[1]张巍.环境友好型耐火材料的研究进展[J].中国材料进展,2013,(9):562-569.[doi:10.7502/j.issn.1674-3962.2013.09.06]
 ZHANG Wei.Progress in Research on Environment-Friendly RefractoriesZHANG Wei[J].MATERIALS CHINA,2013,(9):562-569.[doi:10.7502/j.issn.1674-3962.2013.09.06]
点击复制

环境友好型耐火材料的研究进展()
分享到:

中国材料进展[ISSN:1674-3962/CN:61-1473/TG]

卷:
期数:
2013年第9期
页码:
562-569
栏目:
前沿综述
出版日期:
2013-09-30

文章信息/Info

Title:
Progress in Research on Environment-Friendly RefractoriesZHANG Wei
文章编号:
1674—3962 (2013)09-0562-08
作者:
张巍
(派力固(大连)
Author(s):
ZHANG Wei
(Plibrico(Dalian) Industries Co.,Ltd , Dalian 116600, China)
关键词:
环境友好耐火材料新型无氟耐酸料无铬耐火材料新型生物可溶性耐火纤维低温炭素捣打料湿法无尘喷涂料
分类号:
X592 X 964 X384 TQ175.7
DOI:
10.7502/j.issn.1674-3962.2013.09.06
文献标志码:
A
摘要:
随着我国环保意识的日益增强,一些性能优良但是对人体和环境会产生不利影响的传统耐火材料受到了挑战。近年来提出了环境友好型耐火材料这一崭新的理念。环境友好型耐火材料就是要求耐火材料在生产过程中不使用有损于环境和人体的致癌物质和有毒物质,施工过程中不产生大量的粉尘,使用过程中不产生有害气体和有毒物质,使用后的残留材料应具有再生价值,不能成为工业垃圾。本文主要针对国内外近年来在环境友好型耐火材料的开发上取得的进展进行了汇总,综述了新型无氟耐酸料,无铬耐火材料,新型生物可溶性耐火纤维,低温炭素捣打料和湿法无尘喷涂料等环境友好型耐火材料,以推进我国耐火材料行业的发展。
Abstract:
With enhanced increasingly of environmental protection consciousness in China, some traditional refractories with good performance but bad for human beings and environment were challenged. The new idea of environment-friendly refractories was put forward recent years. Environment-friendly refractories was that carcinogenic substance and toxic substance which was bad for environment and human beings was not used in the production process, lots of dust was not produced in construction process, harmful gas and toxic substance was not produced in using process, and used residual materials should be with recycle value and not be as a kind of industrial refuse. Progress of development of environment-friendly refractories at home and abroad was collected in this paper, and the current status of some environment-friendly refractories such as new fluoride-free acid resistant material, chrome-free refractories, new bio-soluble refractory fiber, low temperature carbon ramming mix and wet and dust-free gunning mix were overviewed, in order to promote the development of refractory industries in China

参考文献/References:

References
[1] Zhou Ningsheng(周宁生),Li Jiwei(李纪伟),Yu Renhong(于仁红),et al. 绿色耐火材料的理念与实践[J].Refractories(耐火材料),2010,44(3):161-170.
[2] Li Li(李莉). 绿色镁质耐火材料的理念及实践[J]. Liaoning Building Materials(辽宁建材),2011(7):10-11.
[3] Frasson S C, Antonio R, Cristiano R, et al. New multifunctional castables formultiple applications[C]//Proc of UNITECR.2009,Salvador, Brazil,2009:No214.
[4] Peters D. Improved monolithic refractory lining system[C]//Proc of UNITECR.2009,Salvador,Brazil,2009: No002.
[5] Bross R, Fechner R, Goedecke M, et al. Dry-vibrating mixes versus wet-gunning mixes new material concepts and lining technologies with respect to clean steel production[C]//Proc of UNITECR.2009,Salvador,Brazil, 2009:No243.
[6] Meunier P, Soudier J. The drying of refractory castables: from tests to models[C]//Proc of UNITECR’2009, Salvador, Brazil,2009:No044.
[7] Hanagiri S, Matsui T, Shimpo A, et al. Recent improvement of recycling technology for refractories [J]. Niippon Steel Technical Report, 2008(98):93-99.
[8] Petkov V, Jones P T, Boydens E, et al. Chemical corrosion mechanisms of magnesia-chromite and chrome-free refractory bricks by copper metal and anode slag[J]. Journal of the European Ceramic Society,2007,27:2433-2444.
[9] Wuthnow D, Projektleither, Potschke J. Experiences with microporous calcium hexaluminate insulating materials [EB/OL], http://www.almatis. com/CN/refractory/technical-papers.aspx.
[10] Zhang Wei(张巍), Isamu Komiyama(小宫山勇),Dai Wenyong(戴文勇). 新型耐酸料的研制[J].Refractories & Lime(耐火与石灰),2010,35(3):6-7.
[11] Zhang Wei(张巍), Isamu Komiyama(小宫山勇),Li Liang(李亮),et al. 水泥对新型耐酸料耐酸性能的研究[J]. Technology & Development of Chemical Industry(化工技术与开发),2009,38(11):8-10.
[12] Peng Shuisheng(彭水生). 烧结机大烟道内衬耐酸耐磨喷涂料的研制与应用[J]. Refractories(耐火材料),2009,43(5):378-380.
[13] Zhu Qiliang(朱其良),Liu Jiaxiang(刘家祥),Shan Guoqiang(山国强). 基于垃圾处理之炉用特种耐酸耐碱浇注料的研制[J]. Cement Guide for New Epoch(新世纪水泥导报),2011(6):77-78.
[14] G.Weibel, Gottingen. Chrome-ore-free refractory brickwork for the transition and sintering zone of rotary cement kilns[J].ZKG,1990(9):256-258.
[15] Dr.Hans.Jurgen, Klischat, Dr.Peter Bartha. Further development of magnesia spinel bricks with their own specific properties for lining the transition and sintering zones of rotary cement kilns[J]. Word cement,1992(9):52-58.
[16] Fumihito Ozeki, Yoshiharu Kajita, Toru Hond. Chrome-free basic brick lining for cement rotary kiln[J]. Taikabutsu,1999,51(2):83-84.
[17] Isao Nimura, Hiroshi Kume, Isao Kenmochi. Magnesia-spinel brick for burning zone in cement rotary kiln[J]. Taikabutsu,1996,48(2):78-79.
[18] 田川晋一郎. Improvement of cement coating property in spinel brick[J]. Taikabutsu,1995,47(2):92-93.
[19] 浦上监一郎,川岛健司. Wear pattern of magnesia-spinel brick in cement rotary kiln[J]. Taikabutsu,1995,47(2):98-99.
[20] Takayuki Oyama, Kazunari Imai, Naohide Kanai. Influence of alkaline salt on magnesia-spinel bricks for cement kiln[J]. Taikabutsu,1999,51(2):78-79.
[21] Translated by Zhang Yuxiu(张育秀,译). MgO-TiO2-Al2O3系原料在无铬耐火材料上的应用[J].Foreign Refraccties(国外耐火材料),2004,29(2):58-59.
[22] Translated by Gao Hongshi(高宏适,译). MgO-TiO2-Al2O3系原料在无铬耐火材料中的应用[J]. Foreign Refraccties(国外耐火材料),2004,29(6):20-23.
[23] Translated by Liu Qingsheng(刘庆生,译). 熔融炉用无铬耐火材料[J]. Foreign Refraccties(国外耐火材料),2005,30(6):56-57.
[24] Translated by Cai Li(蔡丽,译). 不烧的无铬碱性耐火材料[J]. Refractories & Lime(耐火与石灰),2011,36(6):39-41.
[25] Translated by Peng Yan and Xie Chaohui(彭艳,谢朝晖,译). 新型无铬碱性耐火材料[J]. Refractories & Lime(耐火与石灰),2008,33(3):20-22.
[26] Zhang Peng(张鹏). 无铬耐火衬料在Φ4.8 m×72 m回转窑上的应用[J].Cement(水泥),2011(8):30-32.
[27] Chen Zhaoyou(陈肇友). 水泥回转窑烧成带用无铬耐火材料[J]. Refractories(耐火材料),2010,44(6):404-408.
[28] Hisao Kozuka, Yoshiharu Kajita, Yoshiki Tsuchiya, et al. New kind of chrome-free MgO-CaO-ZrO2 bricks for burning zone of rotary cement kiln[C]/ /Proceedings of UNITECR’ 93, Sao Paulo, Brazil,1993:1027-1037.
[29] Nakoto Ohno, Kozo Tokunaga, Yoshiki Tsuchiya, et al. Applications of chrome-free bricks to cement rotary kilns in Japan[C]/ /Proceedings of UN ITECR’ 2003, Osaka, Japan, 2003:27-30.
[30] Zhang Baoxin(张宝鑫). Research on Non-Chromium Refractory for Rotary Cement Kiln in Burning Zone(水泥回转窑烧成带用无铬耐火材料研究)[D].Anshan: University of Science and Technology LiaoNing,2008.
[31] SHI Suhuan(师素环). Investigation into the reaction mechanism of clinker to chrome-fee refractories used in large-scale dry-process cement rotary kiln(大型干法水泥窑用无铬耐火材料与窑料的反应机理研究)[D].Xi’an: Xi’an University of Architecture and Technology,2006.
[32] Chen Rongrong(陈荣荣),He Pingxian(何平显),Mou Jining(牟济宁),et al. RH真空炉衬用无铬耐火材料抗渣性能的研究[J]. Refractories(耐火材料),2005,39(5):357-360.
[33] Cavallo D, Campopiano A, Cardiali G, et al. Cytotoxic and oxidative effects induced by man-made vitreous fibers(MMVFs) in a human mesothelial cell line[J]. Toxicol,2004,201(1~3):219-229.
[34] International Agency for Research on Cancer(IARC). Monographs on the Evaluation of Carcinogenic Risk to Humans: Man-Made Vitreous Fibres[R]. Lyon, France,2002,81:57-339.
[35] Bunn W B, Bender J R, Hersterberg T W, et al. Recent studies of man-made vitreous fibers: chronic animal inhalation studies[J]. J Occup Med,1993,35(2):101-113.
[36] Kamstrup O, Ellehauge A, Collier C G, et al. Carcinogenicity studies after intraperitoneal injection of two types of stone wool fibres in rats[J].Ann Occup Hyg,2002,46(2):135-142.
[37] Okayasu R, Wu L, Hei T K. Biological effects of naturally occurring and man-made fibres in vitro cytotoxicity and mutagenesis in mammalian cells[J]. Br J Cancer,1999,79(9~10):1319-1324.
[38] Elias Z, Poirot O, Daniere M C, et al. Surface reactivity, cytotoxicity and transforming potency of iron-covered compared to untreated refractory ceramic fibers[J]. J Toxicol Environ Health,2002,65(23):2007- 2027.
[39] Zoitos B K, Meringo A D, Rouyer E, et al. Invitro measurement of fiber dissolution rate relevant to biopersistence at Neutral pH: An interlaboratory round robin[J]. Inhal Toxicol,1997,9(6):525-540.
[40] Wang Xitang(王玺堂),Liu Hao(刘浩),Zhang Baoguo(张保国),et al. 耐火纤维粉尘在模拟肺液中的生物溶解行为[J]. Refractories(耐火材料),2009,43(6):401-404.
[41] Luo Chenze(罗晨泽),Wang Xitang(王玺堂),Zhang Baoguo(张保国),et al. 生物可溶性耐火纤维的研究进展[J]. Refractories(耐火材料),2005,39(1):62-64.
[42] Zhang Wei, Dai Wenyong, Yu Xinfeng, et al. Effect of Heat Treatment Temperature on Properties of Chinese Calcined Flint Clay Based Plastic Refractories[J]. China’s Refractories, 2009,18(2):27-29.
[43] Zhang Wei(张巍),Dai Wenyong(戴文勇). 焦宝石基可塑料的研制[J]. Refractories & Lime(耐火与石灰),2010,35(6):15-17.
[44] Zhang Wei(张巍). 不定形耐火材料之可塑料的研究进展[J]. Bulletin of the Chinese Ceramic Society(硅酸盐通报),2012,31(2):316-321.
[45] Sakano Y, Takahashi H. Outlook for the refractories industry in Japan[J]. American Ceramic Society Bulletin,1988, 67(7): 1164-1168.
[46] Deng Tang(邓棠), Zou Zuqiao(邹祖桥),Li Huaiyuan(李怀远),et al. 武钢3号高炉炉底、炉缸用炭素捣打料和炭素胶泥选择试验研究[J].Ironmaking(炼铁),2005,24(5):24-26.
[47] Zhu Yiwen(朱义文),Shuai Ping(帅平),Peng Xuefeng(彭学峰). 炭素捣打料的研制[J].Jiangsu Metallurgy(江苏冶金),2006,34(6):21-22.
[48] Xu Bin(许斌),Song Zikui(宋子逵),Ren Yuming(任玉明),et al. 改性结合剂对炭素捣打料性能的影响[J]. Refractories(耐火材料),2009,43(6):438-440.
[49] Zhang Wei(张巍),Li Liang(李亮),Dai Wenyong(戴文勇). 湿法喷涂料的研制[J]. Refractories & Lime(耐火与石灰),2010,35(1):13-14,18.
[50] Translated by LIU Sujian(刘素健,译). SiC质湿式喷涂料在水泥设备上的应用[J]. Foreign Refraccties(国外耐火材料),2001,26(5):62-63.
[51] Translated by WANG Zhenliang(王振良,译). 钢包用低硅湿式喷补料的开发[J]. Foreign Refraccties(国外耐火材料),2001,26(5):16-18.
[52] Huang Weiguo(黄卫国). 硅微粉含量对铝镁质湿式喷补料性能的影响[J]. Refractories(耐火材料),2003,36(1):42.
[53] Translated by QI Jianguo(启建国,译). 水分对湿式喷补料的影响[J]. Foreign Refraccties(国外耐火材料),2001,26(5):56-59.
[54] XU Huijuan(徐慧娟). 新型湿式致密喷补料的施工方法[J]. Refractories(耐火材料),2000,33(1):16.

备注/Memo

备注/Memo:
 收稿日期:2011-05-21第一作者:张巍,男,1982年生,硕士,工程师6 稀有金属材料与工程 29卷
更新日期/Last Update: 2013-10-10