1001-0521
2016 Issue 1
Role of boron in TiAl alloy development: a review
Dawei Hu;Interdisciplinary Research Centre in Materials;University of Birmingham;
Dawei Hu;Interdisciplinary Research Centre in Materials;University of Birmingham;
..............page:1-14
Advances in phase relationship for high Nb-containing TiAl alloys
Yong-Feng Liang;Xiang-Jun Xu;Jun-Pin Lin;State Key Laboratory for Advanced Metals and Materials;University of Science and Technology Beijing;Materials and Chemistry School;Zhongyuan University of Technology;
Yong-Feng Liang;Xiang-Jun Xu;Jun-Pin Lin;State Key Laboratory for Advanced Metals and Materials;University of Science and Technology Beijing;Materials and Chemistry School;Zhongyuan University of Technology;
..............page:15-25
Microstructure characterization and tensile properties of a Ni-containing TiAl-based alloy with heat treatment
Jian-Chao Han;Shu-Long Xiao;Jing Tian;Yu-Yong Chen;Li-Juan Xu;Xiao-Peng Wang;Yi Jia;Shou-Zhen Cao;School of Materials Science and Engineering;Harbin Institute of Technology;National Key Laboratory of Science and Technology on Precision Heat Processing of Metals;Harbin Institute of Technology;State Key Laboratory of Advanced Welding and Joining;Harbin Institute of Technology;
Jian-Chao Han;Shu-Long Xiao;Jing Tian;Yu-Yong Chen;Li-Juan Xu;Xiao-Peng Wang;Yi Jia;Shou-Zhen Cao;School of Materials Science and Engineering;Harbin Institute of Technology;National Key Laboratory of Science and Technology on Precision Heat Processing of Metals;Harbin Institute of Technology;State Key Laboratory of Advanced Welding and Joining;Harbin Institute of Technology;
..............page:26-34
Solidification microstructure characteristics of Ti–44Al–4Nb–2Cr–0.1B alloy under various cooling rates during mushy zone
Peng Han;Hong-Chao Kou;Jie-Ren Yang;Guang Yang;Jin-Shan Li;The State Key Laboratory of Solidification Processing;Northwestern Polytechnical University;
Peng Han;Hong-Chao Kou;Jie-Ren Yang;Guang Yang;Jin-Shan Li;The State Key Laboratory of Solidification Processing;Northwestern Polytechnical University;
..............page:35-41
Microstructure and properties of a beta-solidifying TiAl-based alloy with different refiners
Ning Cui;Xiao-Peng Wang;Fan-Tao Kong;Yu-Yong Chen;Hai-Tao Zhou;School of Materials Science and Engineering;Harbin Institute of Technology;State Key Laboratory of Advanced Welding and Joining;Harbin Institute of Technology;
Ning Cui;Xiao-Peng Wang;Fan-Tao Kong;Yu-Yong Chen;Hai-Tao Zhou;School of Materials Science and Engineering;Harbin Institute of Technology;State Key Laboratory of Advanced Welding and Joining;Harbin Institute of Technology;
..............page:42-47
Transition of solidification path in nonequilibrium solidification of Ti–48Al–8Nb alloy
Tan He;Rui Hu;Jie-Ren Yang;Tie-Bang Zhang;Jin-Shan Li;The State Key Laboratory of Solidification Processing;School of Materials Science and Engineering;Northwestern Polytechnical University;
Tan He;Rui Hu;Jie-Ren Yang;Tie-Bang Zhang;Jin-Shan Li;The State Key Laboratory of Solidification Processing;School of Materials Science and Engineering;Northwestern Polytechnical University;
..............page:48-53
Growth rate and composition of directionally solidified intermetallic TiAl–Nb alloys with different solidification conditions
Li-Wei Zhang;Jun-Pin Lin;Xiang-Jun Xu;Jian-Ping He;Xian-Fei Ding;Xiao-Ou Jin;State Key Laboratory for Advanced Metals and Materials;University of Science and Technology Beijing;Materials and Chemistry School;Zhongyuan University of Technology;National Center for Materials Service Safety;University of Science and Technology Beijing;School of Architecture and Engineering;Heilongjiang University;
Li-Wei Zhang;Jun-Pin Lin;Xiang-Jun Xu;Jian-Ping He;Xian-Fei Ding;Xiao-Ou Jin;State Key Laboratory for Advanced Metals and Materials;University of Science and Technology Beijing;Materials and Chemistry School;Zhongyuan University of Technology;National Center for Materials Service Safety;University of Science and Technology Beijing;School of Architecture and Engineering;Heilongjiang University;
..............page:54-64
Lamellar morphology of directional solidified Ti–45Al–6Nb–xW alloys
Zhi-Yuan Hou;Yong-Sheng Li;Hao-Jie Mei;Kai Hu;Guang Chen;School of Materials Science and Engineering;Nanjing University of Science and Technology;Engineering Research Center of Materials Behavior and Design;Ministry of Education;
Zhi-Yuan Hou;Yong-Sheng Li;Hao-Jie Mei;Kai Hu;Guang Chen;School of Materials Science and Engineering;Nanjing University of Science and Technology;Engineering Research Center of Materials Behavior and Design;Ministry of Education;
..............page:65-69
Microstructure and microsegregation of directionally solidified Ti–45Al–8Nb alloy with different solidification rates
Xiang-Jun Xu;Lin Song;Xiao-Ou Jin;Dong-Dong Han;Xin Wang;Jun-Pin Lin;Materials and Chemistry School;Zhongyuan University of Technology;State Key Laboratory for Advanced Metals and Materials;University of Science and Technology Beijing;School of Architecture and Engineering;Heilongjiang University;
Xiang-Jun Xu;Lin Song;Xiao-Ou Jin;Dong-Dong Han;Xin Wang;Jun-Pin Lin;Materials and Chemistry School;Zhongyuan University of Technology;State Key Laboratory for Advanced Metals and Materials;University of Science and Technology Beijing;School of Architecture and Engineering;Heilongjiang University;
..............page:70-76
Turning machining induced microstructural stability of a high Nb-containing TiAl alloy during high temperature exposure
Lu Fang;Jun-Pin Lin;Xiao-Chan Qiu;Jin-Xiao Ou;Xian-Fei Ding;State Key Laboratory for Advanced Metals and Materials;University of Science and Technology Beijing;School of Architecture and Engineering;Heilongjiang University;National Center for Materials Service Safety;University of Science and Technology Beijing;
Lu Fang;Jun-Pin Lin;Xiao-Chan Qiu;Jin-Xiao Ou;Xian-Fei Ding;State Key Laboratory for Advanced Metals and Materials;University of Science and Technology Beijing;School of Architecture and Engineering;Heilongjiang University;National Center for Materials Service Safety;University of Science and Technology Beijing;
..............page:77-84
Microstructure evolution of Ti–46Al–6Nb–(Si,B) alloys during heat treatment with W addition
Shou-Zhen Cao;Shu-Long Xiao;Yu-Yong Chen;Jing Tian;Li-Juan Xu;Xiao-Peng Wang;Jian-Chao Han;Yi Jia;National Key Laboratory of Science and Technology on Precision Heat Processing of Metals Technology;School of Materials Science and Engineering;Harbin Institute of Technology;
Shou-Zhen Cao;Shu-Long Xiao;Yu-Yong Chen;Jing Tian;Li-Juan Xu;Xiao-Peng Wang;Jian-Chao Han;Yi Jia;National Key Laboratory of Science and Technology on Precision Heat Processing of Metals Technology;School of Materials Science and Engineering;Harbin Institute of Technology;
..............page:85-92
Fatigue properties of a medium-strength γ-TiAl alloy with different surface conditions
Zhen-Jun Yang;Hong-Liang Sun;Ze-Wen Huang;Xiao-Song Jiang;Song Chen;Key Laboratory of Advanced Technologies of Materials;Ministry of Education;School of Materials Science and Engineering;Southwest Jiaotong University;
Zhen-Jun Yang;Hong-Liang Sun;Ze-Wen Huang;Xiao-Song Jiang;Song Chen;Key Laboratory of Advanced Technologies of Materials;Ministry of Education;School of Materials Science and Engineering;Southwest Jiaotong University;
..............page:93-99
Reaction behaviors occurring in Ti/Al foil metallurgy
Zheng-Zhang Shen;Jun-Pin Lin;Yong-Feng Liang;Lai-Qi Zhang;Guo-Jian Hao;State Key Laboratory for Advanced Metals and Materials;University of Science and Technology Beijing;
Zheng-Zhang Shen;Jun-Pin Lin;Yong-Feng Liang;Lai-Qi Zhang;Guo-Jian Hao;State Key Laboratory for Advanced Metals and Materials;University of Science and Technology Beijing;
..............page:100-105
Characterization of creep behavior of TiAl alloy with high Nb content at elevated temperatures
Cheng-Li Dong;Hui-Chen Yu;Ze-Hui Jiao;Beijing Key Laboratory of Aeronautical Materials Testing and Evaluation;Science and Technology on Advanced High Temperature Structural Materials Laboratory;Beijing Institute of Aeronautical Materials;Science and Technology on Advanced High Temperature Structural Materials Laboratory;Beijing Institute of Aeronautical Materials;
Cheng-Li Dong;Hui-Chen Yu;Ze-Hui Jiao;Beijing Key Laboratory of Aeronautical Materials Testing and Evaluation;Science and Technology on Advanced High Temperature Structural Materials Laboratory;Beijing Institute of Aeronautical Materials;Science and Technology on Advanced High Temperature Structural Materials Laboratory;Beijing Institute of Aeronautical Materials;
..............page:106-112
Microstructure and fatigue properties of TiAl-based alloy with different tungsten contents
Zhen-Jun Yang;Hong-Liang Sun;Ze-Wen Huang;De-Gui Zhu;Liang-Hui Wang;School of Materials Science and Engineering;Key Laboratory of Advanced Technologies of Materials;Ministry of Education;Southwest Jiaotong University;
Zhen-Jun Yang;Hong-Liang Sun;Ze-Wen Huang;De-Gui Zhu;Liang-Hui Wang;School of Materials Science and Engineering;Key Laboratory of Advanced Technologies of Materials;Ministry of Education;Southwest Jiaotong University;
..............page:113-117
Hot deformation behavior and process parameter optimization of Ti22Al25Nb using processing map
Jing-Li Zhang;Hong-Zhen Guo;Hou-Quan Liang;School of Materials Science and Engineering;Northwestern Polytechnical University;
Jing-Li Zhang;Hong-Zhen Guo;Hou-Quan Liang;School of Materials Science and Engineering;Northwestern Polytechnical University;
..............page:118-126