[1] 王登祥. 不溶性硫磺应用研究[J]. 特种橡胶制品, 1984(3):31-36. WANG Dengxiang. Study on the application of insoluble sulfur[J]. Special Rubber Products, 1984(3):31-36.
[2] MA Jian, ZHAO Jigang, WANG Rongjie, et al. Theoretical study on structure of polymeric sulfur[J]. Asian Journal of Chemistry, 2015, 27(12):4583-4586.
[3] ALVIN S. Production of insoluble sulfur:US2460365[P]. 1949-02-01.
[4] MEYER B. Elemental sulfur[J]. Chemical Reviews, 1976, 76(3):367.
[5] BATYEVA E S, NIZAMOV I S, KURSHEVA L I, et al. ChemInform abstract:synthesis of organophosphorus compounds in terms of elemental phosphorus, sulfur and their derivatives[J]. Phosphorus Sulfur & Silicon & the Related Elements, 1999, 144(1):77-80.
[6] SCAFE E. NARDELLA A, DE FILIPPIS D. Elastic properties of polycrystalline elemental sulphur[J]. Journal of Materials Science, 2005, 40(14):3813-3816.
[7] CORNELL R J, ROBERTS D H, TRUE W R. Rubber compounding formulation and method:US6171517[P]. 2001-01-09.
[8] KEAMOAI K O B. Traveling back raft (the TBR):US20080203121[P]. 2008-08-28.
[9] KRESS K E. Absorptiometric determination of lead in rubber products and compounding materials[J]. Analytical Chemistry, 1957, 29(5):803-807.
[10] ROBERT J. Rubber compounding formulation and method:US6171517B1[P], 2001.
[11] KOCZOROWSKA E, JURKOWSKA B, JURKOWSKI B. Studies of sulfur behavior in rubber compounds[J]. Journal of Applied Polymer Science, 2015, 69:1531-1536.
[12] 黄凯,黄黔.国产不溶性硫黄在全钢载重子午线轮胎过渡层胶中的应用[J].轮胎工业, 2016, 36(8):472-474. HUANG Kai, HUANG Qian. The application of domestic insoluble sulfur in the transition layer rubber of the whole steel load radial tire[J]. Tire Industry, 2016, 36(8):472-474.
[13] 刘道春.探密子午线轮胎及其发展[J].聚氨酯工业, 2014(6):66-70. LIU Daochun. Exploration and development of radial tire[J]. Polyurethane Industry, 2014(6):66-70.
[14] 何井武,邱立武.国产不溶性硫黄OT-20在全钢载重子午线轮胎中的应用[J].轮胎工业, 2009, 29(9):550-553. HE Jingwu, QIU Liwu. The application of domestic insoluble sulfur OT-20 in full steel load meridian tire[J]. Tire Industry, 2009, 29(9):550-553.
[15] 姜杰,郭秋花,黄义钢,等.国产不溶性硫黄OT20在全钢载重子午线轮胎带束层胶和胎体胶中的应用[J]. 橡胶科技, 2014(4):31-34. JIANG Jie, GUO Qiuhua, HUANG Yigang, et al. The application of domestic insoluble sulfur-yellow OT20 in the rubber belt laminator and the rubber tire of the whole steel load meridian[J]. Rubber Technology, 2014(4):31-34.
[16] 王志霞,陈鸣才,刘红波.不溶性硫磺的生产和发展现状[J].现代化工, 2004, 24(2):19-22. WANG Zhixia, CHEN Mingcai, LIU Hongbo. The present situation of production and development of insoluble sulfur[J]. Modern Chemical Industry, 2004, 24(2):19-22.
[17] 王荣杰,沈本贤,马健,等.基于密度泛函的硫黄S8开环裂解机理[J].化工学报, 2015, 66(10):3919-3924. WANG Rongjie, SHEN Benxian, MA Jian, et al. The mechanism of open loop cracking of sulfur yellow S8 based on density functional[J]. CIESC Journal, 2015, 66(10):3919-3924.
[18] 马健,赵基钢,王荣杰,等.基于分子模拟的不溶性硫黄稳定剂的性能[J].化工进展, 2016, 35(3):706-710. MA Jian, ZHAO Jigang, WANG Rongjie, et al. The performance of insoluble sulfur stabilizer based on molecular simulation[J]. Chemical Industry and Engineering Progress, 2016, 35(3):706-710.
[19] 陈炫廷,沈本贤,黄婉利,等.差示扫描量热法评定不溶性硫黄热稳定性[J].轮胎工业, 2016, 36(4):250-253. CHEN Xuanting, SHEN Benxian, HUANG Wanli, et al. The thermal stability of insoluble sulfur is evaluated by differential scanning calorimetry[J]. Tire Industry, 2016, 36(4):250-253.
[20] 舒阳,赵基钢,王荣杰,等.影响测定不溶性硫黄热稳定性条件的研究[J].现代化工, 2016(5):183-185. SHU Yang, ZHAO Jigang, WANG Rongjie, et al. Study on thermal stability of insoluble sulfur determination conditions[J]. Modern Chemical Industry, 2016(5):183-185.
[21] 中华人民共和国化工行业标准. HG/T 2525-2011橡胶用不溶性硫磺[S].北京:化学工业出版社, 2012:1-8. Standards of chemical industry of the People's Republic of China. HG/T 2525-2011 Insoluble sulfur for rubber[S]. Beijing:Chemical Industry Press, 2012:1-8.
[22] 赵英杰.中橡协发布不溶性硫磺自律标准[J].中国橡胶, 2014, 30(2):6. ZHAO Yingjie. The insoluble sulfur self-discipline standard was issued by China oak[J]. China Rubber, 2014, 30(2):6.
[23] 王登祥.轮胎滚动阻力文献述评[J].轮胎工业, 1997(12):707-712. WANG Dengxiang. Literature review of tire rolling resistance[J]. Tire Industry, 1997(12):707-712.
[24] 段咏新.纳米材料增强的共混型集成胶结构与性能的研究[D].北京:北京化工大学, 2002. DUAN Yongxin. The study on the structure and properties of the enhanced blends of nanomaterials[D]. Beijing:Beijing University of Chemical Technology, 2002.
[25] 高鹏.基于X光图像的轮胎内部缺陷检测技术研究[D].天津:天津大学, 2009. GAO Peng. Study on internal defect detection of tire based on X-ray image[D]. Tianjin:Tianjin University, 2009. |