杨永刚
研发部技术主管
副研究员
办公地点: 北京科技大学昌平创新园南楼405
办公电话: 010-62332598
电子邮件: yangyg@ustb.edu.cn
科研方向
[1] 中高锰特种合金钢组织性能构效关系研究
[2] 基于深度学习和机理的材料数字研发模型
[3] 先进钢铁材料轧制冷却仿真及集成计算
[4] 研发生产一体化智能管控技术及平台
[2] 基于深度学习和机理的材料数字研发模型
[3] 先进钢铁材料轧制冷却仿真及集成计算
[4] 研发生产一体化智能管控技术及平台
简历
杨永刚,副研究员,北京科技大学博士,瑞典皇家理工学院(KTH-Royal Institute of Technology)博士后,现任职于北京科技大学工程技术研究院。先后受到瑞典Hugo Carlssons基金会和Gerhard von Hofstens基金会资助、国家自然科学基金青年基金项目、面上项目和十四五国家重点研发计划项目的资助,完成基于高能同步辐射技术的金属材料调控及组织设计相关课题。以第一作者身份在Mater. Sci. Eng. A、Mater. Character.等材料冶金类高水平期刊发表代表性科研论文15篇,第一发明人身份获授权发明专利2项、软件著作权2项。积极响应数字中国的国家政策,在学院和部门领导的带领下,与华为、阿里、鞍钢集团、河钢集团等企业合作,将材料机理、集成计算和研发生产管控技术等研究成果应用到工业产线,共同推动钢铁行业的数字化智能化变革,作为技术负责实施的项目合同金额近千万。
代表性著作
[1]Yang Yonggang, Neding Benjamin, Li Ruizhi, et al. Revealing the interdependence of load partitioning, dislocation density evolution and mechanical behavior of medium Mn steels. Materials Science and Engineering: A,2023, 880, 145330.
[2]Yang Yonggang, Mu Wangzhong, Sun Binhan; et al. New insights to understand the strain-state-dependent austenite stability in a medium Mn steel: An experimental an d theoretical investigation, Materials Science and Engineering A, 2021, 809: 140993
[3]Yang Yonggang, Neding Benjamin, Mu Wangzhong, et al. Revealing the interdependence of microstructure evolution, micromechanics and macroscopic mechanical behavior of multi-phase medium Mn steels, Materials Science and Engineering A, 2022, 839: 142857
[4]Yang Yonggang, Liu Yu, Wei Zhichao, et al. Microstructure characteristics and mechanical performances of the dissimilar welded joint of Q&P980 and Q&P1180 steels subjected to the paint-baking heat treatment, Materials Characterization, 2024, 207: 113473.
[5]Yang Yonggang, Mi Zhenli, Xu Mei, et al. Impact of intercritical annealing temperature and strain state on mechanical stability of retained austenite in medium Mn steel, Materials Science and Engineering A, 2018, 725: 389-397
[6]Yang Yonggang, Liu Xinyue, Li Ruizhi, et al. Impacts of near-Ms austempering treatment on microstructure evolution and bainitic transformation kinetics of a medium Mn steel. Journal of Iron and Steel Research International, 2025,32(1), 249-259.
[7] Yang Yonggang, Zuo Wangnan, Xu Mei, et al. Hot deformation behavior and hot-metal-gas-forming process of V micro-alloyed high manganese steel. Journal of Iron and Steel Research International, 2024, 31(9), 2271-2280.
[2]Yang Yonggang, Mu Wangzhong, Sun Binhan; et al. New insights to understand the strain-state-dependent austenite stability in a medium Mn steel: An experimental an d theoretical investigation, Materials Science and Engineering A, 2021, 809: 140993
[3]Yang Yonggang, Neding Benjamin, Mu Wangzhong, et al. Revealing the interdependence of microstructure evolution, micromechanics and macroscopic mechanical behavior of multi-phase medium Mn steels, Materials Science and Engineering A, 2022, 839: 142857
[4]Yang Yonggang, Liu Yu, Wei Zhichao, et al. Microstructure characteristics and mechanical performances of the dissimilar welded joint of Q&P980 and Q&P1180 steels subjected to the paint-baking heat treatment, Materials Characterization, 2024, 207: 113473.
[5]Yang Yonggang, Mi Zhenli, Xu Mei, et al. Impact of intercritical annealing temperature and strain state on mechanical stability of retained austenite in medium Mn steel, Materials Science and Engineering A, 2018, 725: 389-397
[6]Yang Yonggang, Liu Xinyue, Li Ruizhi, et al. Impacts of near-Ms austempering treatment on microstructure evolution and bainitic transformation kinetics of a medium Mn steel. Journal of Iron and Steel Research International, 2025,32(1), 249-259.
[7] Yang Yonggang, Zuo Wangnan, Xu Mei, et al. Hot deformation behavior and hot-metal-gas-forming process of V micro-alloyed high manganese steel. Journal of Iron and Steel Research International, 2024, 31(9), 2271-2280.
获奖
高端线材全流程数字化仿真及质量性能控制关键技术,冶金科学技术奖二等奖
专利
[1] 一种淬火配分QP980与QP1180非等强度钢材的焊接工艺,发明专利,202211213430.2
[2] 一种淬火配分钢及其加工方法,发明专利,202211214804.2
[2] 一种淬火配分钢及其加工方法,发明专利,202211214804.2
科研项目
[1]纵向基金项目,基于DIMT化学和力学驱动力的中锰钢奥氏体稳定性研究
[2]企业合作项目,水冷型离心球墨铸铁管铸造工艺仿真及壁厚均匀性提升技术攻关
[3]纵向科研业务费,高强Fe-Mn基合金层错几率和组织性能调控机制研究
[4]企业合作项目,金属材料加工技术、加工工艺的仿真模拟、材料力学性能及失效研究
[5]企业合作项目,板带材组织性能在线智能预测及推优应用研究
[6]企业合作项目,基于云仿真、研发知识和研发流程协同的数字研发平台
[7] 企业合作项目,全生命周期智慧质量管线钢性能预测及工艺寻优
[2]企业合作项目,水冷型离心球墨铸铁管铸造工艺仿真及壁厚均匀性提升技术攻关
[3]纵向科研业务费,高强Fe-Mn基合金层错几率和组织性能调控机制研究
[4]企业合作项目,金属材料加工技术、加工工艺的仿真模拟、材料力学性能及失效研究
[5]企业合作项目,板带材组织性能在线智能预测及推优应用研究
[6]企业合作项目,基于云仿真、研发知识和研发流程协同的数字研发平台
[7] 企业合作项目,全生命周期智慧质量管线钢性能预测及工艺寻优