2007/09 - 2010/06，中南大学，粉末冶金研究院，           博士

2010/01 - 2010/03，美国San Francisco State University，    交换生

2005/09 - 2007/06，中南大学，粉末冶金研究院，           硕士

2001/09 - 2005/06，中南大学，资源加工与生物工程学院，   学士

2018/09 - 至今，  中南大学，粉末冶金研究院，       研究员

2014/09 - 至今，  中南大学，粉末冶金研究院，       博士生导师

2014/11 - 2015/10，美国Georgia Institute of Technology， 访问学者

2013/09 - 2018/08，中南大学，粉末冶金研究院，     副研究员

2012/12 - 2014/11，杭州前进齿轮箱集团股份有限公司， 博士后

2010/12 - 2012/11，中南大学，冶金工程博士后流动站， 博士后

2010/09 - 2013/08，中南大学，粉末冶金研究院，       助理研究员

专著教材

[1] 碳陶摩擦材料的制备、性能与应用, 科学出版社, 470千字, 2016.07

 

学术论文

[1]    Yan-qi Huang, Zhuan Li*, Peng-fei Liu, Tian-xing Huang, Yang Li, Peng Xiao. Tribological properties of Mullite/3Y-TZP ceramics with different content of mullite fabricated by gel-casting. Applied Surface Science, 2019, 476: 232-241

[2]    Tianhui Jiang, Zhuan Li*, Peng Xiao, Jing Liu, Pengfei Liu, Shu Yu, Tao Xiao, Lihong Liu. Effect of different chemical treatments on hydroxyapatite formation of carbon fibers reinforced carbon and SiC dual matrices composites. Surface & Coatings Technology, 2019, 357:153-160

[3]    Guan-yi Chen, Zhuan Li*, Peng Xiao, Wen-jie Ma, Xi Ouyang, Peng-tao Li, Jin-wei Li, Yang Li. Tribological properties and thermal-mechanical analysis of C/C-SiC composites during braking[J]. Transactions of Nonferrous Metals Society of China, 2019,29(1) 123-131

[4]    Yan-qi Huang, Peng-fei Liu, Zhuan Li*, Peng Xiao, Effects of the content of in-situ grown mullite on the microstructure and mechanical properties of 3Y-TZP ceramics fabricated by gel-casting. Ceramics International,2018, 44(17) :21882-21892

[5]    Peng-fei Liu, Zhuan Li*, Peng Xiao, Yang Li, Ze-yan Liu, Heng Luo, Yan-qi Huang. Effect of the molecular weight and concentration of PEG solution on microstructure and mechanical properties of Si3N4 ceramics fabricated by gel-casting [J]. Ceramics International, 2018.44(8), 8800-8808

[6]    Yang Li, Peng Xiao*, Wei Zhou*, Heng Luo, Zhuan Li. Microstructure and properties of plain-weave carbon fabric reinforced ceramic composites containing Cu-Si alloy [J]. Composites Part B 145 (2018) 129-135

[7]    Peng-fei Liu, Zhuan Li*, Peng Xiao*, Heng Luo, Tian-hui Jiang. Microstructure and mechanical properties of in-situ grown mullite toughened 3Y-TZP zirconia ceramics fabricated by gelcasting[J]. Ceramics International, 2018.44(2), 1394-1403

[8]    Bengu Zhang, Peng Xiao*, Yang Li*, Zhuan Li, Wei Zhou, Heng Luo, Yuhai Lu. Microstructures and tribological properties of carbon/carbon-boron nitride composites fabricated by powdered additives and chemical vapor infiltration[J]. Ceramics International, 2017.43(10), 7607-7617

[9]    Peng Xiao, Yu-hai Lu, Yi-zhong Liu, Zhuan Li, Hua-chan Fang, Wei Zhou, Renato S.M. Almeida, Yang Li*. Microstructure and properties of Cu-Ti alloy infiltrated chopped Cf reinforced ceramics composites, Ceramics International, 43 (2017) 16628-16637

[10] Yuhai Lu, Zhuan Li, Wei Zhou, Peng Xiao, Manufacture and Tribological Behavior of C/C-SiC Brake Composites Modified with Fe-Si Alloy[J]. Journal of Ceramic Science and Technology, 2017, 8(2):213-222

[11] Yang Li, Peng Xiao, Yuan Shi, Renato S.M. Almeida, Wei Zhou, Zhuan Li*, Heng Luo, Florian Reichert, Nico Langhof, Walter Krenkel. Mechanical behavior of LSI based C/C-SiC composites subjected to flexural loadings[J]. Composites Part A, 2017, 95:315-324

[12] Ben-gu Zhang, Yang Li , Peng Xiao, Wei Zhou, Heng Luo, Zhuan Li*. Residual strength evolution of 2D C/C-SiC composites subjected to tensile fatigue stresses[J]. Journal of Ceramic Science and Technology, 2017, 7(4):478-483

[13] Yang Li, Peng Xiao, Heng Luo, Renato S.M. Almeida, Zhuan Li*, Wei Zhou, Alexander Brückner, Florian Reichert, Nico Langhof, Walter Krenkel. Fatigue behavior and residual strength evolution of 2.5D C/C-SiC composites[J]. Journal of the European Ceramic Society, 2016, 36(16):3977-3985

[14] Yang Li, Peng Xiao , Zhuan Li*, Wei Zhou, Tom Liensdorf, Wolfgang Freudenberg, Florian Reichert, Nico Langhof, Walter Krenkel. Strength evolution of cyclic loaded LSI-based C/C-SiC composites[J]. Ceramics International. 2016, 42(13):14505-14510

[15] Zhuan Li*, Ying Long, Yang Li , Ben-gu Zhang, Xiang Xiong, Peng Xiao*. Microstructure and properties of needle punching chopped carbon fiber reinforced carbon and silicon carbide dual matrix composite[J]. Ceramics International, 0272-8842,  2016, 42: 9527-9537.

[16] Wen Zhong Liu, Xiao Peng, Li Zhuan, Yu XiaoYu, Li Yang. Thermal cycling behavior and oxidation resistance of SiC whisker-toughened-mullite/SiC coated carbon/carbon composites in burner rig tests. Corrosion Science 106 (2016) 179–187

[17] Yang Li, Peng Xiao*, Zhuan Li, Wei Zhou, TomLiensdorf, Wolfgang Freudenberg, Nico Langhof , Walter Krenkel. Tensile fatigue behavior of plain-weave reinforced C_f/C–SiC composites. Ceramics International, 0272-8842, 2016, 42: 6850-6857.

[18] Zhuan Li*, Peng Xiao*, Ben-gu Zhang, Yang Li, Yu-hai Lu, Su-hua Zhu. Preparation and dynamometer tests of 3D needle-punched C/C-SiC brake composites for high-speed and heavy-duty brake systems. International Journal of Applied Ceramic Technology, 1744-7402，2016,13(3):423-433.

[19] Zhuan Li^#, Yi-zhong Liu^#, Ben-gu Zhang, Yu-hai Lu, Li Yang, Xiao Peng*. Microstructure and tribological characteristics of needled C/C–SiC brake composites fabricated by simultaneous infiltration of molten Si and Cu[J]. Tribology International, 0301-679X, 2016, 93: 220-228.

[20] Zhuan Li*, Peng Xiao*, Ben-gu Zhang, Yang Li, Yu-hai Lu. Preparation and tribological properties of C/C–SiC brake composites modified by in situ grown carbon nanofibers[J]. Ceramics International, 0272-8842,  2015, 41(9): 11733-11740.

[21] Zhong-liu Wen, Peng Xiao*, Zhuan Li, Wen Hong, Heng Luo, Xiao-yu yu, Yang Li and Wen-bo Chen. Microstructure and oxidation behavior of sol–gel mullite coating on SiC-coated carbon/carbon composites[J]. Journal of the European Ceramic Society, 0955-2219, 2015, 35(14): 3789-3796.

[22] Wen Hong, Peng Xiao*, Heng Luo, Zhuan Li. Microwave axial dielectric properties of carbon fiber[J]. Scientific Reports, 2045-2322, 2015, 5: 14927-14935.

[23] Wen Hong, Peng Xiao*, Zhuan Li,  Heng Luo. Microwave radial dielectric properties of carbon fiber bundle: Modeling, validation and application[J]. Carbon, 2014, 79: 538-543.

[24] Zhuan Li, Peng Xiao, Xiang Xiong, Bo-yun Huang. Preparation and tribological properties of C fibre reinforced C/SiC dual matrix  fabrication by liquid silicon infiltration [J]. Solid State Sciences, 16: 6-12, 2013

[25] Zhuan Li, Peng Xiao, Xiang Xiong. Tribological characteristics of different components on C/C-SiC composites fabricated by warm compacted in-situ reaction [J]. Applied Mechanics and Materials, 268-270: 59-62, 2013

[26] Zhuan Li, Peng Xiao, Xiang Xiong. Microstructure and mechanical properties of 3D needled carbon fibre reinforced carbon and silicon carbide composites [J]. Advanced Materials Research, 311-313: 2059-2062, 2011

[27] Peng Xiao, Zhuan Li, Xiang Xiong. Microstructure and tribological properties of 3D needle-punched C/C-SiC brake composites. Solid State Sciences, 2010, 12(4): 617-623

[28] Peng Xiao, Zhuan Li, Xiang Xiong. The morphology and form mechanism of SiC in C/C-SiC composites fabricated by liquid silicon infiltration. Journal of Ceramic Processing Research, 2010, 11(3):335-340

[29] Peng Xiao, Zhuan Li, Xiang Xiong. Proparation, properties and application of C/C-SiC composites fabricated by warm compacted-in situ reaction. Journal of Materials Science & Technology, 2010, 26(3): 283-288

[30] Zhuan Li, Peng Xiao, Xiang Xiong. Preparation and friction behavior of C/C-SiC brake composites fabricated by warm compacted-in situ reaction. International Journal of Minerals Metallurgy and Materials, 2010, 11(4):500-505

[31] Zhuan Li, Peng Xiao, Xiang Xiong. Manufacture and properties of carbon fibre-reinforced C/SiC dual matrix composites[J]. New carbon materials, 2010, 25(3): 225-231.

 

专利信息

[1]一种三维网络碳化硅增强金属基复合材料方法及制备方法，2018.12，201811405955.X

[2]一种个性化的碳陶复合材料接骨板及其制备方法，2017.12，201711423909.8

[3]一种氧化锆陶瓷基复合材料及其制备方法，2017.11，201711092738.5

[4]一种骨诱导碳基复合材料接骨板及制备方法，2017.09，201710819210.7

[5]一种大尺寸薄壁碳基复合材料构件及其制备方法，2017.03，201710208733.8

[6]一种带消光漆的碳基复合材料及其制备方法和应用, 2017.03，201710204164.X

[7]一种功能陶瓷凝胶流延浆料及其制备方法，2017.02，201710104244.8

[8]一种碳陶复合材料制动盘及制备方法，2013.10，201310502512.3

[9]一种离合器用干式铜基粉末冶金摩擦材料及其制备方法, 2016.10, 201610518088.5

[10] 一种城市轨道车辆用炭陶制动闸瓦及其制造方法，2013.09，201210131818.8

[11] 炭纤维增强炭-碳化硅双基体摩擦材料的制备方法，2013.03， 200910042779.2

[12] 一种铜硅合金改性炭陶摩擦材料的制备方法，2012.09，201010300558.3

[13] 一种炭纤维增强炭和六方氮化硼双基体摩擦材料的制备方法，2012.05，201010300543.7

[14] 一种工业制动器用炭陶制动衬片的制造方法，2010.10，200910042780.5

[15] 一种用于高速列车的碳陶制动闸片及制备方法，2013.10，201310502530.1

[16] 一种汽车制动盘，2014.07，201420404287.X

[17] 一种高速列车制动盘，2014.07，201420404617.5

[18] 一种炭纤维增强陶瓷基汽车刹车片的制造方法，2012.04，201210131411.5

[19] 一种陶瓷复合材料及其制备方法和应用，2014.09，201410505544.3

[20] 一种具有BMP缓释涂层的碳-碳复合材料接骨板及其制备方法，2018.03.09，201810196422

[21] 一种碳-碳复合材料接骨板及其制备方法，2018.03.09，201810195219

[22] 一种含钡锶铝硅酸盐/莫来石/SiC三层复合结构涂层的复合材料的制备方法，2016.04，201510967142.X

[23] 一种SiC晶须增韧莫来石抗氧化涂层的制备方法，2016.01，201510694771.X

[24] 一种莫来石抗氧化涂层的制备方法，2015.10，201510500693.5

[25] 一种高温热场与复杂气氛环境的静态耦合装置，2015.12，201510500903.0

[26] 一种可快速调节湿度的饱和盐式湿度发生器，2015.12，201510500694.X

[27] 一种浸渍提拉涂覆装置，2015.08，201510501347.9