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彭秋明,教授,燕山大学亚稳材料国家重点实验室副主任,德国洪堡,教授,博导。先后在中国科学院长春应化所稀土资源利用国家重点实验室、德国Helmhotz/HZG 镁合金创新技术中心访问学者和燕山大学开展了关于轻合金结构/功能材料应用方面的基础研究。获教育部新世纪人才,河北省杰青、国家优青等项目资助。迄今为止,以第一/通信在 J. Am. Chem. Soc., Nano Lett., Nat. Comm., Adv. Energy Mater., ACS Nano, J. Mater. Chem. A, ACS Appl. Mater. Interface, Nanoscale, Biomaterials,等上发表 SCI 论文 70 多篇(h=28)。获得授权中国发明专利22项,美国专利2两项, 完成专利转化3项;参与编写中文专著2部, 英文专著1部;获2017年河北省技术发明一等奖(排名第1)。彭秋明教授以金属高压微结构与性能相关性为研究对象,旨在探索金属力学/腐蚀性能高压调控科学与技术,从而实现典型轻金属的高性能制备与工程应用。彭教授的高压技术可为镁合金的开发利用打开了一扇窗,扩展了合金的固溶含量,并发现压力与孪晶种类之间具有密切关系,有效提高了镁合金的耐热性、抗蠕变性能以及强度和耐蚀性,为高强韧镁合金制备提供了新选择。
姓名 彭秋明
性别 男
出生日期 1979-10-16
民族 汉族
政治面貌 中共党员
职称 教授
研究方向 镁合金与纳米能源材料
专业 无机化学
毕业院校 中科院长春应用化学研究所
学位 博士
学历 博士研究生
所在系 亚稳材料国家重点实验室
导师身份 博士生导师
手机 18630307226
邮箱 pengqiuming@ysu.edu.cn
办公地点 材料A209
个人简历
1 2011-05-09- 1900-01-01. 亚稳材料国家重点实验室. 镁合金与纳米能源材料研究. 博士. 教授. 副处长.
2 2009-01-19- 2011-04-19. GKSS 镁合金创新技术. 镁稀土合金. 博士.
3 2003-09-01- 2008-06-01. 中科研长春应用化学研究所. 镁合金. 博士.
4 1998-09-01- 2002-06-01. 湘潭大学. 化学. 学士. 其它.
教研项目
1 不详. 镁稀土合金应用基础研究(2015省基金) . E2015203404 . 河北省自然科学基金. 2015-03-30- 2017-12-31. 经费:30.0.
2 不详. 镁稀土合金应用基础研究 . 51422105 . 国家自然科学基金其他项目. 2015-01-01- 2017-12-31. 经费:100.0.
3 不详. 超高压镁-稀土-硼基合金设计、合成与性能研究 . 5040032 . 其他厅局级项目. 2014-11-08- 2017-12-30. 经费:20.0.
4 不详. 首批河北省青年拔尖人才支持计划. 5040003 . 各省科学技术研究与发展计划. 2014-01-01- 2017-12-30. 经费:60.0.
5 不详. 镁合金锻造轮毂开发和工艺优化. 2013191 . 企业委托. 2013-12-01- 2014-06-30. 经费:10.0.
6 不详. 2012年度教育部新世纪优秀人才支持计划. NCET-12-0690 . 教育部博士点专项基金. 2013-01-01- 2015-12-30. 经费:50.0.
7 不详. 超高压下镁稀土合金相变演化规律与性能研究 . 13961002D . 各省科学技术研究与发展计划. 2013-01-01- 2015-12-31. 经费:25.0.
8 不详. 高韧性耐蚀镁稀土合金变形超薄板产业化研究 . 4590023 . 其他厅局级项目. 2013-01-01- 2014-12-30. 经费:8.0.
9 不详. 可降解医用镁丝制备、力学完整性及生物相容性研究. 4470039 . 教育厅科学研究计划. 2012-09-30- 2015-09-30. 经费:8.0.
10 不详. 低温高韧镁稀土合金的开发 . 2012M510766 . 中国博士后科学基金面上项目. 2012-05-11- 2014-04-11. 经费:5.0.
11 不详. 稀土微合金化改善镁变形加工塑性及其机理研究. 51101142 . 国家自然科学基金青年基金. 2012-01-01- 2014-12-31. 经费:25.0.
12 不详. 新型亚稳材料的设计原理、实验合成与结构调控(第二期) . 51121061. 国家自然科学基金重大、重点项目. 2012-01-01- 2014-12-31. 经费:600.0.
科研到款
1 2016. 横向经费:0.1. 纵向经费:60.0.
2 2015. 横向经费:0.1. 纵向经费:58.0.
3 2014. 横向经费:10.0. 纵向经费:120.0.
4 2013. 横向经费:0.1. 纵向经费:57.5.
5 2012. 横向经费:0.1. 纵向经费:64.0.
论文发表情况
1 邹国栋,郭建新,彭秋明,周爱国,张庆瑞,刘宝忠. Synthesis of urchin-like rutile titania carbon nanocomposites by iron-facilitated phase transformation of MXene for environmental remediation. Journal of Materials Chemistry A. 2016, 4(2), 489-499.
2 付辉,李慧,房大庆,蔡学成,彭秋明. High ductility of a bi-modal Mg-7wt.% Y alloy at low temperature prepared by high pressure boriding and semi-solid extrusion. Materials & Design. 2016, 92, 240-245.
3 付辉,吴文诗,窦洋,刘宝忠,李寒宁,彭秋明. Hydrogen diffusion kinetics and structural integrity of superhigh pressure Mg-5 wt% Ni alloys with dendrite interface. Journal of Power Sources. 2016, 320, 212-221.
4 郭建新,付辉,邹国栋,刘宝忠,彭秋明. Theoretical interpretation on lead adsorption behavior of new two-dimensional transition metal carbides and nitrides. Journal of Alloys and Compounds. 2016, 684, 504-509.
5 张志伟,李寒宁,邹国栋,刘宝忠,张庆瑞,彭秋明. Self-Reduction Synthesis of New MXene/Ag Composites with Unexpected Electrocatalytic Activity. ACS Sustainable Chemistry & Engineering. 2016, 4(12), 6763-6771.
6 邹国栋,张志伟,郭建新,刘宝忠,张庆瑞,彭秋明. Synthesis of MXene/Ag Composites for Extraordinary Long Cycle Lifetime Lithium Storage at High Rates. ACS applied materials & interfaces. 2016, 8(34), 22280-22286. .
7 张庆瑞,腾杰,邹国栋,彭秋明,杜青,焦体峰. Efficient phosphate sequestration for water purification by unique sandwich-like MXene/magnetic iron oxide nanocomposites. Nanoscale. 2016, 8(13), 7085-7093. .
8 邹国栋等. The effect of extension twinning on the electrochemical corrosion properties of Mg–Y alloys. Journal of Alloys and Compounds. 2015, 618, 44-48.
9 周国栋等. Age strengthening behavior and mechanical properties of Mg–Dy based alloys containing LPSO phases.. Materials Science and Engineering: A. 2015, 620, 10-15.
10 张鹏等. The effects of surface group functionalization and strain on the electronic structures of two-dimensional silicon carbide.. Chemical Physics Letters. 2015, 628, 60-65.
11 郭建新等. First-principles calculations of structural stability and elastic properties of REB 12 strengthening phases in boriding Mg–RE alloys. Journal of Alloys and Compounds. 2015, 632, 68-72.
12 郭建新等. Heavy-metal adsorption behavior of two-dimensional alkalization-intercalated MXene by first-principles calculations.. The Journal of Physical Chemistry C. 2015, 119(36), 20923-20930. .
13 付辉. High pressure aging synthesis of a hexagonal Mg 2 Sn strengthening precipitate in Mg–Sn alloys.. Materials Letters. 2015, 157, 172-175.
14 彭秋明, 付辉, 李慧. Mg-Y 基生物材料研究进展. 燕山大学学报. 2015, (2015 年 04), 292-297..
15 房大庆等. Age hardening behaviors, mechanical and corrosion properties of deformed Mg–Mn–Sn sheets by pre-rolled treatment.. Materials & Design (1980-2015). 2014, 54, 72-78.
16 彭秋明等. Preparation, mechanical and degradation properties of Mg–Y-based microwire.. Journal of the mechanical behavior of biomedical materials. 2014, 29, 375-384.
17 赵双双. Effects of super-high pressure on microstructures, nano-mechanical behaviors and corrosion properties of Mg–Al alloys. Journal of Alloys and Compounds. 2014, 584, 56-62.
18 吴文诗. Phase transformation of Mg–Li alloys induced by super-high pressure. Materials Letters. 2014, 117, 45-48.
19 彭秋明等. Degradation behavior of Mg-based biomaterials containing different long-period stacking ordered phases. Scientific reports. 2014, 4, 3620.
20 彭秋明等. Hardening mechanisms of high pressure Mg-Li alloys. Journal of Applied Physics. 2014, 115(2), 023511.
21 付辉等. High-pressure synthesis of a nanoscale YB 12 strengthening precipitate in Mg–Y alloys. Scripta Materialia. 2014, 76, 33-36.
22 李慧等. Microstructures, mechanical and cytocompatibility of degradable Mg–Zn based orthopedic biomaterials. Materials & Design. 2014, 58, 43-51.
23 马宁等. Effect of microalloying with rare-earth on recrystallization behaviour and damping properties of Mg sheets. Journal of Alloys and Compounds. 2014, 592, 24-34.
24 彭秋明等. Unique lead adsorption behavior of activated hydroxyl group in two-dimensional titanium carbide. Journal of the American Chemical Society. 2014, 136(11), 4113-4116.
25 彭秋明等. Microstructures and electrochemical hydrogen storage performances of La0.75Ce0.25Ni3.80Mn0.90Cu0.30 (V0.81Fe0.19) x (x= 0-0.20) alloys. International Journal of Hydrogen Energy. 2014, 39(13), 7042-7049..
26 蔡学成. Negative strain-rate sensitivity of Mg alloys containing 18R and 14H long-period stacking-ordered phases at intermediate temperatures. Metallurgical and Materials Transactions A. 2014, 45(9), 3703-3707.
27 彭秋明等. Strengthening Precipitate, Thermal Stability, and Mechanical Properties of Melt-Spun Mg-8Gd-3Nd Alloy. Journal of materials engineering and performance. 2014, 23(1), 250-254.
28 马宁等. Effects of Annealing on Microstructure and Mechanical Properties of Backward Extruded Mg-0.5Mn-1Nd Alloy. Key Engineering Materials. 2014, 575, 235-238.
29 彭秋明等. Degradable magnesium-based implant materials with anti‐inflammatory activity . Journal of Biomedical Materials Research Part A. 2013, 101(7): 1898-1906.
30 彭秋明等. Microstructures, aging behaviour and mechanical properties in hydrogen and chloride media of backward extruded Mg–Y based biomaterials. Journal of the mechanical behavior of biomedical materials. 2013, 17, 176-185.
31 马宁等. Effects of cerium on microstructures, recovery behavior and mechanical properties of backward extruded Mg–0.5 Mn alloys. Materials Science and Engineering:A. 2013, 564, 310-316.
32 赵海根等. Spherical strengthening precipitate in a Mg-10wt% Y alloy with superhigh pressure aging. Materials Letters. 2013, 96, 16-19.
33 彭显云等. Microstructures and electrochemical hydrogen storage characteristics of La 0.7 Ce 0.3 Ni 4.2 Mn 0.9− x Cu 0.37 (Fe 0.43 B 0.57) x (x= 0–0.20) alloys. Journal of Power Sources. 2013, 240, 178-183.
34 彭秋明等. Influence of biocorrosion on microstructure and mechanical properties of deformed Mg–Y–Er–Zn biomaterial containing 18R-LPSO phase. Journal of the mechanical behavior of biomedical materials. 2013, 28, 332-339.
35 彭显云等. Effects of ultra-high pressure on phase compositions, phase configurations and hydrogen storage properties of LaMg 4 Ni alloys. International Journal of Hydrogen Energy. 2013, 38(34), 14661-14667.
36 彭秋明等. Microstructure and Mechanical Properties of Backward-Extruded Mg-Zn-xCa Biomaterials. In Materials Science Forum. 2013, Vol. 747, pp. 426-430.
37 房大庆等. Electrochemical Corrosion Behavior of Backward Extruded Mg-Zn-Ca Alloys in Different Media. Int. J. Electrochem. Sci. 2013, 8, 2551-2565.
38 彭秋明等. Serration Flow Behavior with Abnormal Strain Rate Sensitivity of Fine-Grained Mg-0.8 Wt Pct Ca Alloy. Metallurgical and Materials Transactions A. 2013, 44(10), 4469-4474.
39 彭秋明等. Effect of backward extrusion on microstructure and mechanical properties of Mg-Gd based alloy. Materials Science and Engineering: A. 2012, 532, 443-448.
40 彭秋明等. Development of High Performance Single‐Phase Solid Solution Magnesium Alloy at Low Temperature. Advanced Engineering Materials. 2012, 14(3), 178-184.
41 彭秋明等. High ductile as-cast Mg-RE based alloys at room temperature. Materials Letters. 2012, 2012, 83: 209-212.
42 彭秋明等. Effects of backward extrusion on mechanical and degradation properties of Mg–Zn biomaterial. Journal of the mechanical behavior of biomedical materials. 2012, 10, 128-137.
43 彭秋明等. Age hardening response of a Mg–5wt.% Sc alloy under an applied stress field. Materials Letters. 2012, 78, 58-61.
44 彭秋明等. Development of Degradable Mg-RE Based Biomaterials.. In Advanced Materials Research . 2012, Vol. 509, pp. 36-39.
45 彭秋明等. High pressure solidification: an effective approach to improve the corrosion properties of Mg-Y based implants . International journel of electrochemical science. 2012, 7(6), 5581-5595.
46 马宁等. Influence of scandium on corrosion properties and electrochemical behaviour of Mg alloys in different media. . Int. J. Electrochem.Sci. 2012, 7, 8020-8034.
47 彭秋明等. Gadolinium solubility and precipitate identification in Mg-Gd binary alloy. Journal of Rare Earths,. 2012, 30(10), 1064-1068.
48 彭秋明等. 稀土贵金属材料研究进展. 燕山大学学报. 2012, 36(5), 377-382.
专利与著作权
1 彭秋明,邹国栋,向建勇. 一种超轻复合吸波板材及其制备方法. (CN201410509657.0). 2016-08-07. 发明专利.
2 彭秋明,李雪君,刘汉峰,李慧. 一种适用于海雾环境下的镁合金防腐涂层及其制备方法. (CN201210514043.2). 2016-06-10. 发明专利.
3 彭秋明,吴文诗,郭建新,李慧. 一种利用镁稀土废渣制备储氢材料的方法. (CN201410180956.4). 2016-04-06. 发明专利.
4 彭秋明,张庆瑞,付辉. 维半导体模板材料及其制备方法. (CN201410066719.5). 2016-04-06. 发明专利.
5 彭秋明,邹国栋,郭建新,李慧. 一种超轻复合吸波板材及其制备方法. (CN201410179398.X). 2016-04-06. 发明专利.
6 彭秋明,吴文诗,李慧. 一种人造红珊瑚串珠的制备方法. (CN201410509646.2). 2016-01-27. 发明专利.
7 彭秋明,房大庆,蔡康乐,刘丽. 一种镁合金物理纯化方法及其纯化装置. (CN201210517063.5). 2016-01-07. 发明专利.
8 彭秋明,潘军玲,郭建新,李慧. 一种铝锂储氢材料及其制备方法. (CN201410181654.9). 2016-01-06. 发明专利.
9 彭秋明,付辉,李慧. 一种高耐热性镁稀土硼合金及其制备方法. (CN201410066316.0). 2015-11-18. 发明专利.
10 彭秋明,付辉,李慧. 一种镁合金纤维丝的生产装置. (CN201410020109.1). 2015-11-18. 发明专利.
11 彭秋明,蔡康乐,刘丽. 一种镁合金无缝管材的制备方法及其挤压模具. (CN201210556034.X). 2015-03-25. 发明专利.
12 彭秋明,蔡康乐,刘日平,付辉. 种镁合金板材的轧制方法. (CN201310132182.3). 2015-03-25. 发明专利.
13 彭秋明,刘日平. 一种镁合金表面导电防腐涂料及其制备方法. (CN201110361352.6). 2014-12-10. 发明专利.
14 彭秋明,付辉,李慧. 一种镁合金熔炼保护熔剂及其制备方法. (CN201310249831.8). 2014-10-15. 发明专利.
15 彭秋明,赵翠玲,李慧. 一种可降解镁基骨科植入生物医用材料及制备方法. (CN201110199171.8). 2014-06-11. 发明专利.
16 彭秋明,付辉,李慧,潘美玲. 一种镁合金板材加工方法. (CN201310199666.X). 2014-04-29. 发明专利.
17 李慧, 彭秋明,赵翠玲. 一种磁性镁合金及其制备方法. (CN201210338036.1). 2014-04-16. 发明专利.
18 彭秋明,李慧,马宁. 一种高抗蠕变镁钪基合金及其制备方法. (CN201210109378.6). 2014-01-22. 发明专利.
19 彭秋明,田永君. 一种适用于具有时效硬化特性镁合金的热处理方法. (CN201210338044.6). 2014-01-16. 发明专利.
20 彭秋明,李慧,赵双双. 一种耐蚀镁铝基及其制备方法. (CN201210152297.47.2 ). 2013-12-18. 发明专利.
21 彭秋明,李慧. 镁合金LED外壳散热防腐涂料及其制备方法. (CN201110361053.2). 2013-10-02. 发明专利.
22 彭秋明,刘宝宗. 镁稀土合金低温应变诱导热处理方法. (CN201110419657.8). 2013-07-03. 发明专利.
23 彭秋明,朱键卓,田永君. 室温高韧性单相固溶体镁稀土基合金及制备方法. (CN201110228615.6). 2013-03-07. 发明专利.
所获荣誉
1 河北省青年拔尖人才. 河北省人民政府. 2013.
2 洪堡学者. 德国洪堡基金会. 2011.
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发表于 2018-3-10 09:09:52
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