Study on Correlation Between Coating Rate and Hot Water Soluble Substances of Reconstituted Tobacco
American Journal of Agriculture and Forestry
Volume 6, Issue 4, July 2018, Pages: 65-70
Received: Jun. 10, 2018;
Accepted: Jun. 26, 2018;
Published: Jul. 18, 2018
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Dandan Su, China Tobacco Schweitzer (Yunnan) Reconstituted Tobacco Co. Ltd, Yuxi, China
Guiyuan Zhou, China Tobacco Schweitzer (Yunnan) Reconstituted Tobacco Co. Ltd, Yuxi, China
Wenjun Zhang, China Tobacco Schweitzer (Yunnan) Reconstituted Tobacco Co. Ltd, Yuxi, China
Dejun Wu, Yantai Zhonghai Diaotai Biotechnology Development Co. Ltd, Yantai, China
Xiaosheng Wang, China Tobacco Schweitzer (Yunnan) Reconstituted Tobacco Co. Ltd, Yuxi, China
Hua Chen, China Tobacco Schweitzer (Yunnan) Reconstituted Tobacco Co. Ltd, Yuxi, China
Mingwen Wei, China Tobacco Schweitzer (Yunnan) Reconstituted Tobacco Co. Ltd, Yuxi, China
Tao Feng, China Tobacco Schweitzer (Yunnan) Reconstituted Tobacco Co. Ltd, Yuxi, China
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The corresponding relationship between the coating rate and hot water soluble of paper-making reconstituted tobacco was studied in this paper which provided references for the research and application on the off-line detecting of coating rate. Through the accurate quantitative coating experiment, the hot water soluble of reconstituted tobacco by paper-making was determined through soxhlet extraction and coffee machine washing in this paper. And the corresponding relationship between the coating rate and hot water soluble determined by these two methods was also compared in order to make sure which method was more suitable. The results showed that the hot water soluble value was significantly positively correlated with coating rate (P<0.01), if the coating rate distribute between 38% and 46%. The linear equation obtained y=1.007x+1.387, R2=0.974 and y=0.932x+3.181, R2=0.985, respectively. The hot water soluble value determined by these two methods were different from each other. And the values determined by soxhlet extraction were mostly lower than the values detected by coffee machine washing; The coating rate derived from hot water soluble values determined by coffee machine washing was more closer to the actual values. It is feasible to derive the coating rate from hot water soluble values, and the method of coffee machine washing is more suitable for practical production testing, which has the advantage of short testing time and simple operation.
Papermaking Reconstituted Tobacco, Coating Rate, Hot Water Soluble, Correlation
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Study on Correlation Between Coating Rate and Hot Water Soluble Substances of Reconstituted Tobacco, American Journal of Agriculture and Forestry.
Vol. 6, No. 4,
2018, pp. 65-70.
Copyright © 2018 Authors retain the copyright of this article.
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Yu J J. Cigarette Technology [M]. Beijing：China Agriculture Press, 2003:322-323.
Wang H Y, Xiang H Y, Liu J, Wang J, Qiu Y, Zhang Q F. Study on determination for tensile strength of paper-process reconstituted tobacco [J]. Modern Scientific Instruments, 2013 (2):133-136.
Wang H W. Application Effect of Reconstituted tobacco paper in cigarette [J]. Tobacco Science, 2000(8):15-16.
Wang J S, Liu X H, Ji X. Application of paper-making tobacco sheet in virginia type cigarette products [J]. Tobacco Science, 2004 (3):9-10.
Chen Y, Jiang X D. Measurement of theoretical coating rate for paint [J]. Coatings Technology & Abstracts, 2004, 25(1): 38-39.
Zhou W P, Chen G. Discussion methods for determination of coating rate for paint [J]. Coatings Technology & Abstracts, 2001, 25 (2):31-32.
Tang J B, Zhao C S, Han W J. Technological improvement of paper-making process reconstituted tobacco [J]. Tobacco Science &Technology, 2009(7):15-17.
Hua Y K, Hei H, Chen J, et al. A method for improving the sensory quality of reconstituted tobacco [P]. Chinese Patent, 2012. CN102396772A.
Li H, Wei Q, Liu W J, Sun Y, Zhang S D. A method to calculate rate of reconstituted tobacco by messuring the chloride content [J]. Journal of Yunnan Agricultural University, 2014, 29 (S1): 10-14.
Qiu Y, Yang X Z, Xiang H Y, et al. Study on determination method for spreading rate of paper-process reconstituted tobacco [J]. Modern Scientific Instruments, 2012(6):129-133.
Dai L J, Shi J Z, Chen T. Calculation method of hot water soluble extraction rate in paper-making reconstituted tobacco leaf production line [J]. Fujian Analysis & Testing, 2014, 23 (1): 36-38.
Hongta Tobacco (Group) Co., Ltd. A method of determination of water solubles for paper reconstituted tobacco: China, 201210447325 [P]. 2013-04-17.http://www.pss-system. gov.cn/sipopublicsearch/search/search/showViewList.shtml
Wang WS, Wang Y, YangLJ, et al. Studies on thermal behavior of reconstituted tobacco sheet [J]. Thermochimica Acta，2005(437):7-11.
Huang XM, Hu WJ, Wang YH. Research on the stabilizing Coating Rate of the Reconstituted Tobacco by Papermaking Process [J]. Paper and Paper Making, 2015, 34 (12):53-57.
Zhang DK, Yan XL, Li KJ, et al. The establishment of three detection methods for coverage rate of reconstituted tobacco [J]. China Pulp& Paper Industry, 2016, 37 (22):49-52.
Fujian China Tobacco Industry Co., Ltd. A method and device for testing the coating rate of papermaking reconstituted tobacco: China, CN105675526A. 2016-06-15. http://www.pss-system.gov.cn/sipopublicsearch/patentsearch/showSearchResult-drillSearchByViewSetting.shtml