Y2O3-BaO-MgO助剂对SiC基复相材料致密性与导热性的影响任务书
2020-05-11 23:23:50
1. 毕业设计(论文)的内容和要求
要求在本论文中能够检索、查阅相关的中外文文献,将四年中学到的知识运用到论文过程中,妥善安排自己的实验,做好实验记录,及时整理实验数据成图表,找出规律,形成论文。
论文要求语句通顺,图表清楚,条理清晰,观点正确。
毕业论文内容包括封面、中英文摘要、目录、正文、参考文献、附录(可选)、致谢(可选)等,其中正文应包括如下实验内容和分析: 1、学习和掌握热压烧结工艺; 2、研究sic-aln复相材料的制备方法; 3、运用xrd,sem等测试方法研究sic-aln材料在不同实验条件下的烧结性能; 4、测试sic-aln复相材料的导热性能,并进行组成-结构和性能之间关系的分析。
2. 参考文献
[1]kwang-young, lim, young-wook kim, kwang joo kim. electrical properties of sic ceramics sintered with 0.5 wt% aln#8211;re2o3 (re=y, nd, lu)[j]. ceramics international, 2014, 40(6): 10577-10582 [2]hanqin, liang, xiumin, yao, jingxian, zhang, xuejian, liua, zhengren, huang. the effect of rare earth oxides on the pressureless liquid phase sintering of α-sic[j]. journal of the european ceramic society, 2014, 34(122): 2865-2874 [3]kwang-young, lim, young-wook, kim, kwang, joo, kim. mechanical properties of electrically conductive silicon carbide ceramics[j]. ceramics international, 2014, 40(7): 10577-10582 [4]giuseppe magnani, giuliano sico, alida brentari, paride fabbri. solid-state pressureless sintering of silicon carbide below 2000℃[j]. journal of the european ceramic society, 2014, 34(15): 4095-4098 [5]virkar a v, jackson t b, culter r a. thermodynamic and kinetic effects of oxygen removal on the thermal conductivity of aluminum nitride[j]. journal of the american ceramic society, 1989, 72(11): 2031-2042 [6]潘裕柏, 谭寿洪, 江东亮. sic-aln-y2o3复相陶瓷的制备与性能[j]. 无机材料学报, 1995, 10(2): 189-192 [7]y. pan, s. tan, d. jiang. in-situ characterization of sic#8211;aln multiphase ceramics[j]. journal of materials science, 1999, 34(21): 5357-5360 [8]d.m. liu, b.w. lin, thermal conductivity in hot-pressed silicon carbide, ceram. int, 1996 22(5): 407#8211;414. [9]杨艳玲, 鲁燕萍, 杜斌等. aln-sic微波衰减材料的高频介电性能研究[j]. 硅酸盐通报, 2013, 32(1): 60-64 [10]biljana mikijelj, cerritos ca. high thermal conductivity aln-sic composite artificial dielectric material[p]. us: 20060014623a1, 2006 [11]xiang-yu zhang, shou-hong tan, jing-xian, zhang and dong-liang jiang. lossy aln#8211;sic composites fabricated by spark plasma sintering[j]. journal of materials research, 2004, 19(9): 2759-2764 [12]hanqin liang, xiumin yao, jingxian zhang, xuejian liua, zhengren huang. low temperature pressureless sintering of -sic with al2o3 and ceo2 as additives[j]. journal of the european ceramic society, 2014, 34(3): 831-835 [13]z.h, huang, d.c, jia, y zhou, y.g liu. a new sintering additive for silicon carbide ceramic[j]. ceramics international, 2003, 29(1): 13-17 [14] taguchi s p,motta f v, balestra r m, ribeiro s. wetting behaviour of sic ceramic partⅡ- y2o3/al2o3 and sm2o3/al2o3[j]. material letters, 2004, 58: 2810-2814. [15] mikijelj b. high thermal conductivity aln-sic composite artificial dielectric material[p]. us20060014623. 2006. [16] 潘裕柏, 谭寿洪, 江东亮. aln在sic-aln-y2o3复相陶瓷中的作用[j]. 硅酸盐学报, 1995, 23(6): 696. [17] a. can, m. herrmann,d.s. mclachlan,et al. densification of liquid phase sintered silicon carbide[j]. j eur ceram soc,2006, 26: 1707-1713. [18]ren fengzhang,wang zhe,ma zhanhong, et al. effects of fe2o3 concentration on microstructures and properties of sic-based ceramic foams[j]. mater sci eng, a, 2009, 515: 113-116. [19]prochazka s. sintering of silicon carbide. burke j.j, proceedings on ceramics of high application,hynnis:ma,1975;239 [20]李江,吴春东,苗林。
碳化硅陶瓷的低温烧结技术及进展。
江苏陶瓷,2001,34(1);4-7 [21] m.f. zawrah, leon shaw. liquid-phase sintering of sic in presence of cao[j]. ceram int, 2004, 30: 721-725. [22] a. can, m. herrmann, d.s. mclachlan, et al. densification of liquid phase sintered silicon carbide[j]. j eur ceram soc, 2006, 26: 1707-1713. [23]kennedy p, shennan jv, braiden p, et al. an assessment of the performance of refel silicon carbide under conditions of thermal stress[j]. proceedings of the british ceramic society, 1973, 22(22): 67-87 [24] qisong li, yujun zhang, hongyu gong, et al, effects of graphene on the thermal conductivity of pressureless-sintered sic ceramics[j].ceram int, 2015. 41(10): p. 13547-13552. [25] chen, y., et al., phase relations in sic-aln-r2o3 (r#160;=#160;nd, gd, yb, y) systems[j].journal of phase equilibria and diffusion, 2012. 34(1): p. 3-8. [26] liang, h., et al., in situ toughening of pressureless liquid phase sintered α-sic by using tio2[j].ceramics international, 2014. 40(7): p. 10699-10704. [27] biljana mikijelj, cerritos ca. high thermal conductivity aln-sic composite artificial dielectric material[p]. us: 20060014623a1, 2006 [28] xiang-yu zhang, shou-hong tan, jing-xian, zhang and dong-liang jiang. lossy aln#8211;sic composites fabricated by spark plasma sintering[j]. journal of materials research, 2004, 19(9): 2759-2764 [29] hanqin liang, xiumin yao, jingxian zhang, xuejian liua, zhengren huang. low temperature pressureless sintering of -sic with al2o3 and ceo2 as additives[j]. journal of the european ceramic society, 2014, 34(3): 831-835 [30] z.h, huang, d.c, jia, y zhou, y.g liu. a new sintering additive for silicon carbide ceramic[j]. ceramics international, 2003, 29(1): 13-17
3. 毕业设计(论文)进程安排
2015.12.22~2015.12.28 查阅文献资料,进行文献综述 2015.12.29-2016.1.6 确定方案、准备实验器材、撰写开题报告 2016.1.7-2016.1.23 SiC-AlN复相材料的制备 2016.3.2-2016.4.15 SiC-AlN复相材料烧结性能测试 2016.4.13-2016.6.7 SiC-AlN复相材料力学性能测试 2016.6.10-2016.6.14 撰写论文、答辩