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趙鵬

E-mail：pengzhao@ecust.edu.cn
職位：
職稱：副教授，碩士生導(dǎo)師
 

個(gè)人簡(jiǎn)介：

2003年獲山東大學(xué)材料加工工程專業(yè)碩士學(xué)位,2007年12于上海交通大學(xué)獲工學(xué)博士學(xué)位。2008年進(jìn)入華東理工大學(xué)機(jī)械工程學(xué)院，歷任博士后、講師、副教授。多年來(lái)一直從事高溫構(gòu)件的結(jié)構(gòu)完整性等方面的研究，主持國(guó)家自然科學(xué)基金（面上、青年）、國(guó)家重點(diǎn)研發(fā)計(jì)劃（子任務(wù)）、上海市自然科學(xué)基金，國(guó)家重大科技專項(xiàng)（外協(xié)）等課題研究。主要在損傷/斷裂、壽命預(yù)測(cè)及力學(xué)/本構(gòu)模型等方面有著長(zhǎng)期的研究和工作積累。

聯(lián)系方式：

郵箱：pengzhao@ecust.edu.cn

電話：021-64251623/021-64252601

研究方向

[1]      高溫構(gòu)件的變形及損傷理論

[2]      結(jié)構(gòu)的蠕變疲勞破壞及壽命預(yù)測(cè)技術(shù)

[3]      面向服役行為的數(shù)字孿生技術(shù)

承擔(dān)科研項(xiàng)目

?  國(guó)家重點(diǎn)研發(fā)計(jì)劃項(xiàng)目課題子任務(wù)，金屬材料蠕變變形的數(shù)字孿生仿真方法，2022/01-2025/12，主持。

?  上海市自然科學(xué)基金，疲勞載荷作用下高溫緊固件應(yīng)力松弛機(jī)理及預(yù)測(cè)模型研究，2021/07-2024/06,主持。

?  國(guó)家重大科技專項(xiàng)/上海核工程研究設(shè)計(jì)院，2021/03-2022/03，主持。

?  國(guó)家自然科學(xué)基金面上項(xiàng)目，先進(jìn)汽輪機(jī)轉(zhuǎn)子蠕變疲勞交互作用下的微觀不均勻形變及壽命模型，2015/01-2018/12，主持。

?  國(guó)家自然科學(xué)基金青年基金，超超臨界機(jī)組高溫部件棘輪損傷機(jī)理及壽命預(yù)測(cè)方法，2011/01-2013/12，主持。

獲獎(jiǎng)成果

代表性著作

專著：

軒福貞, 趙鵬.高溫構(gòu)件循環(huán)黏塑性行為及本構(gòu)理論. 北京：科學(xué)出版社，2021

期刊論文：

[1]      Liu Z, Gong JG*, Zhao P, Zhang XC, Xuan FZ*. Stress-controlled creep-fatigue interaction behavior and damage mechanism of 9-12%Cr steel at elevated temperature: effects of holding time and loading rate. International Journal of Fatigue, 2022, 156: 106684.

[2]      Zhao P, Lu TY, Gong JG*, Xuan FZ, Berto F. A strain energy density based life prediction model for notched components in the low cycle fatigue regime. International Journal of Pressure Vessels and Piping, 2021, 193: 104458. 

[3]      Zhao P, Lu TY, Gong JG*, Xuan FZ. A modified stress field intensity approach for fatigue life prediction of components, Materials and Design, 2020, 190: 108537 (SCI/EI)

[4]      Zhao P, Xuan FZ*, Wang C. A physically-based model of cyclic responses for martensitic steels with the hierarchical lath structure under different loading modes. Journal of the Mechanics and Physics of Solids. 2019, 124: 555-576. (SCI/EI)

[5]      Wang C, Xuan FZ*, Zhao P, Guo SJ. Effect of cyclic loadings on stress relaxation behaviors of 9–12%Cr steel at high temperature. Mechanics of Materials, 2021, 156: 103787

[6]      Niu TY, Zhao P, Zhu G, Gong JG*, Xuan FZ*. Stress state dependent creep damage behavior of 9–12% Cr steel notched components. Materials Science & Engineering A, 2021, 804: 140762

[7]      Zhao P, Xuan FZ*, Wu DL. Cyclic softening behaviors of modified 9–12%Cr steel under different loading modes: Role of loading levels. International Journal of Mechanical Sciences, 2017, 131–132: 278–285

[8]      Zhao P, Xuan FZ*. Ratchetting behavior of advanced 9–12% chromium ferrite steel under creep-fatigue loadings: Fracture modes and dislocation patterns. Materials Science and Engineering A, 2012, 539: 301–307

[9]      Zhao P, Xuan FZ*. Microstructural stability and its effect on ratchetting effect of advanced 9-12%Cr ferrite steel at high temperature. Procedia Engineering, 2012, 27: 1588-1595.

[10]   Zhao P, Xuan FZ*. Ratchetting behavior of advanced 9–12% chromium ferrite steel under creep-fatigue loadings. Mechanics of Materials, 2011, 43: 299-312

[11]   Zhao P, Xuan FZ*. Study on Creep-Fatigue Damage Evaluation for Advanced 9-12% Chromium Steels under Stress Controlled Cycling. Acta Metallurgica Sinica (English Letters), 2011, 24: 148-154

[12]   Zhang SL, Xuan FZ*, Guo SJ, Zhao P. The role of anelastic recovery in the creep-fatigue interaction of 9–12% Cr steel at high temperature. International Journal of Mechanical Sciences, 2017, 122: 95–103.

[13]   Zhang JF，Xuan FZ*，Xiang YX，Zhao P. Effects of Cyclic and Monotonic Deformations on Nonlinear Ultrasonic Response of Austenitic Stainless Steel: A Comparative Study. Journal of Materials Engineering and Performance，2016, 25：2008-2016.

[14]   Wu DL, Xuan FZ*，Guo SJ, Zhao P. Uniaxial mean stress relaxation of 9-12% Cr steel at high temperature: experiments and viscoplastic constitutive modeling. Internal journal of plasticity, 2016, 77: 156-73.

[15]   Wu DL, Zhao P，Wang QQ, Xuan FZ*. Cyclic behavior of 9-12% Cr steel under different control modes in low cycle regime: A comparative study, Internal journal of fatigue, 2015, 70: 114-122.

[16]   Zhang JF, Xuan FZ*，Xiang YX，Zhao P. Experimental insight into the cyclic softening/hardening behavior of austenitic stainless steel using ultrasonic higher harmonics. EPL, 2014, 108: 46004.