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毕业论文网 > 任务书 > 材料类 > 材料科学与工程 > 正文

碳纤维增强碳基气凝胶表面MoSi2基抗氧化涂层的制备及性能任务书

 2020-04-21 17:12:05  

1. 毕业设计(论文)的内容和要求

本论文的主要内容是对碳基气凝胶、高温抗氧化涂层材料国内外的研究现状、应用与发展进行了简要的阐述。

简述碳基气凝胶、高温抗氧化涂层材料的结构特点、制备工艺和应用前景。

对碳纤维增强碳基气凝胶表面抗氧化涂层材料的制备参数及其性能表征进行了研究。

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2. 参考文献

[1]夏斌, 张虹, 白书欣,等. Mo合金高温抗氧化涂层的研究[J]. 金属热处理, 2007, 32(4):54-57. [2]毛金元, 刘敏, 毛杰, et al. 等离子喷涂制备ZrB2-MoSi2复合涂层及其抗氧化性能[J]. 无机材料学报, 2015, 30(3):282-286. [3]Deng X K , Zhang G J , Wang T , et al. Microstructure and oxidation resistance of a multiphase Mo-Si-B ceramic coating on Mo substrates deposited by a plasma transferred arc process[J]. Ceramics International, 2019, 45:415-423. [4]Fan S , Ma X , Ji B , et al. Oxidation resistance and thermal shock properties of self-healing SiCN/borosilicate glass-B4C-Al2O3 coatings for C/C aircraft brake materials[J]. Ceramics International, 2019, 45:550-557. [5]Zhang Y L , Li H J , Yao X Y , et al. Oxidation protection of C/SiC coated carbon/carbon composites with Si-Mo coating at high temperature[J]. Corrosion Science, 2011, 53(6):2075-2079. [6]宋瑞, 王快社, 胡平,等. 钼及钼合金表面高温抗氧化涂层研究现状[J]. 材料导报, 2016, 30(5):69-74. [7]晋磊, 陈晓红. C/C复合材料等离子喷涂含MoSi2高温抗氧化涂层的研究及展望[J]. 化工新型材料, 2017(12):29-31. [8]Miaomiao C , Hejun L , Xiyuan Y , et al. High temperature oxidation resistance of La2O3 -modified ZrB2-SiC coating for SiC-coated carbon/carbon composites[J]. Journal of Alloys and Compounds, 2018, 765:37-45. [9]Li H J , Feng T , Fu Q G , et al. Oxidation and erosion resistance of MoSi2-CrSi2-Si/SiC coated C/C composites in static and aerodynamic oxidation environment[J]. Carbon, 2010, 48(5):1636-1642. [10]Feng T , Li H J , Wang S L , et al. Boron modified multi-layer MoSi2-CrSi2-SiC-Si oxidation protective coating for carbon/carbon composites[J]. Ceramics International, 2014, 40(9):15167-15173. [11]梅宗书, 石成英, 吴婉娥. C/C复合材料抗氧化性能研究进展[J]. 固体火箭技术, 2017(6):758-764. [12]Ouyang G Y , Ray P K , Thimmaiah S , et al. Oxidation resistance of a Mo-W-Si-B alloy at 1000#8211;1300#8239;#176;C: The effect of a multicomponent Mo-Si-B coating[J]. Applied Surface Science, 2019, 470:289-295. [13]Zhang Y L , Li H J , Fu Q G , et al. A Si#8211;Mo oxidation protective coating for C/SiC coated carbon/carbon composites[J]. Carbon, 2007, 45(5):1130-1133. [14]杨鑫, 黄启忠, 苏哲安, et al. C/C复合材料的高温抗氧化防护研究进展[J]. 宇航材料工艺, 2014, 44(1):1-15. [15]Zhang Y , Zhang P , Ren J , et al. SiC nanowire-toughened MoSi2-WSi2-SiC-Si multiphase coating for improved oxidation resistance of C/C composites[J]. Ceramics International, 2016, 42(11):12573-12580. [16]Kiryukhantsev-Korneev P V , Iatsyuk I V , Shvindina N V , et al. Comparative investigation of structure, mechanical properties, and oxidation resistance of Mo-Si-B and Mo-Al-Si-B coatings[J]. Corrosion Science, 2017, 123:319-327. [17]席俊杰, 李会芳, 吴中. MoSi2涂层高温抗氧化性能研究进展[J]. 热加工工艺, 2013, 42(16):10-13. [18]Cao L , Bai Z , Huang J , et al. Fabrication of gradient C/C-SiC-MoSi2 composites with enhanced ablation performance[J]. Ceramics International, 2016, 42(10):12289-12296. [19]牛芳旭, 王延相, 刘群,等. 重结晶碳化硅表面MoSi2-Si3N4抗氧化涂层的制备和性能[J]. 材料研究学报, 2017, 31(05):11-17. [20]Fu Q , Shan Y , Cao C , et al. Oxidation and erosion resistant property of SiC/Si-Mo-Cr/MoSi2 multi-layer coated C/C composites[J]. Ceramics International, 2015, 41(3):4101-4107. [21]Corral E L , Loehman R E . Ultra-high-temperature ceramic coatings for oxidation protection of carbon-carbon composites[J]. Journal of the American Ceramic Society, 2010, 91(5):1495-1502. [22]符文彬, 代明江, 韦春贝,等. SiC/MoSi2高温抗氧化涂层的制备及性能探究[J]. 稀有金属材料与工程, 2016, 45(10):2543-2548. [23]Fu Q G , Jing J Y , Tan B Y , et al. Nanowire-toughened transition layer to improve the oxidation resistance of SiC-MoSi2-ZrB2 coating for C/C composites[J]. Corrosion Science, 2016, 111:259-266. [24]刘祥庆, 郭志猛, 马璨,等. 添加B对包渗法制备MoSi2涂层显微组织及静态抗氧化性能的影响[J]. 粉末冶金工业, 2012, 22(3):33-37. [25]Du B , Hong C , Qu Q , et al. Oxidative protection of a carbon-bonded carbon fiber composite with double-layer coating of MoSi2-SiC whisker and TaSi2-MoSi2-SiC whisker by slurry method[J]. Ceramics International, 2017, 43(12):9531-9537.

3. 毕业设计(论文)进程安排

2018.12.3~2018.12.21 查阅文献资料,做好开题前期工作 2018.12.22~2019.01.18 拟定实验方案,撰写开题报告 2019.01.19~2019.02.28 初步开展实验和测试,并开展初步测试 2019.03.01~2019.05.15 进行中期检查,完成实验和测试 2019.05.16~2019.06.14 撰写毕业论文,答辩

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