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昆明理工大学材料科学与工程学院导师教师师资介绍简介-鲍瑞

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姓名
鲍瑞
性别




职称
教授
类别
硕士生导师

出生年月
1986.02
最高学位
博士

电子邮箱
baorui@kust.edu.cn

研究方向
粉末冶金,新型碳纳米管材料,有色金属复合材料,微波烧结,硬质合金,光催化材料,第一性原理计算,高纯金属粉末,固态不极化电极,深度学习

教育背景
(1)2020-10至现在,昆明理工大学,材料科学与工程学院,教授
(2)2019-3至2020-3,英国诺丁汉大学,工程系,国家公派访问****,国外合作导师:Xianghui Hou, Sanliang Ling
(3)2018年入选云南省****拔尖人才、2019年云南省****研修访学项目
(4)2015-8至2020-10,昆明理工大学,材料科学与工程学院,副教授
(5)2013-8至2015-8,昆明理工大学,材料科学与工程学院,讲师
(6)2010-9至2013-6,中南大学,材料学,博士,导师:易健宏
(7)2007-9至2010-6,中南大学,材料学,硕士,导师:易健宏
(8)2003-9至2007-6,中南大学,化学工程与工艺,学士

主持项目
1. 基于喷雾热解碳纳米管/铜复合材料的制备工艺、显微组织及热学性能的研究(主持,国家自然基金地区项目,基金号**)
2. 喷雾热解制备CNT/Cu-Ti复合粉体的分散和界面优化及其烧结与力学性能研究(主持,国家自然基金应急管理项目,基金号**)
3. Sp2-C/Cu复合材料的制备与微观界面电子结构的第一性原理研究(主持,粉末冶金国家重点实验室开放课题)
4. 零维碳材料/金属复合材料的制备与表征(主持,云南省科技厅重大专项课题)
5. 粉末高通量制备与压制成形装备的研发(主持,云南省科技厅重大专项课题)
6. 微波反应烧结W-Co-C合成超细晶WC-Co硬质合金的研究(主持,云南省科技厅面上项目)
7. 鲍瑞****青年拔尖人才(主持,云南省科技厅)
8. CNTs/Cu基复合材料的制备及复合机制研究(主持,校企合作课题)
9. 高纯超细铁粉的测试与表征以及致密化技术(主持,横向课题)
10. 微波烧结WC-Co硬质合金的WC晶粒生长动力学研究(主持,云南省教育厅人培项目)
11. 高纯超细铁粉的致密化技术开发(主持,横向课题)
12. 鲍瑞****研修访学计划(主持,云南省科技厅)

科研成果(学术论文)
2021
1. Chen X, Bao R*, Yi J*, et al. Enhancing mechanical properties of pure copper-based materials with CrxOy nanoparticles and CNT hybrid reinforcement[J]. Journal of Materials Science, 2021, 56(4): 3062-3077.
2020
1. Zhao W, Rui BAO*, Yi J*, et al. Fabrication of RGO/Cu composites based on electrostatic adsorption[J]. Transactions of Nonferrous Metals Society of China, 2020, 30(4): 982-991.
2. Zhao W, Bao R*, Yi J*, et al. Improving mechanical and thermal property of pure copper matrix simultaneously by carbonized polymer dots (CPD) cluster reinforcement[J]. Materials Science and Engineering: A, 2020: 140573.
3. Zhang L, Bao R*, Yi J, et al. Improving comprehensive performance of copper matrix composite by spray pyrolysis fabricated CNT/W reinforcement[J]. Journal of Alloys and Compounds, 2020, 833: 154940.
4. Wenwen Zhang, Xin You, Dong Fang, Ping Yang, Jianhong Yi, Xiaohua Yu, Rui Bao, Caiju Li, Yichun Liu, Jingmei Tao, Fan Yang. Influence of acid-treated time of carbon nanotubes on mechanical property in carbon nanotubes reinforced copper matrix composites[J]. Diamond and Related Materials, 2020, 109: 108069.
5. Fan J, Zheng Q, Bao R, et al. High performance Sm-Co powders obtained by crystallization from ball milled amorphous state[J]. Journal of Materials Science & Technology, 2020, 37: 181-184.
6. Fang D, Xu X, Bao R, et al. Layered Na5V12O32 nanowires with enhanced properties of removing Pb2+ in aqueous solution by chemical reaction[J]. Journal of Environmental Chemical Engineering, 2020: 104765.
7. lMengmeng Cui, Xingjie Lu, Taofang Zeng, Olim Ruzimuradov, Dong Fang, Caiju Li, Fengxian Li, Yichun Liu, Rui Bao, Jianhong Yi. Effect of anions on the copper vanadate structure during ion-exchange and its lithium storage performance[J]. Journal of Alloys and Compounds, 2020: 158576.
8. Fang D, Cui M, Bao R, et al. In-situ coating polypyrrole on charged BiVO4 nanowire arrays to improve lithium-ion storage properties[J]. Solid State Ionics, 2020, 346: 115222.
9. Weiming Chen, Xuanli Luo, Thomas J. A. Slater, Yongfang Zhou, Sanliang Ling, Rui Bao, Jesum Alves Fernandes, Jianshe Wang, Yi Shen l. General synthesis of single atom electrocatalysts via a facile condensation–carbonization process[J]. Journal of Materials Chemistry A, 2020, 8(48): 25959-25969.
10. 鲍瑞,郭圣达,易健宏,等. 微波反应烧结制备WC-Co硬质合金工艺性能[J]. 中国有色金属学报, 2020, 30(8): 1828-1836.
2019
1. Ni Xiong; Rui Bao*; Jianhong Yi; Jingmei Tao; Yichun Liu; Dong Fang. Interface evolution and its influence on mechanical properties of CNTs/Cu-Ti composite, Materials Science & Engineering A, 2019, 755: 75-84.
2. Xiong N, Bao R*, Yi J, et al. CNTs/Cu-Ti composites fabrication through the synergistic reinforcement of CNTs and in situ generated nano-TiC particles[J]. Journal of Alloys and Compounds, 2019, 770: 204-213.
3. Chen X, Bao R*, Yi J, et al. Enhancing interfacial bonding and tensile strength in CNT-Cu composites by a synergetic method of spraying pyrolysis and flake powder metallurgy[J]. Materials, 2019, 12(4): 670.
4. Liu P, Yi J, Bao R*, et al. A flower-like Zn3V2O8/Ag composite with enhanced visible light driven photocatalytic activity: the triple-functional roles of Ag nanoparticles[J]. New Journal of Chemistry, 2019, 43(19): 7482-7490.
5. Shuai Mao; Rui Bao*; Dong Fang; Jianhong Yi. Fabrication of sliver/graphitic carbon nitride photocatalyst with enhanced visible-light photocatalytic efficiency through ultrasonic spray atomization, Journal of Colloid and Interface Science, 2019, 538: 15-24.
6. Zhao W, Bao R*, Yi J*, et al. Fabrication of CNT/Cu based composite with twice in-situ formation from powder preparation to sintering[J]. Materials Research Express, 2019, 6(9): 095088.
7. Xia Wei, Jingmei Tao, Yichun Liu, Rui Bao, Fengxian Li, Dong Fang, Caiju Li, Jianhong Yi. High strength and electrical conductivity of copper matrix composites reinforced by carbon nanotube-graphene oxide hybrids with hierarchical structure and nanoscale twins[J]. Diamond and Related Materials, 2019, 99: 107537.
8. Hua K, Fang D, Bao R, et al. Porous iron vanadate nanowire arrays on Ti foil as a high-performance lithium-ion battery[J]. Applied Surface Science, 2019, 465: 1047-1054.
9. Kang Hua, Mengmeng Cui, Zhiping Luo, Dong Fang, Rui Bao, Qi Qi, Jianhong Yi, Benshuang Sun, ChienChon Chen. Fabrication of Zinc pyrovanadate (Zn3(OH)2V2O7·2H2O) nanosheet spheres as an ethanol gas sensor[J]. Journal of Alloys and Compounds, 2019, 801: 581-588.
10. Kang Hua, Xiujuan Li, Zewei Fu, Dong Fang, Rui Bao, Jianhong Yi, Zhiping Luo. Cation-exchange synthesis of manganese vanadate nanosheets and its application in lithium-ion battery[J]. Journal of Solid State Chemistry, 2019, 273: 287-294.
11. Xue-liu Xu, Guang-zhong Li, Ze-wei Fu, Jun-tao Hu, Zhi-ping Luo, Kang Hua, Xue-qin Lu, Dong Fang, Rui Bao, Jian-hong Yi. Hydrogen reduced sodium vanadate nanowire arrays as electrode material of lithium-ion battery[J]. Journal of Central South University, 2019, 26(6): 1540-1549.
12. Dong Fang, Yongsheng Ji, Benshuang Sun, Rui Bao, Jianhong Yi, Zhiping Luo. Cobalt oxide nanoparticles anchored on discharged-graphene film for lithium-ion battery[J]. Solid State Ionics, 2019, 340: 115006.
13. Liu G, Tao J, Li F, Bao R, et al. Optimizing the interface bonding in Cu matrix composites by using functionalized carbon nanotubes and cold rolling[J]. Journal of Materials Research, 2019, 34(15): 2600-2608.
14. Hua K, Xu X, Fang D, Bao R, et al. In-situ synthesis and room temperature magnetic properties of cobalt vanadate nanowire array[J]. Journal of Magnetism and Magnetic Materials, 2019, 473: 435-441.
15. Hua K, Fang D, Cui M, Bao R, et al. In-situ deposition of Co nanoparticles in discharged TiO2 nanotube array with enhanced magnetic property[J]. Journal of Magnetism and Magnetic Materials, 2019, 485: 217-223.
16. 毛帅, 鲍瑞,易健宏, 等. Ag/AgCl复合粉末的制备及光催化性能研究[J]. 粉末冶金技术, 2019, 35(2): 136-141.
2018
1. Mao S, Bao R*, Fang D, et al. Facile synthesis of Ag/AgX (X= Cl, Br) with enhanced visible-light-induced photocatalytic activity by ultrasonic spray pyrolysis method[J]. Advanced Powder Technology, 2018, 29(11): 2670-2677.
2. Liu L, Bao R*, Yi J, et al. Fabrication of CNT/Cu composites with enhanced strength and ductility by SP combined with optimized SPS method[J]. Journal of Alloys and Compounds, 2018, 747: 91-99.
3. Li L, Bao R*, Yi J, et al. Preparation of CNT/Cu nano composite powder with uniform dispersion and strong interface bonding by SP method[J]. Powder Technology, 2018, 325: 107-112.
4. Liu P, Bao R*, Fang D, et al. A facile synthesis of CNTs/Cu2O-CuO heterostructure composites by spray pyrolysis and its visible light responding photocatalytic properties[J]. Advanced Powder Technology, 2018, 29(9): 2027-2034.
5. Liu L, Bao R*, Yi J. Mono-dispersed and homogeneous CNT/Cu composite powder preparation through forming Cu2O intermediates[J]. Powder Technology, 2018, 328: 430-435.
6. Mao S, Bao R*, Fang D, et al. Influence of electron acceptor and carrier in amorphous TiO2 upon the photocatalytic degradation of methylene orange[J]. Materials Research Express, 2018, 5(4): 045051.
7. Hua K, Li X, Fang D, Bao R*, et al. Vanadium trioxide nanowire arrays as a cathode material for lithium-ion battery[J]. Ceramics International, 2018, 44(10): 11307-11313.
8. Yang P, You X, Yi J, Fang D, Bao R, et al. Influence of dispersion state of carbon nanotubes on electrical conductivity of copper matrix composites[J]. Journal of Alloys and Compounds, 2018, 752: 376-380.
9. Ping Yang, Xin You, Jianhong Yi, Dong Fang, Rui Bao, et al. Simultaneous achievement of high strength, excellent ductility, and good electrical conductivity in carbon nanotube/copper composites[J]. Journal of Alloys and Compounds, 2018, 752: 431-439.
10. Kang Hua, Xiujuan Li, Dong Fang, Jianhong Yi, Rui Bao, Zhiping Luo. Electrodeposition of high-density lithium vanadate nanowires for lithium-ion battery[J]. Applied Surface Science, 2018, 447: 610-616.
11. Xiaofeng Chen, Jingmei Tao, Jianhong Yi, Yichun Liu, Caiju Li, Rui Bao. Strengthening behavior of carbon nanotube-graphene hybrids in copper matrix composites[J]. Materials Science and Engineering: A, 2018, 718: 427-436.
12. Chen X, Tao J, Yi J, Liu Y, Bao R, et al. Enhancing the strength of carbon nanotubes reinforced copper matrix composites by optimizing the interface structure and dispersion uniformity[J]. Diamond and Related Materials, 2018, 88: 74-84.
13. Xiaofeng Chen, Jingmei Tao, Jianhong Yi, Caiju Li, Rui Bao, et al. Balancing the strength and ductility of carbon nanotubes reinforced copper matrix composites with microlaminated structure and interdiffusion interface[J]. Materials Science and Engineering: A, 2018, 712: 790-793.
14. Xiujuan Li, Yucai Wu, Kang Hua, Shan Li, Dong Fang, Zhiping Luo, Rui Bao, Xin Fan, Jianhong Yi. Vertically aligned polyaniline nanowire arrays for lithium-ion battery[J]. Colloid and Polymer Science, 2018, 296(8): 1395-1400.
15. Hua K, Li X, Bao R, et al. Electrochemical performance of silver vanadate/silver nanowire composite for lithium-ion batteries[J]. Solid State Ionics, 2018, 325: 133-140.
16. Shengda G, Tao S, Rui B, et al. Synthesis and characterization of WC-6Co nanocrystalline composite powder[J]. Rare Metal Materials and Engineering, 2018, 47(7): 1986-1992.
17. Guo S, Rui BAO, Ping Y, et al. Morphology and carbon content of WC-6% Co nanosized composite powders prepared using glucose as carbon source[J]. Transactions of Nonferrous Metals Society of China, 2018, 28(4): 722-728.
18. Chen X, Tao J, Yi J, Liu Y, Bao R, et al. Electrodeposited Cu/buckypaper composites with high electrical conductivity and ampacity[J]. Journal of Alloys and Compounds, 2018, 735: 163-171.
19. 郭圣达, 鲍瑞,易健宏, 等. SPS 制备含钼 WC-6Co 硬质合金的工艺性能[J]. 中国有色金属学报, 2018, 3.
2017
1. Liu L, Bao R*, Yi J, et al. Well-dispersion of CNTs and enhanced mechanical properties in CNTs/Cu-Ti composites fabricated by molecular level mixing[J]. Journal of Alloys and Compounds, 2017, 726: 81-87.
2. Cheng B, Bao R*, Yi J, et al. Interface optimization of CNT/Cu composite by forming TiC nanoprecipitation and low interface energy structure via spark plasma sintering[J]. Journal of Alloys and Compounds, 2017, 722: 852-858.
3. Guo S, Bao R, Yang J, et al. Effect of Mo and Y2O3 additions on the microstructure and properties of fine WC-Co cemented carbides fabricated by spark plasma sintering[J]. International Journal of Refractory Metals and Hard Materials, 2017, 69: 1-10.
4. Liu X, Li C, Eckert J, Prashanth K, Renk O, Teng L, Liu Y, Bao R, et al. Microstructure evolution and mechanical properties of carbon nanotubes reinforced Al matrix composites[J]. Materials Characterization, 2017, 133: 122-132.
5. 刘亮, 鲍瑞*, 易健宏, 等. 碳纳米管-石墨烯气凝胶的制备与性能[J]. 复合材料学报, 2017, 34(10): 2296-2303.
6. 程博文, 鲍瑞*,易健宏, 等. 碳纳米管增强 Cu 基和 Al 基复合材料界面改性[J]. 粉末冶金技术, 2017: 384-391.
7. 李澜波, 鲍瑞*, 易健宏, 等. 微波烧结碳纳米管增强铜基复合材料的显微组织与力学性能[J]. 粉末冶金材料科学与工程, 2017: 569-575.
8. 刘亮, 鲍瑞*, 易健宏, 等. 微波辅助化学镀铜制备CNTs/Cu复合粉体[J]. 粉末冶金材料科学与工程, 2017, 2.
2016年以前
1. Bao R, Yi J. Densification and alloying of microwave sintering WC–8 wt.% Co composites[J]. International Journal of Refractory Metals and Hard Materials, 2014, 43: 269-275.
2. Bao R, Yi J. Effect of sintering atmosphere on microwave prepared WC–8wt.% Co cemented carbide[J]. International Journal of Refractory Metals and Hard Materials, 2013, 41: 315-321.
3. Bao R, Yi J, Zhang H, et al. A research on WC–8Co preparation by microwave sintering[J]. International Journal of Refractory Metals and Hard Materials, 2012, 32: 16-20.
4. Zheng J, Bao R*, Yi J, et al. Microwave purification of multi-wall carbon nanotubes in gas phase[J]. Diamond and Related Materials, 2016, 68: 93-101.
5. Li C, Liu X, Yi J, Teng L, Bao R, et al. Effects of sintering parameters on the microstructure and mechanical properties of carbon nanotubes reinforced aluminum matrix composites[J]. Journal of Materials Research, 2016, 31(23): 3757.
6. Kang K, Yan J, Zhang J, Du J, Yi J, Liu Y, Bao R, et al. (Ge, GeO2, Ta2O5, BaCO3) co-doping TiO2 varistor ceramics[J]. Journal of Alloys and Compounds, 2015, 649: 1280-1290.
7. Rui BAO, YI J, PENG Y, et al. Decarburization and improvement of ultra fine straight WC–8Co sintered via microwave sintering[J]. Transactions of Nonferrous Metals Society of China, 2012, 22(4): 853-857.
8. Bao R, Yi J H, Zhang J M, et al. Double Inhibitory Actions on WC Grains of Microwave Sintered WC-12wt% Co-VC Alloy[C]//Materials Science Forum. Trans Tech Publications Ltd, 2015, 816: 715-721.
9. Bao R, Yi J H, Peng Y D, et al. Skin effect of WC–8 wt% Co alloy by microwave sintering[J]. Rare Metals, 2015: 1-5.
10. Bao R, Yi J, Peng Y, et al. Effects of microwave sintering temperature and soaking time on microstructure of WC-8 Co[J]. Transactions of the Nonferrous Metals Society of China, 2013, 23(2): 372-376.
11. 鲍瑞, 李澜波, 易健宏, 等. CNTs 增强铜基复合粉末制备的研究进展[J]. 粉末冶金技术, 2016, 6.
12. 易健宏, 鲍瑞*. 粉末冶金在 CNTs 增强金属基复合材料中的应用[J]. 粉末冶金工业, 2015, 25(01): 1-7.
13. 郭圣达, 鲍瑞, 易健宏, 等. SPS 原位碳化合成 WC-6Co 硬质合金[J]. 中国钨业, 2016, 6.
14. 杨超, 李才巨, 易健宏, 等. 碳纳米管在铝基复合材料中分散的研究进展[J]. 材料导报, 2016, 30(17): 141-147.
15. 郑佳, 鲍, 邓辉, 等. 碳纳米管的纯化研究进展[J]. 粉末冶金技术, 2015: 222-231.

科研成果(授权专利)
1. 鲍瑞; 易健宏; 陶静梅; 杨旭; 杨红梅; 付志华. 一种金属基复合材料的制备装置, **, 中国, ZL 5.3. (实用新型)
2. 鲍瑞; 毛帅; 易健宏.一种银/氯化银/二氧化钛复合光催化剂的制备方法, **, 中国, ZL 0.0. (发明专利)
3. 鲍瑞; 易健宏. 一种高通量合金粉末的制备装置, **, 中国, ZL 8.5. (实用新型)
4. 鲍瑞;赵文敏; 方东; 易健宏; 陈相扬; 一种碳纳米管负载石墨烯-铜纳米颗粒的复合柔性导电膜的制备方法, **, 中国, ZL 2018 1 **.4. (发明专利)
5. 鲍瑞;刘亮; 易健宏; 一种基于反歧化反应的碳纳米管/铜复合粉末制备方法, **, 中国, ZL 2017 1 **.5. (发明专利)
6. 鲍瑞;刘亮; 易健宏; 一种利用微波制备碳纳米管增强铜基复合材料的方法, 2019-4-12, 中国, ZL 2017 1 **.2. (发明专利)
7. 鲍瑞; 郑佳; 易健宏; 沈韬; 李才巨; 刘意春; 游昕; 谈松林; 李凤仙; 张家敏; 一种微波烧结制备碳纳米管增强铜基复合材料的方法, **, 中国, ZL 2.0. (发明专利)
8. 鲍瑞; 刘亮; 易健宏; 李才巨; 刘意春; 李凤仙; 陶静梅; 游昕; 谈松林; 一种光催化用负载纳米氧化亚铜颗粒的碳纳米管-石墨烯材料的制备方法, **, 中国, ZL2017 1 **.6. (发明专利)
9. 鲍瑞; 毛帅; 易健宏.一种二氧化钛/氧化亚铜复合光催化剂的制备方法, **, 中国, ZL 3.0. (发明专利)
10. 鲍瑞; 易健宏; 方东. 一种卤化物光催化反应装置, **, 中国, ZL 8.5. (实用新型)
11. 鲍瑞; 易健宏; 方东. 一种粒度可分级的喷雾热解装置, **, 中国, ZL7.4. (实用新型)
12. 鲍瑞; 易健宏. 一种自动修正微波升温工艺的装置, **, 中国, ZL4.6. (实用新型)
13. 鲍瑞; 易健宏. 一种制备二硫化钼包覆碳质同轴线的装置, **, 中国, ZL5.X. (实用新型)
14. 鲍瑞;郑佳; 易健宏; 沈韬; 李才巨; 刘意春; 游昕; 谈松林; 李凤仙; 张家敏. 一种微波烧结制备碳纳米管增强铜基复合材料的方法, **, 中国, ZL 0.0. (发明专利)
15. 鲍瑞; 刘亮; 易健宏; 刘鹏; 杨笑宇. 一种制备超细复合粉体的装置, **, 中国, ZL9.3. (实用新型)
16. 鲍瑞;程博文; 易健宏; 李澜波. 一种制备金属氧化物超细粉末的装置, **, 中国, ZL 3.6. (实用新型)
17. 鲍瑞;易健宏; 李凤仙; 谈松林; 张家敏; 游昕. 一种用微波反应烧结制备WC-Co硬质合金的方法, **, 中国, ZL 9.2. (发明专利)
18. 鲍瑞;黄湛明. 一种微波辅助搅拌球磨反应器, **, 中国, ZL 8.2. (实用新型)
19. 鲍瑞;黄湛明. 一种基于微波加热的恒温水浴锅, **, 中国, ZL 8.1. (实用新型)
20. 易健宏; 鲍瑞; 张浩泽; 彭元东; 李丽娅; 李爱坤. 一种微波烧结制备WC-Co硬质合金的方法, **, 中国, ZL 5.7 (发明专利)
21. 易健宏; 鲍瑞; 张浩泽; 彭元东; 李丽娅; 李爱坤. 微波烧结保温装置, **, 中国, ZL 9.1(实用新型)
22. 欧阳晓平; 鲍瑞; 毛评生; 毛亮程. 一种从高危固废铜砷滤饼中提取铼酸铵的方法, **, 中国, ZL2.2. (发明专利)
23. 王金斌; 鲍瑞; 毛评生; 欧阳晓平; 钟向丽; 杨天足; 毛亮程. 非转动加热腔体的物料翻滚走料装置, **, 中国, ZL2.4. (发明专利)
24. 王金斌; 鲍瑞;毛评生; 欧阳晓平; 钟向丽; 杨天足; 毛亮程. 一种非转动加热腔体的物料翻滚走料装置, **, 中国, ZL 7.0. (实用新型)
25. 欧阳晓平; 鲍瑞; 毛评生;毛亮程. 一种高温喷雾反应设备, **, 中国, ZL 3.4(实用新型)
26. 欧阳晓平; 鲍瑞; 毛评生;毛亮程. 一种竖式气固反应装置, **, 中国, ZL 1.5(实用新型)
27. 欧阳晓平; 鲍瑞;王金斌; 毛评生; 钟向丽; 杨天足; 毛亮程. 一种全密闭、全自动喷淋回收气体的装置, **, 中国, ZL 3.7(实用新型)
28. 王金斌; 鲍瑞;毛评生; 欧阳晓平; 钟向丽; 杨天足; 毛亮程. 一种非转动加热腔体的物料翻滚走料装置, **, 中国, ZL 7.0(实用新型)
29. 黄湛明; 鲍瑞.一种基于微波辅助加热的搅拌釜, **, 中国, ZL 2.5. (实用新型)
30. 黄湛明; 鲍瑞.一种微波辅助行星式球磨反应器,**, 中国, ZL 0.5. (实用新型)
31. 黄湛明; 鲍瑞.一种碳酸锂提纯工艺装置,**, 中国, ZL 1.1. (实用新型)
32. 黄湛明; 鲍瑞.一种制备氢氧化锂微纳粉体的装置,**, 中国, ZL 2.6. (实用新型)
33. 李学文; 鲍瑞; 何继军. 一种微波高温连续还原生产海绵铁和镍铁的工艺方法, **, 中国, ZL0.0. (发明专利)
34. 李学文; 鲍瑞; 何继军. 一种用于微波高温连续反应的舟车装置, **, 中国, ZL7.3. (实用新型)
35. 李学文; 鲍瑞; 何继军. 一种用于微波高温连续氧化、还原的装置, **, 中国, ZL8.8. (实用新型)
36. 欧阳晓平; 毛评生; 鲍瑞; 毛亮程. 流体热交换装置, **, 中国, ZL 5.0(实用新型)
37. 易健宏; 程博文; 刘亮; 鲍瑞. 一种CNTs/TiO2纳米复合粉末增强Cu基复合材料的方法, **, 中国, ZL 4.X. (发明专利)
38. 欧阳晓平; 毛评生; 鲍瑞;毛亮程. 一种密闭的卸料装置, **, 中国, ZL2.1. (发明专利)
39. 欧阳晓平; 毛评生; 鲍瑞;毛亮程. 物料反应装置, **, 中国, ZL 0.2. (实用新型)
40. 欧阳晓平; 毛评生; 鲍瑞;毛亮程. 物料反应装置,**, 中国, ZL 9.5. (实用新型)
41. 欧阳晓平; 毛评生; 鲍瑞;毛亮程. 一种卸料装置,**, 中国, ZL 6.0. (实用新型)
42. 欧阳晓平; 毛评生; 鲍瑞;毛亮程. 一种进料装置,**, 中国, ZL 0.6. (实用新型)
43. 欧阳晓平; 毛评生; 鲍瑞; 毛亮程. 一种管道振动式物料反应装置,**, 中国, ZL 3.5 (实用新型)
44. 欧阳晓平; 毛评生; 鲍瑞; 毛亮程. 一种连续式高温浸出装置,**, 中国, ZL 9.1 (实用新型)
45. 欧阳晓平; 毛评生; 鲍瑞; 毛亮程. 一种微波高温浸出装置,**, 中国, ZL 7.2.(实用新型)
46. 欧阳晓平; 毛评生; 鲍瑞; 毛亮程. 一种蒸汽式高温浸出装置,**, 中国, ZL 4.9.(实用新型)
47. 欧阳晓平; 毛评生; 鲍瑞; 毛亮程. 浸出反应装置,**, 中国, ZL 6.4.(实用新型)
48. 欧阳晓平; 毛评生; 鲍瑞; 毛亮程. 一种球磨设备, **, 中国, ZL 2.X(实用新型)
49. 易健宏; 郭圣达; 鲍瑞; 刘亮; 杨平. 一种碳化钨-钴硬质合金的制备方法, **, 中国, ZL7.1. (发明专利)
50. 陶静梅; 魏霞; 易健宏; 鲍瑞; 刘意春; 李凤仙; 李才巨; 游昕; 谈松林. 一种具有层级结构的CNT-GO/Cu复合材料的制备方法, **, 中国, ZL 7.7. (发明专利)
51. 陶静梅; 刘贵君; 易健宏; 鲍瑞; 刘意春; 李凤仙; 李才巨; 游昕; 谈松林. 一种裂解碳纳米管增强铜基复合材料的制备方法, **, 中国, ZL 5.0. (发明专利)
52. 陶静梅; 陈小丰; 易健宏; 鲍瑞;李才巨; 刘意春; 游昕; 谈松林; 李凤仙. 一种碳纳米管增强铜基复合材料的制备方法, **, 中国, ZL 5.0(发明专利)
53. 陶静梅; 王梦圆; 易健宏; 刘意春; 鲍瑞;李凤仙; 李才巨; 游昕; 谈松林. 一种层状碳纳米管增强铜基复合材料的制备方法, **, 中国, ZL 8.1. (发明专利)
54. 李才巨; 徐尊严; 秦博; 易健宏; 鲍瑞;高鹏. 一种耐磨减摩铝基复合材料, **, 中国, ZL 9.8. (发明专利)
55. 李才巨; 杨超; 易健宏; 沈韬; 鲍瑞;刘意春; 陶静梅; 谈松林; 游昕; 李凤仙. 一种碳纳米管增强铝基多层复合材料的制备方法, **, 中国, ZL 8.1(发明专利)
56. 刘意春; 汪从珍; 马俊宾; 陶静梅; 鲍瑞;谈松林; 游昕; 方东; 李才巨; 易健宏. 一种多孔泡沫增强金属复合材料及其制备方法, **, 中国, ZL 4.X. (发明专利)
57. 刘意春; 赵琪; 谢明; 贾璐; 沈韬; 李才巨; 鲍瑞;陶静梅; 谈松林; 游昕; 易健宏. 一种碳纳米管表面均匀包覆金属银的方法及装置, **, 中国, ZL 2.5(发明专利)
58. 易健宏; 刘警峰; 张正富; 甘国友; 李才巨; 鲍瑞;刘意春. 一种纳米花状锂离子电池负极材料的制备方法, **, 中国, ZL 6.1. (发明专利)
59. 刘意春; 赵琪; 谢明; 贾璐; 沈韬; 李才巨; 鲍瑞;陶静梅; 谈松林; 游昕; 易健宏. 一种制备纳米银的方法, **, 中国, ZL 2.5(发明专利)
60. 刘意春; 赵琪; 谢明; 贾璐; 沈韬; 李才巨; 鲍瑞;陶静梅; 谈松林; 游昕; 易健宏. **, 一种碳纳米管表面均匀包覆金属银的装置, 中国, ZL 2.X(发明专利)
61. 严继康; 唐婉霞; 倪尔鑫; 段志操; 甘国友; 杜景红; 张家敏; 刘意春; 鲍瑞; 易健宏. 一种复合氧化制备生物陶瓷膜的方法, **, 中国, ZL 4.0(发明专利)
62. 甘国友; 康昆勇; 严继康; 易建红; 杜景红; 张家敏; 刘意春; 鲍瑞;谈松林; 赵文超; 荣雪全; 王志敏. 一种压敏陶瓷材料的制备方法及应用, **, 中国, ZL 5.6(发明专利)
63. 甘国友; 康昆勇; 严继康; 易建红; 杜景红; 张家敏; 刘意春; 鲍瑞;谈松林; 赵文超; 荣雪全; 王志敏. **, 中国, ZL 7.4(发明专利)
64. 严继康; 刘王; 唐婉霞; 甘国友; 倪尔鑫; 段志操; 黄思仁; 杜景红; 张家敏; 刘意春; 谈松林; 李凤仙; 鲍瑞;易健宏. 一种无机防火材料及其制备方法, **, 中国, ZL 2.0发明专利)

科研成果(获奖情况)
鲍瑞; 高性能、高稳定性与长寿命Sm2Co17型稀土永磁材料的研究及应用, 中国有色金属工业协会, 其他, 省部二等奖, 2016.

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