SiBCN陶瓷制备及性能研究进展
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摘要
介绍了SiBCN陶瓷的几种制备方法,分析了各种制备方法的优缺点。概述了SiBCN陶瓷材料的高温稳定性、抗氧化性以及高温抗蠕变性能,展望了SiBCN陶瓷材料的应用前景。
In this paper, several preparation methods of SiBCN ceramics were reviewed, and the advantages and disadvantages of various preparation methods were analyzed. The stability, oxidation resistance and creep resistance of SiBCN ceramics under high temperature were introduced. Moreover, the application of SiBCN ceramics were prospected.
In this paper, several preparation methods of SiBCN ceramics were reviewed, and the advantages and disadvantages of various preparation methods were analyzed. The stability, oxidation resistance and creep resistance of SiBCN ceramics under high temperature were introduced. Moreover, the application of SiBCN ceramics were prospected.
引文
1滕雅娣,黄鑫龙.SiBCN陶瓷先驱体的制备和应用进展[J].有机硅材料,2016,30(2):151~158
2王亚明.新型亚温SiBCN系陶瓷及其复合材料研究取得突破[EB/OL].http://iac.hit.edu.cn/32/07/c4167a143879/page.htm,2016
3于涛,李亚静,李松,等.新型SiC/SiBCN复合陶瓷的析晶性能[J].人工晶体学报,2010(6):1601~1605
4张钊,张玉军,龚红宇,等.反应烧结碳化硅陶瓷注射成型工艺研究[J].现代技术陶瓷,2016(1):54~61
5梁汉琴,姚秀敏,黄政仁,等.液相烧结碳化硅陶瓷的原位研究[J].无机材料学报,2016(4):443~448
6孙亚光,贺胜利,刘荣安,等.氮化硅陶瓷的制备与应用[J].中国陶瓷工业,2016(5):31~34
7 Riedel R,Bill J,Aldinger F,et al.A silicoboron carbonnitride ceramic stable to 2000℃[J].Nature,1996,382:796~798
8张通,张宁,杨非易,等.多元非晶态陶瓷研究现状及展望[J].硅酸盐通报,2014(11):2897~2900
9 Takamazawa M,Kobayashi T,Hayashid A,et al.Organborosilicon poymer and a method for the preparation thereof.U.S.pantent.No.4550151,1985
10李亚静,张跃.SiBCN陶瓷前驱体高温裂解机理[J].无机材料学报,2014(3):321~326
11李亚静,李婧,刘洪丽,等.SiBCN聚合物前驱体聚合机理的研究[J].现代技术陶瓷,2015(2):1~4
12姚祺,肖鲁,韩大为,等.新型SiBCN杂化树脂的固化及裂解机理[J].宇航材料工艺,2017(3):42~45
13李政.SiBCN先驱体高温陶瓷化机理的第一动力学研究[J].科技情报开发与经济,2010(34):174~176
14李亚静,李婧,刘洪丽,等.有机前驱体法裂解制备SiBCN陶瓷及其表征[J].人工晶体学报,2015(2):509~513
15孟凡星,唐宁,苏冬,等.硼氢化反应合成聚硼硅氮烷和热压成型-热解制备SiBCN陶瓷[J].硅酸盐学报,2010(8):1533~1537
16唐云,王军,李效东,等.新型SiBCN陶瓷先驱体--聚硼硅氮烷的合成与表征[J].化学学报,2008(11):1371~1376
17唐云,王军,李效东,等.聚硼硅氮烷的合成及其热解产物的组成及结构[J].无机材料学报,2008,23(3):291~296
18虎琳,肖志超,张永辉,等.SiC含量对C/C-SiC炭陶复合材料力学和热学性能的影响[J].航天制造技术,2017(4):1~5
19 Müller A,Zern A,Gerstel P,et al.Boron-modified poly(propenylsilazane)derived si-b-c-n ceramics:preparation and high temperature properties[J].Journal of the European Ceramic Society,2002(10):1631~1643
20滕雅娣.陶瓷前驱体转化法制备Si3N4、SiCN和SiBCN非氧化连续陶瓷纤维的进展及我们的前驱体产品介绍[C].中国化学工会.2015年中国化工学会年会论文集.中国化学工会.2015
21徐颖,邵彬彬,许维伟,等.PIP法制备C/SiC复合材料及其微观结构分析[J].安徽理工大学学报,2016(6):55~60
22王秀军,张宗波,曾凡,等.碳纤维增强SiBCN陶瓷基复合材料的制备及性能[J].宇航材料工艺,2013(2):47~50
23谭僖,刘伟,曹腊梅,等.不同纤维预制体对SiCf/PyC/SiBCN复合材料力学性能的影响[J].航空材料学报,2017(4):45~51
24郭春园,闫联生,孟祥利,等.C/C-SiC复合材料制备技术及应用进展[J].航天制造技术,2017(1):2~6
25许艺芬,胡继东,陶孟,等.SiBCN陶瓷前驱体热解机理研究[J].宇航材料工艺,2018,1:44~48
26刘伟,曹腊梅,王岭,等.RTM成型对Cf/SiBCN陶瓷基复合材料性能的影响[J].材料工程,2015,43(6):1~6
27虎琳,肖志超,张永辉.C/C-SiC炭陶复合材料的制备及应用进展[J].炭素,2017,2:43~47
28李崇俊.SiC陶瓷基体及抗氧化涂层[J].高科技纤维与应用,2014,39(1):10~17
29 Zhang Pengfei,Jia Dechang,Yang Zhihua,et al.Physical and surface characteristics of the mechanically alloyed SiBCN powder[J].Ceramics International,2012(38):6399~6404
30贾德昌,苗洋,贾德昌,等.一种硅硼碳氮陶瓷复合材料及其制备工艺方法[P].中国,专利申请号:CN201610272961.7,2016
31廖兴祺.机械合金化SiBN粉末及陶瓷的组织结构与性能[C].哈尔滨:哈尔滨工业大学,2016
32袁尹明月,彭坤,王海鹏,等.机械合金化方法制备AlxCoCrCu0.5FeNi高熵合金组织结构和性能研究[J].材料导报,2016(16):69~73
33戴存.机械合金化在新材料开发研制中的应用研究[J].华东科技:学术版,2017(12):16
34 Zhang Pengfei,Jia Dechang,Yang Zhihua,et al.Influence of Ball Milling Parameters on the Structure of the Mechanically Alloyed SiBCN Powder[J].Ceramics International,2013,39(2):1963~1969
35梁斌,杨治华,贾德昌,等.无机法制备SiBCN系非晶/纳米晶新型陶瓷及复合材料研究进展[J].科学通报,2015,60(3):236~245
36刘可心,金松哲.机械合金化-低温烧结Ti3SiC2导电陶瓷材料[J].人工晶体学报,2016,45(2):403~407
37熊剑,方微,何禄英,等.反应磁控溅射制备Ag/TiO2复合薄膜及其银离子释放速率研究[J].真空科学与技术学报,2017,37(8):830~835
38 Vishnyakov V M,Ehiasarian A P,Vishnayakov V V,et al.Amorphous boron containing silicon carbon-nitrides created by ion sputtering[J].Surface and Coatings Technology,2011,206(1):149~154
39任海涛,刘家臣,郭安然.CVD法制备硅硼碳氮陶瓷的化学反应热力学研究[J].现代技术陶瓷,2016,37(4):290~295
40 Zeman P,Capek J,Cerstvy R,et al.Thermal stability of magnetron sputtered Si-B-C-N materials at temperatures up to 1700℃[J].Thin Solid Films,2010(1):306~311
41陈向阳,张瑾,黄润,等.碳含量对电弧增强反应磁控溅射方法制备BCN薄膜热稳定性的影响[J].机械工程材料,2017(10):44~47
42胡成川.Si-B-C-N-Zr机械合金化粉末及陶瓷的组织结构与性能[D].哈尔滨:哈尔滨工业大学硕士学位论文,2013
43 Han Wenbo,Zhao Guangdong,Zhang Xinghong,et al.Graphene oxide grafted carbon fiber reinforced siliconborocarbonitride ceramics with enhanced thermal stability.Carbon,2015(95):157~165
44 Zhou Cong,Min Hao,Yang Le,et al.Dimethylaminoborane-modified copolysilazane as a novel precursor for high-temperature resistant SiBCNceramics[J].Journal of the European Ceramic Society,2014(34):3579~3589
45李达鑫.SPS烧结Graphene/SiBCN陶瓷及其高温性能[D].哈尔滨:哈尔滨工业大学,硕士学位论文,2013
46杨露姣,张颖,程璇,等.先驱体转化法制备硅硼碳氮陶瓷的结构与性能[J].化学进展,2016(2):308~316
47 Zhang Zhongbo,Zeng Fang,Han Juanjuan,et al.Synthesis and characterization of a new liquid polymer precursor for Si-B-C-Nceramics[J].J Mater.Sci.,2011(18):5940~5947
48滕雅娣,黄鑫龙.不同硼含量的陶瓷前驱体聚硼硅氮烷结构与性能的研究[J].功能材料,2016(47):5022~5029
49 Zhang Yue,Lu Biao.Oxidation behavior of SiC-SiBCN ceramics[J].Ceramic International,2015(41):1023~1030
50 ZrB2-SiBCN复合陶瓷恒温氧化行为研究[J].人工晶体学报,2016(9):2295~2299
51 Baldus H P,Passing G.Studies on SiBN(C)ceramics:oxidation and crystallization behaviour lead the way to application[j].Mater Res Soc Symp Proc,1994,346:617~622
52张宗波,曾凡,刘伟,等.SiBCN陶瓷的抗氧化性能[J].宇航材料工艺,2012(2):91~94
53洪于喆.MASiBCN陶瓷的高温氧化规律与机理[D].哈尔滨:哈尔滨工业大学硕士学位论文,2013
54 Riedel R,Ruswisch L M,An L N,et al.Amorphous silicoboron carbonitride ceramic with very high viscosity at temperatures above 1500℃[J].Journal of the American Ceramic Society,1998(12):3341~3344
2王亚明.新型亚温SiBCN系陶瓷及其复合材料研究取得突破[EB/OL].http://iac.hit.edu.cn/32/07/c4167a143879/page.htm,2016
3于涛,李亚静,李松,等.新型SiC/SiBCN复合陶瓷的析晶性能[J].人工晶体学报,2010(6):1601~1605
4张钊,张玉军,龚红宇,等.反应烧结碳化硅陶瓷注射成型工艺研究[J].现代技术陶瓷,2016(1):54~61
5梁汉琴,姚秀敏,黄政仁,等.液相烧结碳化硅陶瓷的原位研究[J].无机材料学报,2016(4):443~448
6孙亚光,贺胜利,刘荣安,等.氮化硅陶瓷的制备与应用[J].中国陶瓷工业,2016(5):31~34
7 Riedel R,Bill J,Aldinger F,et al.A silicoboron carbonnitride ceramic stable to 2000℃[J].Nature,1996,382:796~798
8张通,张宁,杨非易,等.多元非晶态陶瓷研究现状及展望[J].硅酸盐通报,2014(11):2897~2900
9 Takamazawa M,Kobayashi T,Hayashid A,et al.Organborosilicon poymer and a method for the preparation thereof.U.S.pantent.No.4550151,1985
10李亚静,张跃.SiBCN陶瓷前驱体高温裂解机理[J].无机材料学报,2014(3):321~326
11李亚静,李婧,刘洪丽,等.SiBCN聚合物前驱体聚合机理的研究[J].现代技术陶瓷,2015(2):1~4
12姚祺,肖鲁,韩大为,等.新型SiBCN杂化树脂的固化及裂解机理[J].宇航材料工艺,2017(3):42~45
13李政.SiBCN先驱体高温陶瓷化机理的第一动力学研究[J].科技情报开发与经济,2010(34):174~176
14李亚静,李婧,刘洪丽,等.有机前驱体法裂解制备SiBCN陶瓷及其表征[J].人工晶体学报,2015(2):509~513
15孟凡星,唐宁,苏冬,等.硼氢化反应合成聚硼硅氮烷和热压成型-热解制备SiBCN陶瓷[J].硅酸盐学报,2010(8):1533~1537
16唐云,王军,李效东,等.新型SiBCN陶瓷先驱体--聚硼硅氮烷的合成与表征[J].化学学报,2008(11):1371~1376
17唐云,王军,李效东,等.聚硼硅氮烷的合成及其热解产物的组成及结构[J].无机材料学报,2008,23(3):291~296
18虎琳,肖志超,张永辉,等.SiC含量对C/C-SiC炭陶复合材料力学和热学性能的影响[J].航天制造技术,2017(4):1~5
19 Müller A,Zern A,Gerstel P,et al.Boron-modified poly(propenylsilazane)derived si-b-c-n ceramics:preparation and high temperature properties[J].Journal of the European Ceramic Society,2002(10):1631~1643
20滕雅娣.陶瓷前驱体转化法制备Si3N4、SiCN和SiBCN非氧化连续陶瓷纤维的进展及我们的前驱体产品介绍[C].中国化学工会.2015年中国化工学会年会论文集.中国化学工会.2015
21徐颖,邵彬彬,许维伟,等.PIP法制备C/SiC复合材料及其微观结构分析[J].安徽理工大学学报,2016(6):55~60
22王秀军,张宗波,曾凡,等.碳纤维增强SiBCN陶瓷基复合材料的制备及性能[J].宇航材料工艺,2013(2):47~50
23谭僖,刘伟,曹腊梅,等.不同纤维预制体对SiCf/PyC/SiBCN复合材料力学性能的影响[J].航空材料学报,2017(4):45~51
24郭春园,闫联生,孟祥利,等.C/C-SiC复合材料制备技术及应用进展[J].航天制造技术,2017(1):2~6
25许艺芬,胡继东,陶孟,等.SiBCN陶瓷前驱体热解机理研究[J].宇航材料工艺,2018,1:44~48
26刘伟,曹腊梅,王岭,等.RTM成型对Cf/SiBCN陶瓷基复合材料性能的影响[J].材料工程,2015,43(6):1~6
27虎琳,肖志超,张永辉.C/C-SiC炭陶复合材料的制备及应用进展[J].炭素,2017,2:43~47
28李崇俊.SiC陶瓷基体及抗氧化涂层[J].高科技纤维与应用,2014,39(1):10~17
29 Zhang Pengfei,Jia Dechang,Yang Zhihua,et al.Physical and surface characteristics of the mechanically alloyed SiBCN powder[J].Ceramics International,2012(38):6399~6404
30贾德昌,苗洋,贾德昌,等.一种硅硼碳氮陶瓷复合材料及其制备工艺方法[P].中国,专利申请号:CN201610272961.7,2016
31廖兴祺.机械合金化SiBN粉末及陶瓷的组织结构与性能[C].哈尔滨:哈尔滨工业大学,2016
32袁尹明月,彭坤,王海鹏,等.机械合金化方法制备AlxCoCrCu0.5FeNi高熵合金组织结构和性能研究[J].材料导报,2016(16):69~73
33戴存.机械合金化在新材料开发研制中的应用研究[J].华东科技:学术版,2017(12):16
34 Zhang Pengfei,Jia Dechang,Yang Zhihua,et al.Influence of Ball Milling Parameters on the Structure of the Mechanically Alloyed SiBCN Powder[J].Ceramics International,2013,39(2):1963~1969
35梁斌,杨治华,贾德昌,等.无机法制备SiBCN系非晶/纳米晶新型陶瓷及复合材料研究进展[J].科学通报,2015,60(3):236~245
36刘可心,金松哲.机械合金化-低温烧结Ti3SiC2导电陶瓷材料[J].人工晶体学报,2016,45(2):403~407
37熊剑,方微,何禄英,等.反应磁控溅射制备Ag/TiO2复合薄膜及其银离子释放速率研究[J].真空科学与技术学报,2017,37(8):830~835
38 Vishnyakov V M,Ehiasarian A P,Vishnayakov V V,et al.Amorphous boron containing silicon carbon-nitrides created by ion sputtering[J].Surface and Coatings Technology,2011,206(1):149~154
39任海涛,刘家臣,郭安然.CVD法制备硅硼碳氮陶瓷的化学反应热力学研究[J].现代技术陶瓷,2016,37(4):290~295
40 Zeman P,Capek J,Cerstvy R,et al.Thermal stability of magnetron sputtered Si-B-C-N materials at temperatures up to 1700℃[J].Thin Solid Films,2010(1):306~311
41陈向阳,张瑾,黄润,等.碳含量对电弧增强反应磁控溅射方法制备BCN薄膜热稳定性的影响[J].机械工程材料,2017(10):44~47
42胡成川.Si-B-C-N-Zr机械合金化粉末及陶瓷的组织结构与性能[D].哈尔滨:哈尔滨工业大学硕士学位论文,2013
43 Han Wenbo,Zhao Guangdong,Zhang Xinghong,et al.Graphene oxide grafted carbon fiber reinforced siliconborocarbonitride ceramics with enhanced thermal stability.Carbon,2015(95):157~165
44 Zhou Cong,Min Hao,Yang Le,et al.Dimethylaminoborane-modified copolysilazane as a novel precursor for high-temperature resistant SiBCNceramics[J].Journal of the European Ceramic Society,2014(34):3579~3589
45李达鑫.SPS烧结Graphene/SiBCN陶瓷及其高温性能[D].哈尔滨:哈尔滨工业大学,硕士学位论文,2013
46杨露姣,张颖,程璇,等.先驱体转化法制备硅硼碳氮陶瓷的结构与性能[J].化学进展,2016(2):308~316
47 Zhang Zhongbo,Zeng Fang,Han Juanjuan,et al.Synthesis and characterization of a new liquid polymer precursor for Si-B-C-Nceramics[J].J Mater.Sci.,2011(18):5940~5947
48滕雅娣,黄鑫龙.不同硼含量的陶瓷前驱体聚硼硅氮烷结构与性能的研究[J].功能材料,2016(47):5022~5029
49 Zhang Yue,Lu Biao.Oxidation behavior of SiC-SiBCN ceramics[J].Ceramic International,2015(41):1023~1030
50 ZrB2-SiBCN复合陶瓷恒温氧化行为研究[J].人工晶体学报,2016(9):2295~2299
51 Baldus H P,Passing G.Studies on SiBN(C)ceramics:oxidation and crystallization behaviour lead the way to application[j].Mater Res Soc Symp Proc,1994,346:617~622
52张宗波,曾凡,刘伟,等.SiBCN陶瓷的抗氧化性能[J].宇航材料工艺,2012(2):91~94
53洪于喆.MASiBCN陶瓷的高温氧化规律与机理[D].哈尔滨:哈尔滨工业大学硕士学位论文,2013
54 Riedel R,Ruswisch L M,An L N,et al.Amorphous silicoboron carbonitride ceramic with very high viscosity at temperatures above 1500℃[J].Journal of the American Ceramic Society,1998(12):3341~3344