趙鵬程

2022.08~ 陝西天成航空材料有限公司 ^[16]  高級工程師 ^[17] 

2023.07~ 西安交通大學 博士後（在職）

2020.07~2022.08 華東理工大學 博士後 ^[1] 

2017.12~2018.01 英國牛津盧瑟福·阿普爾頓實驗室（RAL） 中子衍射試驗員

2016.09~2020.07 華東理工大學 博士

2013.09~2016.07 蘭州理工大學 碩士

獲第一屆陝西省博士後創新創業大賽總決賽材料組銅獎 ^{[16]  [19]}  、博士研究生國家獎學金（2019） ^[24]  、上海市工程熱物理學會優秀博士學位論文獎（2021） ^[25]  ，2021“博新計劃”第一輪入圍 ^[20]  ，擔任《Metals》等SCI期刊Special Issue客座編輯 ^[23]  。2016全國全接觸空手道俱樂部爭霸賽（南京站）男子中級組季軍 ^[27]  ，勝寒協會DBC會員 ^[28]  等。

主持國家自然科學基金青年科學基金 ^{[22]  [26]}  、中國博士後科學基金第70批面上項目 ^[21]  、上海市“超級博士後”激勵計劃 ^[1]  等項目。

[1] Zhao, P; Chen, B* ; Kelleher, J; Yuan, G; Guan, B; Zhang, X* ; Tu, S; High-cycle-fatigue induced continuous grain growth in ultrafine-grained titanium, Acta Materialia, 2019, 174: 29-42. ^[3-4] 

[2] Zhao, P. -C.; Yuan, G. -J.; Wang, R. -Z.; Guan, B.; Jia, Y. -F.*; Zhang, X. -C.* ; Tu, S. -T.; Grain-refining and strengthening mechanisms of bulk ultrafine grained CP-Ti processed by L-ECAP and MDF, Journal of Materials Science & Technology, 2021, 83: 196-207. ^[5] 

[3] Zhao, P. -C.; Guan, B.; Tong, Y. -G.; Wang, R. -Z.; Li, X.; Zhang, X. -C.* ; Tu, S. -T.; A quasi-in-situ EBSD study of the thermal stability and grain growth mechanisms of CoCrNi medium entropy alloy with gradient-nano-grained structure, Journal of Materials Science & Technology, 2021, 109: 54-63. ^[6] 

[4] Zhao, P. -C.; Chen, B.* ; Zheng, Z. -G.; Guan, B.; Zhang, X. -C.* ; Tu, S. -T.; Microstructure and Texture Evolution in a Post-dynamic Recrystallized Titanium During Annealing, Monotonic and Cyclic Loading, Metallurgical and Materials Transactions A, 2020, 52: 394-412. ^[7] 

[5] Zhao, P. -C.; Li, S. -X.; Jia, Y. -F.* ; Zhang, C. -C.; Zhang, X. -C.*; Tu, S. -T.; Very high-cycle fatigue behaviour of Ti-6Al-4V alloy under corrosive environment, Fatigue and Fracture of Engineering Materials and Structures, 2018, 41(4): 881-893. ^[8] 

[6] Xie Y , Zhao PC* , Tong YG* , et al. Precipitation and heterogeneous strengthened CoCrNi-based medium entropy alloy with excellent strength-ductility combination from room to cryogenic temperatures[J]. Science China Technological Sciences, 2022, 65: 1780-1797. ^[9] 

[7] Zhuang Li, Pengcheng Zhao*, Tiwen Lu, Yonggang Tong, Binhan Sun, Ning Yao, Yu Xie, Bolun Han, Xiancheng Zhang*, Shantung Tu; Journal of Materials Science & Technology. 2022, 135: 142-155. ^[10] 

[8] 趙鵬程* ; 俞樹榮; 李淑欣; 何燕妮; 軸承鋼GCr15高速衝擊絕熱剪切帶的研究, 材料科學與工藝, 2016, 24(6): 34-38. ^[2] 

[9] Li, S*; Zhao, P; He, Y; Yu, S; Microstructural evolution associated with shear location of AISI 52100 under high strain rate loading, Materials Science and Engineering A-structural Materials Properties Microstructure and Processing, 2016, 662: 46-53. ^[14] 

[10] Yuan, GJ; Zhao, PC; Zhang, XC; Tu, ST; Wang, XG; Zhang, CC; (2019) Microscopic Strain Localization of Ti-6Al-4V Alloy Under Uniaxial Tensile Loading, Mechanical Fatigue of Metals. Structural Integrity, vol 7. Springer, Cham. ^[13] 

[11] Wang RZ; Cheng LY; Zhu SP; Zhao PC; Miura H; Zhang XC*; Tu ST; Semi-quantitative creep-fatigue damage analysis based on diffraction-based misorientation mapping and the correlation to macroscopic damage evolutions, International Journal of Fatigue, 2021, 149:106227. ^[11] 

[12] Cheng Lv-Yi, Wang Run-Zi*, Wang Ji, Zhu Shun-Peng, Zhao Peng-Cheng, Miura Hideo, Zhang Xian-Cheng, Tu Shan-Tung, Cycle-dependent creep-fatigue deformation and life predictions in a nickel-based superalloy at elevated temperature, International Journal of Mechanical Sciences, 2021, 206:106628. ^[12] 

[13] Ning Yao, Tiwen Lu,∗, Kai Feng, Binhan Sun∗∗, Run-Zi Wang, Ji Wang, Yu Xie, Pengcheng Zhao, Bolun Han, Xian-Cheng Zhang∗∗, Shan-Tung Tu, Ultrastrong and ductile additively manufactured precipitation-hardening medium-entropy alloy at ambient and cryogenic temperatures, Acta Materialia, 2022, 236: 118142. ^[15] 

[14] Yu Xie; Tiwen Lu; Pengcheng Zhao; Binhan Sun; Ning Yao; Xiyu Chen; Jianping Tan; Xian-Cheng Zhang; Shan-Tung Tu, Cryoforged nanotwinned CoCrNi medium-entropy alloy with exceptional fatigue property at cryogenic temperature, Scripta Materialia, 2023, 237: 115718.