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学科专业名称
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080500 材料科学与工程(材料科学与工程学院)
085600 材料与化工(材料科学与工程学院) |
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学 术 职 衔
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硕士生导师
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导 师 姓 名
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张光宗
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所获最高学位及单位
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工学博士、东北大学
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职 称
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副教授
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工 作 部 门
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连续挤压教育部工程研究中心
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联 系 电 话
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0411-84109275
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电 子 邮 箱
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gzzhang@djtu.edu.cn
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研 究 方 向
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新型铝合金晶粒细化剂的开发与制备技术;
铝/镁合金高铁焊丝制备与电弧增材制造技术。
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学习及工作经历
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v 工作经历
2024.12~今,大连交通大学,连续挤压教育部工程研究中心,副教授;
2021.04~2024.12,大连交通大学,连续挤压教育部工程研究中心,准聘副教授;
v 教育背景
2016.09~2021.01,东北大学,冶金学院,钢铁冶金,工学博士;
2014.09~2016.07,东北大学,材料与冶金学院,冶金工程,工学硕士;
2009.08~2013.06,东北大学,材料与冶金学院,冶金工程,工学学士。
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进修及访学经历
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承担科研项目情况
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[2] 中信戴卡股份有限公司横向项目, 新型高效铝合金晶粒细化剂改性转向节技术开发, 2024210206000222, 2024-2025, 主持/在研;
[3] 国家重点研发计划项目课题, 大型铸件液态精密成型铸造缺陷形成机理与预测, 2022YFB3706801, 2022-2025, 在研, 骨干参与/在研;
[4] 国家重点研发计划“政府间国际科技创新合作”重点专项项目, 数据驱动优化的高强高导铝合金大型复杂薄壁件半固态铸锻一体化成形技术, 2022YFE0137900,
2023-2025, 骨干参与/在研;
[5] 辽宁省自然科学基金项目, 2022-BS-262, 含铁铝基固废制备高质化流变合金材料研究,2022-2024,主持/结题;
[6]辽宁省双一流“青年拔尖”人才培养项目,
032089, 铝、镁基固废制备高质化流变合金前端技术研究,2021-2023,主持/结题;
[7] 国家自然科学基金面上项目, 镁银合金在尿路植入环境中的降解行为和抗菌机制,
52171235, 2022-2025, 骨干参与/在研;
[8] 国家自然科学基金面上项目, 多源含铁渣协同还原过程物相耦合重构与演变机制及有价元素迁移行为研究,
52074077, 2021-2024, 骨干参与/结题;
[9] 国家自然科学基金国际(地区)合作与交流项目, 可降解镁合金血管支架的功能化及其抗再狭窄机制,
52111540263, 2022-2023, 骨干参与/结题;
[10] 国家自然科学基金面上项目, 含铁熔渣还原提铁过程中热物性演变及其对金属液滴动力学行为的影响,
51774072, 2018-2021, 骨干参与/结题。
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申请专利情况
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[1] 管仁国, 贾洪飞, 张光宗, 李军文, 张硕, 何庆. 一种铸造铝硅合金用Al-Ti-V-C细化剂的制备方法, 中国, 202411403275.X.
[2]管仁国, 贾洪飞, 张光宗, 李军文, 张硕, 王长峰. 一种Al-V-C晶粒细化剂及其制备方法和应用, 中国, 202411403296.1.
[3]张光宗,都兴红. 一种高铜钢铸坯表面氧化铁皮生成厚度的计算方法, 2017-9-19,中国,ZL 201510460357.2.
[4] 王楠,邹宗树,张光宗,杨斌,徐进,邓浩华,陈敏. 一种采用氮气-水喷雾冷却的钢水连铸二冷方法,2017-1-11,中国,ZL 201510436633.1.
[5] 高波,吕继可,胡亮,朱广林,高超,董立洋,卢帅丹,张光宗,郝亚杰,涂赣峰. 一种使用稀土元素改善铝硅合金表面裂纹的方法,2017-5-31,中国,ZL 201510349051.X.
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近五年发表论文、著作情况
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近年来,以第一/通讯作者在J.
Magnes. Alloy、Mater. Design、J.
Power Source、Mater. Charact.等国际知名期刊发表学术论文40余篇。其中,单篇影响因子最高15.8,两篇连载专业权威期刊Steel
Res. Int.,代表性论文有:
[1]
Mingyu Li, Guangzong Zhang(*), Siqi Yin, Changfeng Wang, Ying Fu,
Chenyang Gu, Renguo Guan(**). Transformation of long-period stacking ordered
structures in Mg-Gd-Y-Zn alloys upon synergistic characterization of
first-principles calculation and experiment and its effects on mechanical
properties, Journal of Magnesium and Alloys, 2024, 12:
1867-1879. (SCI 检索, 中科院一区, IF=15.8).
[2] Shuo Zhang, Qing He, Guangzong
Zhang(*), Siqi Yin, Junwen Li, Jin Zhang, Renguo Guan(**). Balancing
Strength and Electrical Conductivity in Recycled Al-Mg-Si Alloys: Beneficial
Effect of Combining Continuous Rheo-extrusion Processing with Al-5Ti-1B
Refiner. Materials & Design, 2025, 255: 114169. (SCI 检索, 中科院二区, IF=7.6).
[3] Guangzong Zhang, Changfeng Wang, Siqi
Yin, Da Teng, Renguo Guan. Development of Low-carbon Energy Storage Material: Electrochemical Behavior
and Discharge Properties of Iron-bearing Al-Li-based Alloys as Al-air Battery
Anodes. Journal of Power Sources, 2023, 585: 233654. (SCI 检索, 中科院二区, IF=8.1).
[4] Qing He, Guangzong
Zhang(*), Shuo Zhang, Da Teng, Hongfei Jia, Junwen Li, Renguo Guan. Modification
and strengthening of recycled Al-Mg-Si-based alloy upon continuous
rheological extrusion (CRE) forming. Materials Characterization,
2024, 215: 114205. (SCI 检索, 中科院二区, IF=4.8).
[5] Hongfei Jia, Xiulan Ai(*), Guangzong Zhang(**), Shuo Zhang, Siqi Yin,
Wenyi Zhang, Yecheng Yan, Qing He, Junwen Li, Renguo Guan. Study on the
microstructure evolution and strengthening mechanism of Rheo-extruded A356
aluminum alloy with grain refiners addition. Journal of Alloys and
Compounds, 2025, 1028: 180609. (SCI 检索, 中科院二区, IF=5.8).
[6] Qing
He, Guangzong Zhang(*), Shuo Zhang, Da Teng, Hongfei Jia, Junwen Li, Renguo
Guan. Microstructural characterization of recycled Al-Mg-Si-based alloys upon
the synergistic effect of ultrasonic technology (UT) and novel refiners. Journal of
Materials Research
and Technology,
2024, 31: 481-495. (SCI 检索, 中科院二区, IF=6.2).
[7] Da Teng, Guangzong Zhang(*), Shuo Zhang, Junwen Li, Hongfei
Jia, Qing He, Renguo Guan. Microstructure evolution and strengthening
mechanism of A356/Al-X-Ce (Ti, C) system by inoculation treatment. Journal of Materials Research and
Technology, 2024, 28:1233-1246. (SCI 检索, 中科院二区, IF=6.2).
[8] Da Teng, Guangzong Zhang(*), Shuo Zhang, Junwen Li, Renguo
Guan. Response of mechanical properties of A356 alloy to continuous
rheological extrusion Al-5Ti-0.6C-xCe alloy addition upon different Ce
contents. Journal of Materials Research
and Technology, 2023, 27: 209-224. (SCI 检索, 中科院二区, IF=6.2).
[9] Chenyang Gu, Guangzong Zhang(*), Hongmei Jin, Siqi Yin, Renguo Guan(**). Research of
rolling-drawing coupled deformation on the microstructure-property evolution
and strengthening mechanism of 6201 conductive tubes. Journal of
Materials Research and Technology, 2022, 18: 3933-3948. (SCI检索, 中科院二区, IF=6.2).
[10]
Mingyu Li, Guangzong Zhang(*), Siqi Yin, Xiao Liu, Changfeng Wang, Renguo Guan(**). Designing the heat
treatment process for Mg-10Gd-4Y-xZn-0.6Zr (wt.%) alloy: A study on the transformation
of microstructure and properties. Journal of
Materials Research
and Technology,
2024, 30: 6711-6723.
(SCI 检索, 中科院二区, IF=6.2).
[11] Guangzong Zhang, Nan Wang, Min Chen,
Yanqing Cheng. Viscosity prediction on iron-bearing slags during pyrometallurgical
recycling: Structure-based modelling of CaO-‘FeO’-MgO-Al2O3-SiO2 system and its subsystems. Journal of Iron and Steel Research
International, 2021, 28: 679-692. (SCI检索, 中科院二区, IF=3.1).
[12] Mingyu Li, Guangzong
Zhang(*), Siqi Yin , Changfeng Wang, Renguo Guan. Electronic and optical
characteristics of long-period stacking ordered phases in Mg-Y-Zn alloys: A
first-principles study. Materials Today Communications, 2023,
37: 107326. (SCI 检索, IF=3.8).
[13]
Shuo Zhang, Guangzong Zhang(*),
Hongfei Jia, Da Teng, Junwen Li, Renguo Guan. Genetic behavior of Al-Sr-Ti-C
master alloy from casting to continuous rheo?extrusion and its refinement and
modification effects on A356 alloy. Journal of Materials Science,
2024, 59: 8515-8534. (SCI 检索, IF=4.5).
[14] Guangzong
Zhang, Nan Wang, Siqi Yin, Ying Wang, Renguo Guan. Molecular dynamics
study on the DOP evolution of slags during recycling nickel slag by aluminum
dross. Journal of Non-Crystalline Solids, 2024, 625: 122775. (SCI 检索, IF=3.5).
[15]
Hongfei Jia, Guangzong Zhang(*),
Shuo Zhang, Da Teng, Qing He, Junwen Li, Renguo Guan. Refinement of A356
alloy using continuous rheological extrusion Al-Ti-V-B master alloy. China
Foundry, 2025, 22: 222-230. (SCI 检索, IF=1.7).
[16]
Da Teng, Guangzong Zhang(*), Shuo Zhang, Junwen Li, and Renguo Guan.
Mechanical Properties of Refined A356 Alloy in Response to Continuous
Rheological Extruded Al-5Ti-0.6C-1.0Ce Alloy Prepared at Different
Temperatures. Metals, 2023, 13: 1344. (SCI 检索, IF=2.9).
[17]
Shun Zhang, Guangzong Zhang(*), Da Teng, Changfeng Wang, Xuan
Zhang, Renguo Guan. Microstructural evolution and enhanced properties by
multi-directional forging of 6201 aluminum alloy. Revista Matéria, 2024, 29. (SCI 检索, IF=0.4).
[18] Guangzong Zhang, Nan Wang, M. Chen, Yanqing
Cheng. Comprehensive recovery of multisource metallurgical wastes: Recycling
nickel slag by aluminum dross with converter-slag addition. ISIJ
International, 2020, 60: 1863-1871. (SCI检索, IF=1.6).
[19] Guangzong Zhang, Nan Wang, Min Chen, Yanqing
Cheng. Recycling nickel slag by aluminum dross: Iron-extraction and secondary
slag stabilization. ISIJ International, 2020, 60(3):
602-609. (SCI检索, IF=1.6).
[20] Guangzong Zhang, Nan Wang, Min Chen,
Hui Li. Viscosity and structure of CaO-SiO2-“FeO”-Al2O3-MgO
system during iron-extracting process from nickel slag by aluminum dross. Part
1: Coupling effect of “FeO” and Al2O3. Steel
Research International, 2018, 89: 1800272. (SCI检索, IF=1.9).
[21] Guangzong Zhang, Nan Wang, Min Chen,
Ying Wang. Viscosity and structure of CaO-SiO2-“FeO”-Al2O3-MgO
system during iron-extracting process from nickel slag by aluminum dross. Part
2: Influence of Al2O3/SiO2 ratio. Steel
Research International, 2018, 89: 1800273. (SCI检索, IF=1.9).
[22] Hongxu Jin,
Huifang Pang, Renguo Guan, Li Yang, Changfeng Wang, Guangzong Zhang,
Wenbo Du. Topological fractal multifunctional metamaterial with broadband
microwave absorption and hydrophobic characteristics. Materials Today
Physics, 2025, 55: 101757. (SCI检索, 中科院二区, IF=10).
[23] Xinci Li, Zhou
Yang, Meilin Zhang, Jie Yan, Yinghui Shi, Yuxi Chen, Jin Zha | ||