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[1]Sha, J. J.,Wang, S. H.,Dai, J. X.,Zu, Y. F.,Li, W. Q.,Sha, R. Y..Improved microstructure and high temperature mechanical properties of C/C-SiC composites by introduction of ZrC nanoparticles[J],CERAMICS INTERNATIONAL,2020,46(6):8082-8091
[2]Zhang, Zhao,Tan, Zhi-Jun,Li, Jian-Yu,Zu, Yu-Fei,Sha, Jian-Jun.Integrated Modeling of Process-Microstructure-Property Relations in Friction Stir Additive Manufacturing[J],ACTA METALLURGICA SINICA-ENGLISH LETTERS,2020,33(1,SI):75-87
[3]Sha, J. J.,Lv, Z. Z.,Lin, G. Z.,Dai, J. X.,Zu, Y. F.,Xian, Y. Q.,Zhang, W.,Cui, D.,Yan, C. L..Synergistic strengthening of aluminum matrix composites reinforced by SiC nanoparticles and carbon fibers[J],MATERIALS LETTERS,2020,262
[4]Shao, Junqi,Du, Shiyu,Sha, Jianjun,Huang, Zhengren,Huang, Qing,Li, Mian,Chang, Keke,Huang, Ying,Ren, Donglou,Wang, Ji,Zhou, Xiaobing,He, Liu,Huang, Feng.Fabrication and characterization of SPS sintered SiC-based ceramic from Y3Si2C2-coated SiC powders[J],JOURNAL OF THE EUROPEAN CERAMIC SOCIETY,2018,38(15):4833-4841
[5]沙建军,代吉祥,祖宇飞.Enhanced fracture properties of ZrB2 -based composites by in-situ grown SiC nanowires [J],Advances in Applied Ceramics,2018
[6]祖宇飞,代吉祥,沙建军.Modification of the fiber-matrix interface in the carbon fiber reinforced zrb2 -based ultra-high temperature ceramic composites [J],Solid State Phenomena,2018,281:349-354
[7]祖宇飞,沙建军.含Cu界面层碳纤维增强铝基复合材料制备工艺及其力学性能研究[J],金属学报,2018
[8]Dai, Jixiang,Sha, Jianjun,Zhang, Zhaofu,Shao, Junqi,Zu, Yufei,Lei, Mingkai.Catalyst-free growth of multi-shaped SiC nanofibers on carbon fibers at elevated temperatures[J],CERAMICS INTERNATIONAL,2017,43(18):17057-17063
[9]张兆甫,沙建军,代吉祥,李建,王首豪.原位生长SiCnw增韧ZrB_2基复合材料制备[A],第三届中国国际复合材料科技大会,2017,1
[10]沙建军,代吉祥,张兆甫.纤维增韧高温陶瓷基复合材料(Cf,SiCf/SiC)应用研究进展[J],航空制造技术,2017,19:16-32
[11]王首豪,沙建军,代吉祥,李建,张兆甫,林冠璋.残余应力对陶瓷基复合材料强度影响:理论分析和数值模拟[A],第三届中国国际复合材料科技大会,2017,1
[12]代吉祥,沙建军,邹雪,张兆甫,祖宇飞,雷明凯.纤维预处理对LSI法制备SiC陶瓷基材料性能的影响[A],第三届中国国际复合材料科技大会,2017,1
[13]吕钊钊,沙建军,张兆甫,代吉祥,王首豪,李建.碳纤维表面铜涂层对碳纤维增强铝基复合材料界面影响[A],第三届中国国际复合材料科技大会,2017,1
[14]Dai, Jixiang,Sha, Jianjun,Shao, Junqi,Zu, Yufei,Lei, Mingkai,Flauder, Stefan,Langhof, Nico,Krenkel, Walter.In-situ growth of SiC nanostructures and their influence on anti-oxidation capability of C/SiC composites[J],CORROSION SCIENCE,2017,124:71-79
[15]Sha, Jianjun,Lv, Zhaozhao,Li, Jian,Zhang, Zhaofu,Dai, Jixiang.Effect of in-situ grown SiC nanowires on mechanical properties of short carbon fiber-reinforced polymer composites[J],MATERIALS LETTERS,2017,199:17-20
[16]Li, Jian,Sha, Jianjun,Dai, Jixiang,Lv, Zhaozhao,Shao, Junqi,Wang, Shouhao,Zhang, Zhaofu.Fabrication and characterization of carbon-bonded carbon fiber composites with in-situ grown SiC nanowires[J],CARBON,2017,118:148-155
[17]Zu, Yufei,Sha, Jianjun,Li, Jian,Zhang, Zhaofu,Wang, Shouhao,Lv, Zhaozhao,Dai, Jixiang.Effect of multi-walled carbon nanotubes on microstructure and fracture properties of carbon fiber-reinforced ZrB2-based ceramic composite[J],CERAMICS INTERNATIONAL,2017,43(10):7454-7460
[18]Sha, J.J.,Zhang, Z.F.,Di, S.X.,Lv, Z.Z.,Li, J.,Dai, J.X..Microstructure and mechanical properties of ZrB2-based ceramic composites with nano-sized SiC particles synthesized by in-situ reaction[J],MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING,2017,693:145-150
[19]张玉翠,沙建军,王永昌,王首豪,杨晓丽.CNTs和Ti掺杂对W基合金微观组织结构及力学性能的影响[J],稀有金属材料与工程,2017,46(03):835-840
[20]Sha, J. J.,Li, J.,Lv, Z. Z.,Wang, S. H.,Zhang, Z. F.,Zu, Y. F.,Flauder, S.,Krenkel, W..ZrB2-based composites toughened by as-received and heat-treated short carbon fibers[J],JOURNAL OF THE EUROPEAN CERAMIC SOCIETY,2017,37(2):549-558
[21]沙建军.Fabrication of co-toughened C-SiC based composites by carbon fibers and SiC nanofibers[J],Advances in High Temperature Ceramic Matrix Composites and Materials for Sustainable Development,2017,117-124
[22]沙建军,祖宇飞,雷明凯.Synthesis of novel hierarchical SiC-SiO2 hetero-structures via a catalyst free method[J],Crystengcomm,2017,19(43):6450-6456
[23]祖宇飞,代吉祥,沙建军.Microstructure and fracture properties of the Cf/ZrB2-based composite[A],2017
[24]祖宇飞,代吉祥,沙建军.Modification of the fiber-matrix interface in the carbon fiber reinforced ZrB2-based ultra-high temperature ceramic composites[A],2017
[25]Dai, Jixiang,Sha, Jianjun,Zu, Yufei,Shao, Junqi,Lei, Mingkai,Flauder, Stefan,Langhof, Nico,Krenkel, Walter.Synthesis and growth mechanism of SiC nanofibres on carbon fabrics[J],CRYSTENGCOMM,2017,19(9):1279-1285
[26]沙建军.Effect of electroplating parameters on microstructure of copper coating on carbon fibers used for fabrication of aluminum matrix composite[A],21st International Conference on Composite Materials (ICCM21),2017
[27]沙建军.Effect of residual stress on strength of carbon fiber-reinforced ceramic composite: theoretical investigation and numerical simulation[A],21st International Conference on Composite Materials (ICCM21),2017
[28]沙建军.Fabrication and properties of Cf-SiCnf/SiC compoistes[A],the 3rd China International Congress on Composite Materials (第三届中国国际复合材料科技大会),2017
[29]Sha, J. J.,Li, J.,Wang, S. H.,Zhang, Z. F.,Zu, Y. F.,Flauder, S.,Krenkel, W..Improved microstructure and fracture properties of short carbon fiber-toughened ZrB2-based UHTC composites via colloidal process[J],INTERNATIONAL JOURNAL OF REFRACTORY METALS & HARD MATERIALS,2016,60:68-74
[30]Sha, Jianjun,Li, Jian,Wang, Shouhao,Zhang, Zhaofu,Wang, Yongchang,Dai, Jixiang.Microstructure and mechanical properties of hot-pressed ZrC-Ti-CNTs composites[J],20th International Conference on Composite Materials (ICCM),2016,107:520-528
[31]Li, Jian,Zhang, Zhaofu,Wang, Shouhao,Wang, Yongchang,Dai, Jixiang,Zu, Yufei,Sha, Jianjun.Densification and characterization of hot-pressed ZrC-based composite doped with Nb and CNT[J],MATERIALS & DESIGN,2016,104:43-50
[32]代吉祥,沙建军,王永昌,王守豪.C/C-SiC-ZrC复合材料的制备及其力学性能[J],稀有金属材料与工程,2016,45(03):742-748
[33]沙建军,祖宇飞.Fabrication of co-toughened C-SiC based composites by carbon fibers and SiC nanofibers[A],the 9th International Conference on High Temperature Ceramic Matrix Composite (HTCMC-9),2016
[34]沙建军,祖宇飞,雷明凯.Fabrication and mechanical properties of ZrC-modified C/C-SiC composites[A],2016
[35]张兆甫,沙建军,王永昌,代吉祥,李建.硼-碳热还原法合成纳米SiC-ZrB2复合陶瓷粉体[J],中国有色金属学报,2015,25(12):3445-3451
[36]代吉祥,张兆甫,王永昌,王首豪,沙建军.碳纤维表面原位SiC纳米纤维的合成与生长[J],无机化学学报,2015,31(12):2379-2384
[37]Sha, J. J.,Li, J.,Wang, S. H.,Wang, Y. C.,Zhang, Z. F.,Dai, J. X..Toughening effect of short carbon fibers in the ZrB2-ZrSi2 ceramic composites[J],MATERIALS & DESIGN,2015,75:160-165
[38]沙建军.Co-toughened C-SiC-based composites by SiC nanofibers and carbon fibers[A],The 2nd China international congress on composites materials (CCCM-2),2015
[39]沙建军.Role of fiber-matrix interface bonding in CFRP on the microstructure of C/C perform used for the fabrication of C/SiC composites[A],The 2nd China international congress on composites materials (CCCM-2),2015
[40]沙建军.In-situ growth of SiC nanofibers on the carbon fibers by a simple method.[A],The 2nd China international congress on composites materials (CCCM-2),,2015
[41]沙建军.Design Optimization of Si Optical Window for 4.2μm Wavelength[J],Journal of Applied Physics A (SCI/EI),2015,118(3):923-929
[42]沙建军.High temperature mechanical properties and microstructure of advanced silicon carbide fibers.[A],The 2nd China international congress on composites materials (CCCM-2),2015
[43]沙建军.纤维表面状态对 C/C-SiC 复合材料微观组织和相成分的影响[J],航空学报,2015,36(5):174-182
[44]白瑜光,沙建军,高效伟.高超声速飞行器热密封技术[J],高超声速技术国际动态,2015,5(1):44-54
[45]Sha, J. J.,Hao, X. N.,Li, J.,Dai, J. X.,Yang, X. L.,Yoon, H. K..Mechanical properties and fracture characteristics of CNTs-doped W-Nb alloys[J],JOURNAL OF NUCLEAR MATERIALS,2014,455(1-3):573-577
[46]Sha, J. J.,Wei, Z. Q.,Li, J.,Zhang, Z. F.,Yang, X. L.,Zhang, Y. C.,Dai, J. X..Mechanical properties and toughening mechanism of WC-doped ZrB2-ZrSi2 ceramic composites by hot pressing[J],MATERIALS & DESIGN,2014,62:199-204
[47]Hao, X. N.,Sha, J. J.,Dai, J. X.,Li, J.,Lv, J.,Yang, X. L.,Yoon, H. K..THERMO-MECHANICAL ANALYSIS OF W/Cu-ALLOY JOINTS FOR PLASMA-FACING COMPONENTS UNDER VARIOUS CONDITIONS[J],16th International Conference on Fusion Reactor Materials (ICFRM-16),2014,66(1):163-170
[48]Iqbal, K.,Sha, J. J.,Lei, Zhen-Kun,Maqsood, A.,Mujahid, M..Numerical Studies of Infiltration Dynamics of Liquid-Copper and Silicon/Solid-Carbon System[J],JOM,2014,66(6):953-959
[49]Sha, J. J.,Hao, X. N.,Li, J.,Wang, Z..Fabrication and microstructure of CNTs activated sintered W-Nb alloys[J],JOURNAL OF ALLOYS AND COMPOUNDS,2014,587:290-295
[50]沙建军.纤维热处理对C/C-SiC复合材料断裂韧性的影响[J],航空材料学报(EI),2014,34(2):69-76
[51]Sha, J. J.,Dai, J. X.,Li, J.,Wei, Z. Q.,Hausherr, J.M.,Krenkel, W..Influence of carbon fiber's surface state on interlaminar shear properties of CFRP laminate[J],COMPOSITE INTERFACES,2013,20(8):543-552
[52]Iqbal K.,Sha J.,Maqsood A..A two-dimensional infiltration dynamics model of C-SiC composites[A],10th International Symposium on Liquid Metal Processing and Casting, LMPC 2013,2013,333-334
[53]Zhang, Jianwei,Liu, Yubai,He, Xiaodong,Yang, Lin,Wu, Guoqiang,Sha, Jianjun,Hou, Chengyu,Yin, Cunlu,Pan, Acheng,Li, Zhongzhou.Effect of Tensile Strain on Thermal Conductivity in Monolayer Graphene Nanoribbons: A Molecular Dynamics Study[J],SENSORS,2013,13(7):9388-9395
[54]代吉祥,沙建军,张玉翠,李建,韦志强.纤维热处理对C/C-SiC复合材料剪切强度的影响[J],硅酸盐学报,2013,41(7):923-929
[55]Sha, J. J.,Dai, J. X.,Li, J.,Wei, Z. Q.,Hausherr, J.M.,Krenkel, W..Influence of thermal treatment on thermo-mechanical stability and surface composition of carbon fiber[J],APPLIED SURFACE SCIENCE,2013,274:89-94
[56]沙建军.Fabrication of ZrB2-Based Ceramics doped with ZrSi2, Advanced Materials Research[J],Advanced Materials Research,2013,690(538):538-541
[57]沙建军.Influence of fiber’s surface state on mechanical properties and fiber-matrix interaction of CFRP[J],Advanced Materials Research,2013,690(693):323-328
[58]沙建军.Measurement and analysis of fiber-matrix interface strength of CFRP[J],Journal of Composite Materials,2013
[59]吴国强,沙建军.高能球磨与热压烧结钨基复合材料的组织与性能[J],粉末冶金技术,2012,30(1):31-40
[60]Yu, Jinnan,He, Xinfu,Qian, Jin,Shen, Feng,Sha, Jianjun.Fusion neutron flux of center hole in LiD assembly under CARR reactor[J],14th International Conference on Fusion Reactor Materials (ICFRM),2011,417(1-3):1341-1344
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