团队名称

陕西省先进陶瓷材料多功能化工程技术研究中心

学术交流

国际合作交流:

2015.12-2017.6 美国加州大学洛杉矶分校  访问学者


学术会议:

[1] 国际会议 Tech-connection of Advanced Materials. 日本北海道. 2015.08  Poster

[2] 国际会议 International Ceramic Conference 5. 北京. 2014.08   Poster

[3] 国际会议The 13th Anniversary of the International Symposium on Ecomaterials Processing and Design (ISEPD2013),日本鹿儿岛. 2013.01  Oral

[4] 国内会议 第二届中国复合材料学会年会(CCCM-2) 江苏镇江. 2015.09    Oral

[5] 国内会议 第十一届全国工程陶瓷学术年会. 武汉. 2013.10    Poster

[6] 国内会议 2013 中国力学大会. 西安. 2013.08         Poster

科研项目
项目编号 项目名称 项目来源 起讫时间 承担角色 项目类别
2018JQ5008 磷化硼填充树脂基新型热管理材料的低成本制备及热性能研究 陕西省基金2018-1~负责人纵向项目
/ 炭微球负载石墨烯填充热界面材料的制备及导热性能研究 西安交通大学基本科研业务费自由探索项目2018-1~负责人纵向项目
51572111HZ 电场驱动锌离子迁移原位形成锑化锌梯度材料及其热稳定性 国家自然科学基金项目2016-1~骨干成员纵向项目
11472209 再生碳纤维增强点阵金属泡沫铝复合材料的静动态力学行为及其强韧化机制研究 国家自然科学基金项目2015-1~骨干成员纵向项目
/ 金属三明治板三维点阵约束高性能混凝土的抗侵彻行为及机理研究 西安交通大学“新教师科研支持计划”2014-4~负责人纵向项目
2014gjhz06 非晶Si-C-O/F(Cr)合金的制备及性能研究, 西安交通大学基本科研业务费 国际科技合作项目2014-4~负责人纵向项目
2015KTCL01-13 煤化工领域微纳多孔陶瓷过滤元件及组件的设计与制备关键技术 陕西省科技统筹创新工程计划项目2014-1~骨干成员纵向项目
hsm1305 RPC混凝土填充金属点阵三明治板的抗侵彻行为研究 江苏省高端结构材料重点实验室开放基金2013-9~负责人纵向项目
2013T60874 高性能混凝土填充金属三明治板的抗侵彻行为及机理研究 中国博士后特别资助2013-6~负责人纵向项目
51202181 活化辅助造孔多孔炭反应形成碳化硅的硅化机理及结构调控 国家自然科学基金项目2013-1~负责人纵向项目
2012M511997 中间相炭微球活化成孔制备反应烧结碳化硅及其形成机制 中国博士后面上项目2012-5~负责人纵向项目
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发表论文

2017

[1] K. Zhang, Z. Shi, X. Zhang, Z. Zhang, B. Ge, H. Xia, Y. Guo, G Qiao. Molten salt synthesis of continuous tungsten carbide coatings on graphite flakes. Ceramics

International 43(2017)8089-8097

[2] H Jin, Z Shi, X Li, Y Li, H Xia, Z Xu, G Qiao. Effect of rare earth oxides on the microstructure and properties of mullite/hBN composites. Ceramics International

43(2017)3356-3362

[3] H. Jin, Y.F. Li, Z.Q. Shi, H.Y. Xia, G.J. Qiao. Effect of Y2O3 on the sintering, mechanical and dielectric properties of mullite/h-BN composites. Materials Science

Forum 848 (2017) 28-31

2016

[1] H.Y Xia, K. Wang, S.H. Yang, Z.Q. Shi, H.J. Wang, J.P. Wang. Formation of graphene flowers during high temperature activation of mesocarbon microbeads with KOH. Microporous and Mesoporous Materials 234 (2016) 384-391.

[2] K. Zhang, Z.Q. Shi, H.Y. Xia, K. Wang, G.W. Liu, G.J. Qiao, J.F.Yang. Preparation and thermophysical properties of directional SiC/Cu-Si composite via spontaneous infiltration. Ceramics International 42(2016)996-1001.

[3] C. Wang, M. Chen, H. Wang, X. Fan, H.Y. Xia. Fabrication and thermal shock resistance of multilayer γ-Y2Si2O7 environmental barrier coating on porous Si3N4 ceramic. Journal of the European Society 36(2016)689–695

[4] X. Fan, H. Wang, M. Niu, L. Su, D. Zhang, J. Zhou, J. Fan, J. Shi. Effects of different sintering additives on the synthesis of γ-Y2Si2O7 powders. Ceramics International 42(2016) 14813-14817

2015

[1] H.Y. Xia, X. Zhang, Z.Q. Shi, et al. Mechanical and thermal properties of reduced graphene oxide reinforced aluminum nitride ceramic composites. Mater. Sci. Eng. A 639(2015) 29-36.

[2] C.Y. Ni, R. Hou, H.Y. Xia*, et al. Perforation resistance of corrugated metallic sandwich plates filled with reactive powder concrete: Experiment and simulation. Composite Structures 127(2015) 426–435.

[3] K. Wang, C.J. Zhou, D. Xia, Z.Q. Shia, ,C. He, H.Y. Xia, et al. Component-controllable synthesis of Co(SxSe1−x)2 nanowires supported by carbon fiber paper as high-performance electrode for hydrogen evolution reaction. Nano energy 18(2015)1-11.

[4] Y.Y. Shao, H.Y. Xia, R. Tang, Z.Q. Shi, J.F. Yang, J.P. Wang. A low cost preparation of C/SiC composites by infiltrating molten Si into gelcasted pure porous carbon preform. Ceramics International  2015,41:(5)6478-6487.

[5] K. Zhang, H.Y. Xia, B. Wang, Z.Q. Shi, X.Z. Zhang, G.W. Liu, G.J. Qiao. Preparation and thermal-physical properties of three dimensional bicontinuous SiC/Cu-Si composite. Materials Science Forum 2015,804:187-190

[6] K. Wang, Z.Q. Shi, Y.Y. Wang, Z.G. Ye, H.Y. Xia, G.W. Liu, G.J. Qiao. Co3O4 nanowires@MnO2 nanolayer or nanoflakes core-shell arrays for high-performance supercapacitors: the influence of morphology on Performance. Journal of Alloys and Compounds 2015,624:85-93.

[7] K. Wang, D. Xi, C.j. Zhou, Z.Q. Shi, H.Y. Xia, G.W. Liu, G.J. Qiao. CoSe2 necklace-like nanowires supported by carbon fiber paper: a 3D integrated electrode for the hydrogen evolution reaction. Journal of Materials Chemistry 3(2015) 9415-9420.

[8] C. WangH. Wang, X. Fan, J. Zhou, H.Y. Xia, J Fan. Fabrication of dense β-Si 3 N 4-based ceramic coating on porous Si 3 N 4 ceramic. 35(2015)1743–1750.

2014

[1] H.Y.Xia, W.B. Wang, Z.Q.Shi. Mechanical properties of reactive powder concrete with ultra-short brass-coated steel fibres. Magazine of Concrete Research 67(2014)308-316.

[2] 夏鸿雁, 侯润等. 高性能混凝土填充金属三明治夹层波纹板的抗侵彻性能. 硅酸盐学报 42(2014)75-78.

[3] H.C. Shao, H.Y. Xia*, G.W. Liu, G.J. Qiao, Z.C. Xiao, J.M. Su, et al. Densification Behavior and

Performances of C/C Composites Derived from Various Carbon Matrix Precursors. Journal of Materials Engineering and Performance 23(2014): 133–141.

[4] M. Chen, C. Wang, H.J. Wang, L.Fan, H.Y. Xia, Z.Q. Shi. Fabrication of hierarchically porous Si3N4 foam ceramics with stamen-like cell structure. Materials Letters 128(2014)156-159.

2013

[1] H.Y. Xia, J.P. Wang, J.P. Lin, G.W. Liu, G.J. Qiao. Thermal conductivity of SiC ceramic fabricated by liquid infiltrating molten Si into mesocarbon microbeads–based preform. Mater. Charact. 82(2013) 1–8.

[2] H.Y. Xia, J.P. Wang, Z.Q. Shi, G.J. Qiao. Reciprocating friction and wear properties of mesocarbon microbeads–based graphite and siliconized graphite. J. Nucl. Mater. 433(2013) 341–344.

[3] H.Y. Xia, G.J. Qiao, S.L. Zhou, J.P. Wang. Reciprocating friction and wear behavior of reaction–formed SiC ceramic against bearing steel ball. Wear 303(2013)276 – 285.

2012年及以前

[1] H.Y. Xia, J.P. Wang, Z.Q. Shi, G.W. Liu, G.J. Qiao. Sliding wear behavior of mesocarbon microbeads based carbon materials. Wear 274– 275(2012) 260–266.

[2] H.Y. Xia, J.P. Wang, B. Huang, et al. The influence of ball-milling on improving the performance of mesocarbon microbeads based carbon blocks. Mater. Sci. Eng. A 529(2011)282-288.

[3] H.Y. Xia, J.P. Wang, G. Liu , et al. Effect of nano-SiC on the sintering behavior and properties of calcined carbon derived from mesocarbon microbeads. J. Nucl. Mater. 403 (2010)42-47.

[4] H.Y. Xia, J.P. Wang, H. Jin, et al. Fabrication and properties of reaction-formed SiC by infiltrating molten Si into mesocarbon microbeads-based carbon preform. Mater. Sci. Eng. A 528(2010) 283-287.

[5]夏鸿雁, 王继平, 黄斌, 乔冠军. 中间相炭微球为炭源反应形成SiC陶瓷及其结构与性能[J]. 固体火箭技术. 2011,34(4):514-519.

专利
名称 申请号 专利类型 申请日期
反应烧结及微氧化处理制备多孔碳化硅陶瓷的方法 ZL201510465513.4 发明 2015.08.01
一种多孔碳化硅球形粉末的制备工艺 ZL201510487102.5发明 2015.08.01
一种混凝土浇筑三明治金属板型复合装甲及其制备方法 CN102865777A发明 2013.09.01
一种低成本金属混凝土复合结构装甲板及其制备方法 CN102865776A发明 2013.09.01
以中间相炭微球为炭源的反应烧结碳化硅陶瓷的制备方法 ZL 2009 1 0219518.3发明 2009.12.16
一种高强高密各向同性炭滑板的制备方法 ZL 2009 1 0219517.9发明 2009.12.09
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