工程力学系
电子邮件:zhao.py@sjtu.edu.cn
通讯地址:上海市东川路800号木兰船建大楼A901
教育经历:
2009.09-2014.12,The Ohio State University,博士
2005.09-2009.07,复旦大学,学士
工作经历:
2019.12-至今,上海交通大学,船建学院,长聘教轨副教授
2016.06-2019.11,The Ohio State University,研究助理
2015.01-2016.05,The Ohio State University,博士后
赵澎阳,博士,男,1986 年生;2009 年于复旦大学获得物理学学士学位;2014 年于美国俄亥俄州立大学(The Ohio State University)获得材料科学与工程博士学位;毕业后留校开展科研工作,先后担任博士后研究员和研究助理,主持和参与了美国国家自然科学基金会(NSF)、美国能源部-国家能源技术实验室(DOE-NETL)、美国通用电气(GE)等组织机构的多个科研项目;2019 年 12 月通过长聘体系入职上海交通大学船舶海洋与建筑工程学院,现为长聘教轨副教授;先后入选各类人才项目计划资助,包括国家级青年人才项目,上海海外高层次人才引进计划,上海市浦江人才计划等。
长期从事先进材料微介观结构演化与微观力学的物理建模和数值模拟,研究方向包括力热载荷下的微观结构与微观力学耦合演化、基于多尺度物理和机器学习的先进模拟方法、固态相变与塑性变形的微观机理等。
2020-至今 上海市力学学会会员
主持及参与多项包括国家自然科学基金、科技部、上海市科技委以及企业的国家和省部级科研项目。
· Xiong, Z., Yang, P., Zhao, P.* (2024). Physics-driven neural networks for nonlinear micromechanics. International Journal of Mechanical Sciences, 273, 109214.
· Qiu, D., Feng, L., Zhao, P.* (2024). Modulating superdislocation cores and planar faults of Ni3Al through applied stresses. Computational Materials Science, 237, 112865.
· Yang, P., Zhao, P.* (2023). Void nucleation at dislocation boundaries aided by the synergy of multiple dislocation pile-ups. International Journal of Plasticity, 171, 103779.
· Qiu, D., Zhao, P.*, Wang, Y. (2021). A general phase-field framework for predicting the structures and micromechanical properties of crystalline defects. Materials & Design, 209, 109959.
· Im, S., Wang, Y., Zhao, P., Yoo, G. H., Chen, Z., Calderon, G., ..., Hwang, J. (2021). Medium-range ordering, structural heterogeneity, and their influence on properties of Zr-Cu-Co-Al metallic glasses. Physical Review Materials, 5(11), 115604.
· Liu, J., Zhang, X., Wang, R., Long, F., Zhao, P.*, Liu, L.* (2021). A mosquito-eye-like superhydrophobic coating with super robustness against abrasion. Materials & Design, 203, 109552.
· Qiu, D., Zhao, P.*, Trinkle, D.R., Wang, Y. (2020). Stress-Dependent Dislocation Core Structures Leading to Non-Schmid Behavior. Materials Research Letters, 9, 134-140.
· Zhao, P.*, Song, E.L.T., Wang, Y., & Niezgoda, S. (2020). Finite Strain Phase-Field Microelasticity Theory for Modeling Microstructural Evolution. Acta Materialia, 191,253-269.
· Wang, G., Huang, L., Zhao, P., Zhang, X., Qin, Z., He, W., Liu, F., Nie, Y. (2020). Effect of Heat Treatment on Microstructure and Mechanical Properties of ODS Nickel-Based Superalloy via Strengthening Mechanism. JOM, 72, 3279-3287.
· Wang, D.*, Liang, Q., Zhao, S., Zhao, P., Zhang, T., Cui, L.*, & Wang, Y.* (2019). Phase field simulation of martensitic transformation in pre-strained nanocomposite shape memory alloys. Acta Materialia, 164, 99-109.
· Qiu, D., Zhao, P., Shen, C., Lu, W.*, Zhang, D., Mrovec, M., & Wang, Y.* (2019). Predicting grain boundary structure and energy in BCC metals by integrated atomistic and phase-field modeling. Acta Materialia, 164, 799-809.
· Zhao, P., Shen, C., Savage, M., Li, J., Niezgoda, S., Mills, M., & Wang, Y.* (2019). Slip transmission assisted by Shockley partials across alpha/beta interfaces in Ti-alloys. Acta Materialia, 171, 291-305.
· Zhao, P.*, Mills, M., Wang, Y., & Niezgoda, S. (2018). A homogenized primary creep model of nickel-base superalloys and its application to determining micro-mechanistic characteristics. International Journal of Plasticity, 110, 202-219.
· Im, S., Chen, Z., Johnson, J., Zhao, P., Yoo, G., Park, E., Wang, Y., Muller, D., & Hwang, J.* (2018). Direct determination of structural heterogeneity in metallic glasses using four-dimensional scanning transmission electron microscopy. Ultramicroscopy, 195, 189-193.
· Liu, H., Lin, F., Zhao, P., Moelans, N.*, Wang, Y.*, & Nie, J.* (2018). Formation and autocatalytic nucleation of co-zone A-2 deformation twins in polycrystalline Mg: A phase field simulation study. Acta Materialia, 153, 86-107.
· Zhao, P.*, Shen, C., Niezgoda, S., & Wang, Y. (2018). Heterogeneous gamma’ microstructures in nickel-base superalloys and their influence on tensile and creep performance. International Journal of Plasticity, 109, 153-168.
· Zhao, P.*, Wang, Y., & Niezgoda, S. (2018). Microstructural and micromechanical evolution during dynamic recrystallization. International Journal of Plasticity, 100, 52-68.
· Zhao, P., Shen, C., Li, J., & Wang, Y.* (2017). Effect of nonlinear and noncollinear transformation strain pathways in phase-field modeling of nucleation and growth during martensite transformation. npj Computational Materials, 3(19).
· Zhao, P., Li, J., Hwang, J.*, & Wang, Y.* (2017). Influence of nanoscale structural heterogeneity on shear banding in metallic glasses. Acta Materialia, 134, 104-115.
· Zhao, P., Song, E.L.T., Wang, Y.*, & Niezgoda, S.* (2016). An integrated full-field model of concurrent plastic deformation and microstructure evolution: Application to 3D simulation of dynamic recrystallization in polycrystalline copper. International Journal of Plasticity, 80, 38-55.
· Qiu, D.*, Zhao, P., Shi, R., Wang, Y., & Lu, W.* (2016). Effect of autocatalysis on variant selection of alpha precipitates during phase transformation in Ti-6Al-4V alloy. Computational Materials Science, 124, 282-289.
· Qiu, D., Shi, R., Zhao, P., Zhang, D., Lu, W.*, & Wang, Y.* (2016). Effect of low-angle grain boundaries on morphology and variant selection of grain boundary allotriomorphs and Widmanstätten side-plates. Acta Materialia, 112, 347-360.
· Zhao, P., Li, J.*, & Wang, Y.* (2014). Extended defects, ideal strength and actual strengths of finite-sized metallic glasses. Acta Materialia, 73, 149-166.
· Zhao, P., Li, J.*, & Wang, Y.* (2013). Heterogeneously randomized STZ model of metallic glasses: Softening and extreme value statistics during deformation. International Journal of Plasticity, 40, 1-22.
主讲本科生课程《理论力学》
主讲研究生课程《微观弹性力学(Microelasticity)》
国家级青年专家项目
上海海外高层次人才引进计划
上海市浦江人才计划
