Inorganic Chemicals Industry >
Research status of main properties of basalt fiber
Received date: 2020-04-25
Online published: 2020-11-24
In order to have a better understanding of the basic properties of basalt fiber,the requirement of chemical composition of raw materials for preparing the basalt fiber was introduced.The physical properties,chemical properties and mechanical properties of basalt fiber were summarized,and the factors that affect the mechanical properties of basalt fiber were mainly discussed.It pointed out that chemical composition,mineral composition and fiber structure of basalt raw material are the key to influence the basic characteristics of basalt fiber.The development trend of wetting agent in the future is the special inorganic wetting agent.
Peng Chen , Chenhu Zhang , Chengyong Wang , Kaiyi Shi , Yizhu Lei . Research status of main properties of basalt fiber[J]. Inorganic Chemicals Industry, 2020 , 52(10) : 64 -67 . DOI: 10.11962/1006-4990.2019-0592
[1] | 何青峰, 何朝晖, 刘运生. 铝盐行业的污染治理与环境风险控制[J]. 无机盐工业, 2018,50(5):7-11. |
[2] | 李润生, 俞明华, 聂祥, 等. 水处理混凝剂的评价[J]. 无机盐工业, 2017,49(5):1-4. |
[3] | Krasnovskih M P, Maksimovich N G, Vaisman Y I, et al. Thermal stability of mineral-wool heat-insulating materials[J]. Russian Journal of Applied Chemistry, 2014,87(10):1430-1434. |
[4] | 陈亚迪, 洪丽, 蒋津, 等. 水泥砂浆基体中玄武岩纤维的拔出试验研究[J]. 硅酸盐通报, 2019,38(9):2985-2991. |
[5] | 鞠彦忠, 范云廷, 王德弘, 等. 玄武岩纤维RPC基本力学性能研究[J]. 硅酸盐通报, 2017,36(5):1777-1782. |
[6] | 欧阳利军, 许峰, 陆洲导. 玄武岩纤维布增强树脂基复合材料约束高温损伤混凝土轴压力学性能[J]. 复合材料学报, 2018,35(8):2002-2013. |
[7] | 胡红鑫, 徐晨, 于晓燕, 等. 玄武岩纤维改性不饱和聚酯树脂的性能研究[J]. 胶体与聚合物, 2019,37(1):32-35. |
[8] | 杨建林, 王俊杰, 李闯, 等. 改性玄武岩纤维对Al基复合材料耐磨性的影响[J]. 硅酸盐通报, 2016,35(5):1578-1582,1587. |
[9] | Batyaev V F, Sklyarov S V. Comparative analysis of non-destructive methods to control fissile materials in large-size containers[J]. The European Physical Journal Conferences, 2017,146:09039. |
[10] | Xing D, Xi X Y, Ma P C. Factors governing the tensile strength of basalt fiber[J]. Composites Part A:Applied Science and Manufacturing, 2019,119:127-133. |
[11] | 陈兴芬. 连续玄武岩纤维的高强度化研究[D]. 南京:东南大学, 2018. |
[12] | 李新娥. 玄武岩织物墙体材料的应用前景[J]. 产业用纺织品, 2015,33(4):36-38. |
[13] | 霍冀川, 雷永林, 王海滨, 等. 玄武岩纤维的制备及其复合材料的研究进展[J]. 材料导报, 2006(s1):382-385. |
[14] | 余地. 冻融循环作用下玄武岩纤维沥青混合料性能衰变特性及机理研究[D]. 吉林:吉林大学, 2019. |
[15] | 王跃忠. 四川省纤维用玄武岩找矿远景分析[J]. 矿物学报, 2019(6).Doi: 10.16461/j.cnki.1000-4734.2019.39.083. |
[16] | 曹海琳, 郎海军, 孟松鹤. 连续玄武岩纤维结构与性能试验研究[J]. 高科技纤维与应用, 2007(5):8-13. |
[17] | Park J Y, Park S J, Chang W S, et al. Effect of FeOt content and CaO/SiO2 ratio on hydrogen dissolution in CaF2-CaO-SiO2-based welding fluxes[J]. Journal of the American Ceramic Society, 2012,95(5):1756-1763. |
[18] | 魏斌. 玄武岩纤维的化学稳定性能及其涂层改性研究[D]. 哈尔滨:哈尔滨工业大学, 2011. |
[19] | Dhand V, Mittal G, Rhee K Y, et al. A short review on basalt fiberreinforced polymer composites[J]. Composites Part B:Engineering, 2015(73):166-180. |
[20] | Wu Zhishen, Wang Xin, Wu Gang. Advancement of structural safety and sustainability with basalt fiber reinforced polymers[C]// Proceedings of CICE 2012 6th International Conference on FRP Composites in Civil Engineering.Rome, 2012. |
[21] | 吾化信. 导电玄武岩纤维材料制备与应用研究取得新进展[J]. 人造纤维, 2017,47(5):38. |
[22] | Singha K. A short review on basalt fiber[J]. International Journal of Textile Science, 2012,1(4):19-28. |
[23] | 陈菁, 顾轶卓, 杨中甲, 等. 高温处理对几种玄武岩纤维成分和拉伸性能的影响[J]. 材料工程, 2017,45(6):61-66. |
[24] | Fiore V, Scalici T, Bella G D, et al. A review on basalt fiber and its composites[J]. Composites Part B:Engineering, 2015(74):74-94. |
[25] | 曹海琳, 晏义伍, 岳利培, 等. 玄武岩纤维[M]. 北京: 国防工业出版社, 2017. |
[26] | 魏晨, 郭荣辉. 玄武岩纤维的性能及应用[J]. 纺织科学与工程学报, 2019,36(3):89-94. |
[27] | 张倩, 梁显林, 梁止水, 等. 不同尺寸的玄武岩纤维填料的污水处理效能评价[J]. 环境工程, 2019,37(9):24-29. |
[28] | 韦静, 高凤仪, 张晓颖, 等. 新型玄武岩纤维生物载体与水处理应用研究现状及展望[J]. 环境工程, 2019,37(9):1-7,39. |
[29] | Blaznov A N, Atyasova E V, Shundrina I K, et al. Thermomechanical characterization of BFRP and GFRP with different degree of conversion[J]. Polymer Testing, 2017,60:49-57. |
[30] | 王宁, 刘敏, 庄忱, 等. 酸处理对玄武岩纤维微观结构和力学性能的影响[J]. 功能材料, 2013,44(1):84-87. |
[31] | 王宁. 玄武岩纤维及其改性沥青的性能研究[D]. 北京:中国地质大学, 2013. |
[32] | 叶邦土, 蒋金洋, 王文灏, 等. 玄武岩纤维及其增强水泥基材料的研究进展[J]. 材料导报, 2013,27(19):102-108. |
[33] | 王正刚, 张卫强, 张义军, 等. 玄武岩纤维性能及其鉴别方法[J]. 玻璃纤维, 2015(3):40-47. |
[34] | 王欣悦. 不同浸润剂类型玄武岩纤维沥青混合料性能及微观结构研究[D]. 扬州:扬州大学, 2018. |
[35] | Chen Xingfen, Zhang Yunsheng, Hui David, et al. Study of melting properties of basalt based on their mineral components[J]. Composites Part B:Engineering, 2017,11(6):53-60. |
[36] | Chen Xingfen, Zhang Yunsheng, Huo Haibin, et al. Improving the tensile strength of continuous basalt fiber by mixing basalts[J]. Fibers and Polymers, 2017,18(9):1796-1803. |
[37] | 王晓龙, 许其军, 徐玥, 等. 玄武岩纤维浸渍液的研究[J]. 橡胶科技, 2018,16(4):14-16. |
[38] | Siddiqui N A, Sham M L, Tang Benzhong, et al. Tensile strength of glass fibers with carbon nanotube-epoxy nanocomposite coating[J]. Composites Part A:Applied Science and Manufacturing, 2009,40(10):1606-1614. |
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