Haoyu Xu

Beijing University of Technology

100 Ping Le Yuan

Chaoyang District

Beijing, 100020

China

  • Beijing University of Technology

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Research on the Atomic-Scale Fracture Mechanism of Nickel-Based Superalloy Dd6 at High Temperature by a New In-Situ Technique in Transmission Electron Microscopy

Number of pages: 15 Posted: 11 Sep 2024
Jiabao Zhang, Xudong Yang, Wei Li, Haowei Wang, Haoyu Xu, Zhipeng Li, Jixiang Cai, Haixin Li, Jianfei Zhang, Shengcheng Mao, Ze Zhang and Xiaodong Han
Beijing University of Technology, Beijing University of Technology, Beijing University of Technology - Institute of Microstructure and Property of Advanced Materials, Beijing University of Technology, Beijing University of Technology, Beijing University of Technology, Beijing University of Technology, Beijing University of Technology, Beijing University of Technology, Beijing University of Technology - Institute of Microstructure and Property of Advanced Materials, Zhejiang University and Beijing University of Technology - Institute of Microstructure and Properties of Advanced Material
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Abstract:

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In-situ TEM, Thermal and Mechanical Testing Holder, High resolution TEM, Nickel-based Superalloy DD6, fracture