carried out on two kinds of light metal alloy parts named cylindrical shell of Lc4 aluminum alloy a... On the bases of high temperature creep experiments, the research on engineering application of rheological forming is carried out on two kinds of light metal alloy parts named cylindrical shell of Lc4 aluminum alloy and vane disk with complex curved surface of TC11 titanium alloy. Moreover, the mechanical property tests under room and high temperatures for the workpieces produced by this new technique are also done, the results showed that they are much improved evidently compared with those produced by traditional method. 展开更多
关键词 METAL creep experiment Lc4 aluminum alloy tc11 titanium alloy rheological forming
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