[1] Wu Chuan, Dong Xiao chuan. MP-HCR microstructure induced activation mechanism of different slip systems and strengthening toughening effect in Ti6554 during low-temperature tension. Materials Science & Engineering A 962 (2026) 150189 (SCI 1区). [2] Wu Chuan, Liu Bao xi.βphase transformation and dynamic recrystallization of a metastable β-Ti6554 alloy during electrically assisted tension. Journal of Materials Research and Technology 37 (2025) 3661–3677 (SCI 1区). [3] Wu Chuan, et al. Microstructural evolution and mechanical properties of Ti6Al4V alloy prepared by the multi-pass hot caliber rolling at 700 and 800℃ with different reductions. Materials Characterization 222 (2025) 114816 (SCI 2区) [4] Wu Chuan, et al. Constitutive model and strengthening and ductility mechanisms of Ti6554 alloy with caliber rolled microstructure during cryogenic tension. Advances in Manufacturing, https://doi.org/10.1007/s40436-025-00579-4(SCI 2区) [5] Wu Chuan, Li Hong wei, et al. Electrical-thermal-mechanical coupled modeling and simulation on deformation behaviors of Ti6554 alloy in electrically-assisted micro-tension. Computational Materials Science 231 (2024) 112567 (SCI 3区) [6] Liu Bao xi, Deng Xiang peng, Wu Chuan(通讯). Warm caliber rolling metastable β titanium alloy to obtain high strength and ductility by high-density low-angle grain boundary and deformation twinning. Journal of Alloys and Compounds 1051 (2026) 185933 (SCI 2区) [7] Liu Bao xi, Deng Xiang peng, Wu Chuan(通讯). Using severe warm caliber rolling (SWCR) to obtain heterostructured titanium alloy. Materials Science & Engineering A 956 (2026) 149872 (SCI 1区) [8] Wu Chuan,et al. Experimental and simulated investigation of the deformation behavior and microstructural evolution of Ti6554 titanium alloy during an electropulsing-assisted microtension process. Materials Science & Engineering A 838 (2022) 142745 (SCI 1区) [9] Wu Chuan, et al. Experimental investigation on dynamic phase transformation and texture evolution of Ti55531 high strength titanium alloy during hot compression in the α+β region, Materials Science and Engineering: A, 2020, 773: 138851 (SCI 1区) [10] Wu Chuan, Zhan Mei(通讯). Effects of heat treatments on the microstructural evolution, mechanical properties and fracture mechanism of a near-Ti55531 titanium alloy. Journal of Alloy and Compound ,2019,805:1144-1160 (SCI 2区) [11] Wu Chuan, Huang Liang. Hot deformation and dynamic recrystallization of a near-beta titanium alloy in the beta single phase region. Vacuum, 2018, 156: 384-401 (SCI 2区) [12] Wu Chuan, Han Shuang. Hot deformation behavior and dynamic recrystallization characteristics in a low- alloy high- strength Ni–Cr–Mo–V steel. Acta Metallurgica Sinica (English Letters). 2018, 31 :963-974 (SCI 3区) [13] Wu Chuan, Jia Bing, Han Shuang. Modeling and simulation of deformation behavior and dynamic recrystallization of a low carbon low alloy steel during hot compression by coupling a cellular automation with finite element. Journal of Materials Engineering and Performance, 2018, 28(2): 938-955 (SCI 3区) [14] Wu Chuan, Meng Qing ling. Microstructural evolution of a steam turbine rotor subjected to a water quenching process: numerical simulation and experimental verification. Advances in Manufacturing, 2019,7:84-104 (SCI 3区) [15] Wu Chuan, Zhan Mei. Effect of solution plus aging heat treatment on microstructural evolution and mechanical properties of near-beta tianium alloy. Transactions of Nonferrous Metals Society of China, 2019,29:997-1006, accepted (SCI 2区) [16] Wu Chuan, Han shuang. Microstructural evolution and mechanical properties of a low alloy high strength Ni-Cr-Mo-V steel during heat treatment process. Materials Science and Engineering, 2018, 359: 20-27 (EI) [17] 彭志伟,武川(通讯). Ti6554 钛合金 β 相区动态再结晶元胞自动机模拟. 塑性工程学报, ,2025,32(2):163-171(中文核心) [18] 彭志伟,武川(通讯). 基于机器学习与有限元相结合的 Ti6554合金热挤压棒材组织均匀性调控. 精密成形工程,2024,16(8):91-101(中文核心) [19]时文才, 武川(通讯). 考虑韧性损伤的 Ti6554 电塑性本构模型建立及应用. 塑性工程学报, ,2023,30(12):175-183(中文核心) | 
