科研项目和代表性论文 Research & Honor
发表论文
1. Wang, H., Thomas, J., Okuniewski, M. A., & Tomar, V. (2020). Constitutive modeling of δ-phase zircaloy hydride based on strain rate dependent nanoindentation and nano-scale impact dataset. International Journal of Plasticity, 133, 102787. (中科院力学类SCI一区, Top期刊, JCR Q1区)
2. Wang, H., Thomas, J., Okuniewski, M. A., & Tomar, V. (2020). Microstructure dependent thermal conductivity measurement of Zircaloy-4 using an extended Raman thermometry method. Journal of Nuclear Materials, 539, 152338. (中科院核科学技术类SCI一区, Top期刊, JCR Q1区)
3. Wang, H., Dhiman, A., Ostergaard, H. E., Zhang, Y., Siegmund, T., Kruzic, J. J., & Tomar, V. (2019). Nanoindentation based properties of Inconel 718 at elevated temperatures: A comparison of conventional versus additively manufactured samples. International Journal of Plasticity, 120, 380-394. (中科院力学类SCI一区, Top期刊, JCR Q1区)
4. Wang, H., Biswas, S., Han, Y., & Tomar, V. (2018). A phase field modeling based study of microstructure evolution and its influence on thermal conductivity in polycrystalline tungsten under irradiation. Computational Materials Science, 150, 169-179. (中科院工程技术类SCI三区, JCR Q2区)
5. Biswas, S., Schwen, D., Wang, H., Okuniewski, M., & Tomar, V. (2018). Phase field modeling of sintering: Role of grain orientation and anisotropic properties. Computational Materials Science, 148, 307-319. (中科院工程技术类SCI三区, JCR Q2区)
6. Mao, K., Wang, H., Wu, Y., Tomar, V., & Wharry, J. P. (2018). Microstructure-property relationship for AISI 304/308L stainless steel laser weldment. Materials Science and Engineering: A, 721, 234-243. (中科院工程技术类SCI二区, Top期刊, JCR Q2区)
7. Zhang, Y., Wang, H., & Tomar, V. (2018). Visualizing stress and temperature distribution during elevated temperature deformation of IN-617 using nanomechanical Raman spectroscopy. Jom, 70(4), 464-468. (中科院工程技术类SCI三区, JCR Q2区)
8. Mohanty, D. P., Wang, H., Okuniewski, M., & Tomar, V. (2017). A nanomechanical Raman spectroscopy based assessment of stress distribution in irradiated and corroded SiC. Journal of Nuclear Materials, 497, 128-138. (中科院核科学技术类SCI一区, Top期刊, JCR Q1区)
9. Wang, H., Tomar, V. Damage Modeling of Hydrided Structure Based on Extended Gurson-Tvergaard-Needleman Model. (准备中)
学术会议
1. 149th Annual Meeting of the Minerals, Metals & Materials Society, Feb 2020. San Diego, California, US.
Topics:
· Microstructure Dependent Thermal Conductivity Measurement of Zircaloy-4 Using an Extended Raman Thermometry Method.
· Mechanical Properties of Additively Manufactured Inconel 718 at High-temperature.
· In-situ Measurement of Dynamic Stress due to Hyper-velocity Impact Using Nanosecond Resolved Raman Spectroscopy.
2. 148th Annual Meeting of the Minerals, Metals & Materials Society, Mar 2019. San Antonio, Texas, US.
Topics:
· Mesoscale Simulation of Microstructure Dependent Facture in Hydrided Zircaloy Structure.
· Visualizing Stress Distribution of Irradiated and Corroded SiC Using Nano-mechanical Raman Spectroscopy.
3. 147th Annual Meeting of the Minerals, Metals & Materials Society, Mar 2018. Phoenix, Arizona, US.
Topics:
· A Model Coupling Hydrides Formation and Mechanical Behavior of Zircaloy Cladding during Fuel Rod Lifecycle
· Mechanical Property Measurements of Zicaloy Hydride Structure by Using Nanoindentation and Nano Mechanical Raman Spectroscopy.
· Implementation of a Multi-physics Model for Simulating Microstructural Evolution during Sintering.
4. Annual Meeting of the American Nuclear Society, Nov 2017. Washington, DC., US.
Topics: Thermal Conductivity Measurement of Zircaloy-4: Extended Raman Thermometry Method
获奖经历
2011年第三届国际先进材料与工艺技术学会(SAMPE)超轻复合机翼学生竞赛,设计与制造工艺三等奖。
王 昊(特聘教授)
导师类别:-
研究方向:油气储运安全工程,材料科学与工程
