光谱学与光谱分析 |
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Preparation of Rubber Accelerator Tetrabenzylthiuramdisulfide and Its Spectral Analysis |
JIA Tai-xuan1, ZHANG Nan1*, GUO Yao1, LU You-chang1, TIAN Da-yong1, LI Hong-liang2 |
1. College of Chemistry & Environmental Engineering, Anyang Institute of Technology, Anyang 455000, China 2. Hebi Uhoo Chemical Co., Ltd., Hebi 458000, China |
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Abstract In the study, rubber accelerator tetrabenzylthiuramdisulfide (TBzDT) was synthesized with two-step method with hydrogen peroxide as oxidant firstly. TBzDT was detected and characterized with XRD, FT-IR, TG-DTA. Its micro-structure was revealed. Chemical bond types into TBzDT molecule were revealed with FT-IR. TBzDT phase composition and structure were given by crystallographic data from XRD detecting such as cell parameters, crystal face index. The phase composition and qualitative identification of TBzDT structure were completed. Two kinds of information were detected with TG-DTA as to quality change and thermal effect. TBzDT phase transition and decomposition temperature were 142.5, 200.9 ℃ respectively. The decomposition temperature of TBzDT was relevtively high. It could provided reference with research on rubber vulcanizing properties by TBzDT on rubber vulcanizing machine. A little SC2 contained into TBzDT was revealed by FTIR, TG-DTA from different sides.
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Received: 2015-06-29
Accepted: 2016-01-15
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Corresponding Authors:
ZHANG Nan
E-mail: 18738207825@163.com
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[1] Swapan K M, Najib A, Chandra D. Rubber Chemistry and Technology, 2012, 85(1): 629. [2] Wang J, Roland C M. Polymer, 2005, 46(12): 4160. [3] GU Jin-cui(谷金翠). Master Degree Thesis of Hainan University(海南大学硕士学位论文). Study of the Impacts of Environmental Vulcanization Aceelerators on Colloidal Property, Curing Property and Film Property of Natural Rubber Latey(环保硫化促进剂对天然胶乳的胶体性能,硫化特性及胶朦性能影响的研究),2012. [4] LIU Ya-juan, TAN Hai-sheng, GU Jin-cui(刘亚娟, 谭海生, 谷金翠). Chinese Journal of Tropical Crops(热带作物学报), 2013, 34(11): 2278. [5] Caete Vebber G, Claudio Nunes P. Journal of Applied Polymer Science, 2015, 132(23): 41929. [6] YU Fa-nuan(于法暖). Master Degree Thesis of Tsingdao University of Science and Technology(青岛科技大学硕士学位论文). Synthesis and Properities Study of Lactam Disulfides(内酰胺类二硫化物的合成及性能研究),2010. [7] WANG Zhi-qiang, WANG Fei, QIAN Juan-juan(王志强, 王 飞, 钱娟娟). China Rubber (中国橡胶), 2010, 26(19): 37. [8] Miyazaki T. US Patent, 8672011, 2014. [9] Eisenhuth, Ludwig, Zengel, et al. US Patent, 4459424. [10] Cutler, Leonard H. US Patent, 4032416. [11] Silverstein R, QIN Chuan-xiao(秦川校). The Spectra Analysis of Organic Compounds(有机化合物的波谱解析).Shanghai: East China University of Technology Press(上海: 华东科技大学出版社), 2007. |
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