科 研 项 目 |
[1] 河北省自然科学基金项目,E2022402092,孪晶诱发塑性钢的循环疲劳特性及微观损伤机理研究,2022/01-2024/12,10万,在研,主研,第二参与人。 [2]河北省高等学校科学技术研究项目, BJK2024022, 超细晶MoCoB-Co金属陶瓷的制备与晶粒长大抑制机理研究,2022/01-2024/12,10万,主研,第三参与人。 [3]河北省高等学校科学技术研究项目,CXY2024040, 铁镍基合金关键冶炼、成形技术及极端服役环境下损伤机理研究,在研,20万,主研,第二参与人。 [4] 河北省自然科学基金项目,E2020402101,过冷奥氏体大变形协同亚MS 等温淬火作用下纳米贝氏体形成机制及其强韧化机理,2020/01-2023/12,6万,在研,主持。 [5] 河北省高等学校科学技术研究项目,QN2020136,低碳超强纳米贝实体钢相变演化及增强增韧机理研究,2020/01-2022/12,3万,主持。 [6] 999策略白菜手机论坛校科学基金项目,低碳无碳化物贝氏体钢的制备及其强韧化机理研究,2018.06-2020.06,5万,结题,主持。 [7] 邯郸市科学技术研究与发展计划项目, 管线用纳米贝氏体钢组织调控、可焊接性及增强增韧机理研究, 2020/01-2022/12, 0.1万,主持。 [8] 河北省外专百人计划项目,个性化金属支架设计及增材制造, 2020/07-2020/07,50万,结题,参加。 [9] 大功率风电机组用轴承钢关键技术开发,国家科学技术部863计划,主研,632万,2012-2015,632万,参加。 [10] 国家自然科学基金项目,低碳纳米结构超级贝氏体钢的组织调控及强韧化机理研究, 2018/01-2020/12,60万元,结题,主研。 [11] 国家自然科学基金项目,5180105, 低碳纳米无碳化物贝氏体钢强韧化的残余奥氏体多尺寸效应研究,2018/01-2020/12,23万,结题,主研。 [12] 河北省自然科学基金项目, 无碳化物贝氏体钢的疲劳断裂行为与机制研究,6万, 2015/01-2017/12,结题,主研。 [13] 河北省高等学校科学技术研究项目,基于TRIP效应的轻质高强度贝氏体钢多阶段变形行为及强化机理研究,2020/01-2022/12,8万,主研。 [14] 河北省高等学校科学技术研究项目, 基于力学方法研究纳米贝氏体钢的腐蚀行为与微结构关系, 2018-2020, 主研。 [15]企业委托横向技术开发课题,HK2022000557,应力变形板材精准高效矫平设备技术开发,2022/10-2023/04, 32.3万,结题,主持。 [16]企业委托横向技术开发课题,HK2022000248,智能棒材送料系统及装置技术开发,2022/09-2023/05, 18万,结题,主持。 [17] 企业委托横向技术开发课题, HK2022000353,建筑用螺丝生产加工冷却系统技术开发,2021/09-2022/01, 21万,结题,主持。 |
论 文(著 作) |
[1] Jiabin Wang,Nan Zhang, Yanhui Wang,Hongsheng Zhao, Huanming Chen,Hongtao Zeng, Leijie Zhao, Qian Yang, Bingyin FengDirect Z-scheme construction of C2N/Mg(OH)2 heterojunction and first-principles investigation of photocatalytic water splitting,International Journal of Hydrogen Energy 53 (2024) 247-255. [SCI] [2] 王艳辉,李雪峰,刘柏松,徐东,姚菲,曾洪涛,赵雷杰,武东东,李丽,热处理工艺对微合金化等温马氏体轴承钢组织与力学性能的影响[J]. 材料热处理学报,2023,44(11):176-183. [3] Leijie Zhao; Jiahui Li; Qian Yang; Yanhui Wang; Xiliang Zhang; Hezong Li; Zhinan Yang; Dong Xu; Jiwei Liu; Study on Friction and Wear Properties of New Self-Lubricating Bearing, Materials, Crystals , 2022, 12(6): 834-834. [SCI] [4] Guoqiang Yang , Jianyu Zhang, Yayu Chen, Hongtao Zeng, Leijie Zhao , Yanhui Wang, Effect of Mn addition on the microstructure, interface structure and mechanical properties of MoCoB-Co cermets prepared by in-situ synthesis, Ceramics International,2023, 49,16477-16485. [SCI] [5] Qian Zhou; Lihe Qian; Jiangying Meng; Feng Qin; Leijie Zhao,Monotonic Tensile and Cyclic Deformation Behaviors of Carbide‐Free Bainitic Steel Subjected to Austempering and Tempering After Air Cooling, Steel Research International, 2022, 93(7): 2200039-2200039.[SCI] [6] 熊鹏,赵雷杰*,张孜,王艳辉,岳赟,郝晓歌. 无碳化物贝氏体钢摩擦磨损性能研究进展[J]. 技术与市场,2022,29:11-13. [7] 郝晓歌,赵雷杰*,王艳辉,张孜,马鹏辉,岳赟,熊鹏. 三种不同碳含量合金钢等温淬火后组织与性能, 2023,48:46-51. [8] Xiliang Zhang; Junhui Yan; Tao Liu; Hongji Liu; Yindong Shi; Qian Zhou; Leijie Zhao; Zheng Lv,Microstructural evolution and mechanical behavior of a novel heterogeneous medium Mn cold-rolled steel,Materials Science and Engineering A 2021, 800: 140344-14034. [9] Zhao Leijie, Qian Lihe*, Zhou Qian, Li Dongdong, Wang Tongliang, Jia Zhigeng, Meng Jiangying and Zhang Fucheng. The combining effects of ausforming and below-Ms or above-Ms austempering on the transformation kinetics, microstructure and mechanical properties of low-carbon bainitic steel[J]. Materials and Design, 2019, 183: 108-123. [SCI ] [10] Zhang Xiliang; Huafeng Hou; Liu Tao; Liu Hongji; Zhou Qian; Zhao Leijie; Xiaoyan Liu; Cui Haoxuan,The combining effects of ausforming and below-Ms or above-Ms austempering on the transformation kinetics, microstructure and mechanical properties of low-carbon bainitic steel, Materials and Design, 2019, 183: 108-123. [SCI ] [11] Zhang Xiliang; Huafeng Hou; Liu Tao; Liu Hongji; Zhou Qian; Zhao Leijie; Xiaoyan Liu; Cui Haoxuan, Microstructure and Mechanical Properties of a Novel Heterogeneous Cold-rolled Medium Mn Steel with High Product of Strength and Ductility, Chinese Journal of Materials Research, 2019, 33(12): 927-934. [SCI ] [12] Zhao Leijie, Qian Lihe*, Meng Jiangying, Zhou Qian, Zhang Fucheng. Below-Ms austempering to obtain refined bainitic structure and enhanced mechanical properties in low-C high-Si/Al steels [J]. Scripta Materialia, 2016, 112: 96-100. [SCI] [13] Zhao Leijie, Qian Lihe*, Liu Shuai, Zhou Qian, Meng Jiangying, Zheng Chunlei and Zhang Fucheng. Producing superfine low-carbon bainitic structure through a new combined thermo-mechanical process [J]. Journal of Alloy and Compounds, 2016, 685: 300-303. [SCI] [14] Meng Jiangying, Zhao Leijie, Huang Fan, Zhang Fucheng, Qian Lihe*. Isothermal Transformation, Microstructure and Mechanical Properties of Ausformed Low-Carbon Carbide-Free Bainitic Steel[J]. Materials Science Forum, 2018, 941: 329-333. [EI] [15] Penghui Ma*, Jie Shen, Shuai Liu, Qian Zhou, Leijie Zhao, Lihe Qian. Effects of Strain Rate on Low-Cycle Fatigue Behaviors of Fe–22Mn–0.6C TWIP Steel[J]. Advanced Engineering Materials, 2019, 1801042: 1-6. [SCI] [16] 张喜亮; 侯华峰; 刘涛; 刘宏基; 周骞; 赵雷杰; 刘晓艳; 崔好选, 一种新型高强塑积异质冷轧中锰钢的力学性能, 材料研究学报, 2019, 33(12): 927-934. [17] Zhou Qian, Qian Lihe, Zhao Leijie, Zhu Qingchun, Meng Jiangying, Zhang Fucheng. Loading-rate dependence of fracture absorption energy of low-carbon carbide-free bainitic steel[J]. Journal of Alloys and Compounds, 2015, 650: 944-948. [SCI] [18] Zhou Qian, Qian Lihe *, Meng Jiangying, Zhao Leijie, Zhang Fucheng. Low-cycle fatigue behavior and microstructural evolution in a low-carbon carbide-free bainitic steel[J]. Materials and Design, 2015, 85: 487-496. [SCI] [19] Meng Jiangying, Feng Ying, Zhao Leijie, Qian Lihe*. Effects of austempering temperature on strength, ductility and toughness of low-C high-Al/Si carbide-free bainitic steel[J]. Journal of Materials Engineering and Performance, 2015, 24(8): 3068-3076. [SCI]. |
发明专利 |
[1] 钱立和,赵雷杰。一种低碳高硬度纳米贝氏体钢的制备方法,20171229.中国,ZL201510881199.8 [2] 赵雷杰,马亚鹏,王艳辉,岳赟,周骞,崔利民,孙海涛,李丽,曾洪涛,一种具有纳米板条结构的高强塑积微合金钢及其制备方法,202311514384.4,实质审查。 [3] 张喜亮,刘涛; 刘宏基; 周骞; 吕征; 赵雷杰; 崔好选,一种含微量锆的热轧中锰TRIP钢及其制备方法,201911018.中国,CN201910182071.0 [4] 张喜亮; 刘涛; 刘宏基; 周骞; 吕征; 石银冬; 赵雷杰, 一种高强塑积冷轧中锰钢及其制备方法,20200925, 中国, CN201910144522.1 [5] 张喜亮; 刘涛; 刘宏基; 周骞; 吕征; 石银冬; 赵雷杰, 一种具有多形貌多尺度奥氏体组织的高强塑积冷轧中锰TRIP钢及其制备方法,20201124, 中国, CN201910144518.5 [6] 一种化学镀铜用离子钯活化液及其制备方法, 曾洪涛,刘艺哲,王泽娟,赵雷杰,王艳辉,陈庆安,杨国强,申文飞,李丽,2023115642912,实质审查。 |