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·2004· 精细化工 FINE CHEMICALS 第 39 卷

[2] LI J X (李继秀). Study on zinc removal from waste tire rubber coupling geents and its dispersion properties[J]. Fine Chemicals (精
powder[D]. Beijing: China University of Mining and Technology (中细化工), 2019, 36(4): 588-594.
国矿业大学), 2019. [21] LI X T (李祥婷), SONG X C (宋学超), SUN A C (孙阿超).
[3] CHEN Y Z (陈义中), LUO Y F (罗远芳), LI N (黎宁), et al. The Coupling agent modified reinforcement filler and its application in
domestic research progress of pyrolysis carbon black[C]//Wanli Cup— rubber[J]. Tire Industry (轮胎工业), 2020, 40(8): 458-464.
Proceedings of the 20th China Tire Technology Symposium. China: [22] LIU Q (刘权), TAN L Y (谭莲影), CHEN X Y (陈晓艳). Effect of
Chemical Industry and Engineering Society of China (万力杯-第 20 silane coupling agent KH550 on the properties of carbon black filled
届中国轮胎技术研讨会论文集), 2018 : 57-59. natural rubber[J]. China Rubber Industry (橡胶工业), 2018, 65(1):
[4] HU J (胡洁), KONG Z Q (孔政清), SUN C (孙翀), et al. Progress in 51-55.
modification and application of carbon black from waste tire [23] SUN A B (孙阿彬), LIU X C (刘勋聪) , WANG Q (王琦) . Study on
pyrolysis[J]. Comprehensive Utilization of Resources (中国轮胎资 grinding and coupling modification of pyrolysis carbon black and its
源综合利用), 2019, (3): 39-42. strengthening effect on styrene butadiene rubber[J]. China Rubber
[5] UNDRI A, MEINI S, ROSI L, et al. Microwave pyrolysis of Industry (橡胶工业), 2020, 67(12): 924-928.
polymeric materials: Waste tires treatment and characterization of the [24] XU S Z (徐世传), YIN J F (殷俊风). Study on reinforced
value-added products[J]. Journal of Analytical and Applied Pyrolysis, modification of carbon black from thermal cracking of tires[J]. China
2013, 103(9): 149-158. Rubber (中国橡胶), 2019, 35(12): 51-54.
[6] XU J Q , YU J X, XU J L. High-value utilization of waste tires: A [25] ZHOU J, YU T M, WU S J, et al. Inverse gas chromatography
review with focus on modified carbon black from pyrolysis[J]. investigation of rubber reinforencement by modified pyrolytic carbon
Science of the Total Environment, 2020, 742: 140235. black from scrap tires[J]. Industry & Engineering Chemistry
[7] KAR T, KELES S, KAYGUSUZ K. Comparison of catalytic and Reasearch, 2010, 49(4): 1691-1696.
noncatalytic pyrolysis and product yields of some waste biomass [26] MA L C (马立成), HAN L L (韩理理), WANG B B (王贝贝), et al.
species[J]. International Journal of Energy Research, 2019, 1: 1-12. Application of waste tire pyrolysis carbon black in tire side rubber of
[8] LIU C L (刘成龙), XU A H (许爱华), XIA J P (夏举佩), et al. truck tire[J]. Tire Industry (轮胎工业), 2020, 40(11): 666-669.
Process optimization and performance analysis for preparation of [27] WANG Y J (王永军). The compound modification of waste tire′s
silica from coal gangue leaching residue[J]. Fine Chemicals (精细化 pyrolysis carbon black and its application in tire research[D].
工), 2019, 36(11): 2177-2184. Qingdao: Qingdao University of Science and Technology (青岛科技
[9] ZHOU Z Y (周作艳), ZHOU L J (夏琳件), WANG J X (王军晓), 大学), 2016.
et al. Study on the application of waste tire pyrolysis carbon black in [28] TIAN X L, ZHUANG Q X, HAN S. A novel approach of
natural rubber[J]. Comprehensive Utilization of Resources (中国轮 reapplication of carbon black recovered from waste tyre pyrolysis to
胎资源综合利用), 2018, (11): 40-42. rubber composites[J]. Journal of Cleaner Production, 2021, 280: 124460.
[10] GONG T T (宫亭亭). Study on the reinforcing property of carbon [29] ZHANG Z X (张志霄), CHI Y (池涌), YAN J H (严建华), et al.
black to nature rubber[D]. Qingdao: Qingdao University of Science Conversion of pyrolytic chars from used tires to activated carbon[J].
and Technology (青岛科技大学), 2020. Journal of Zhejiang University（Engineering Science) (浙江大学学
[11] MARTÍNEZ J D, URIBE N C, MURILLO R, et al. Carbon black 报: 工学版), 2004, 38(6): 124-127.
recovery from waste tire pyrolysis by demineralization: Production [30] LI H H (李海红), YANG P (杨佩), XUE H (薛慧), et al. Preparation
and application in rubber compounding[J]. Waste Management, and characterization of activated carbon from cotton woven waste
2019, 85(1): 574-584. with potassium hydroxide[J]. Fine Chemicals (精细化工), 2018,
[12] LIU Y J (刘英俊). The further processing and application of scrap 35(1): 174-180.
tire pyrolysis carbon black[D]. Qingdao: Qingdao University of [31] WANG L (王露), DING X T (丁小婷), CHEN K (陈凯). Review on
Science and Technology (青岛科技大学), 2016. adsorption mechanism of activated carbon[J]. Science for the Masses
[13] WANG Y J (王永军), CHEN C H (陈春花), XIN Z X (辛振祥). (Science Education) (科学大众: 科学教育), 2018,(12): 30-68.
Structural characterization of modified pyrolysis carbon black and its [32] MA H X (马红霞), ZHANG J J (张菁菁), ZHENG Y J (郑艳军),
application in styrene butadiene rubber[J]. China Rubber Industry (橡 et al. Application of activated carbon in dyeing wastewater treatment
胶工业), 2018, 65(1): 64-69. and its recovery status[J]. Progress in Textile Science & Technology
[14] ZHANG X, LI H X, CAO Q, et al. Upgrading pyrolytic residue from (纺织科技进展), 2017, (5): 34-38.
waste tires to commercial carbon black[J]. Waste Management & [33] LIU M X (刘沐鑫), ZHAO J J (赵建军), LU H B (陆胡彪), et al.
Research, 2018, 36(5): 436-444. Study on the preparation of activated carbon from carbon black[J].
[15] ZHOU J (周洁). Study on surface properties of pyrolytic carbon Journal of Bengbu College (蚌埠学院学报), 2020, 9(5): 14-17.
black and its recycling application[D]. Hangzhou: Zhejiang [34] LIU J (刘俊), CHEN Y N (陈云嫩), NIE J X (聂锦霞). Preparation
University (浙江大学), 2006. of activated carbon from waste tire pyrolysis carbon black and its
[16] GE H W (葛瀚文), DONG H X (董慧欣), SU G R (苏冠蓉), et al. treatment of dyeing wastewater[J]. China Environmental Science (中
Experience and enlightenment of the pilot carbon market in China[J]. 国环境科学), 2018, 38(10): 3795-3800.
Renewable Resources and Circular Economy (再生资源与循环经 [35] MUIE L K, CHEUNG W H, VALIX M. Mesoporous activated
济), 2019, 12(10): 24-27. carbon from waste tyre rubber for dye removal from effluents[J].
[17] WU T P (吴挺培). Review on the production of carbon black by Microporous and Mesoporous Materials, 2009, 130(1): 287-294.
pyrolysis of waste tires[J]. Comprehensive Utilization of Tire [36] TRUBETSKAYA A, KLING J, ERSHAG O, et al. Removal of
Resources in China (中国轮胎资源综合利用), 2017, (9): 41-48. phenol and chlorine from wastewater using steam activated biomass
[18] XIAO G L (肖国良), PENG X Q (彭小芹), GAI G S (盖国胜). soot and tire carbon black[J]. Journal of Hazardous Materials, 2019,
Ultrafine grinding and surface modification of carbon black from 365(1): 846-856.
waste tire pyrolysis and its application in NR[J]. China Rubber [37] WANG F C (王凤超), GAO N B (高宁博), QUAN C (全翠).
Industry (橡胶工业), 2004, 51(2): 78-82. Progress on pyrolysis technology of waste tire and upgrade and
[19] CHENG Q K (程庆魁), YAN C (闫闯), BAI P X (白鹏翔), et al. 4A recycle utilization of carbon black product[J].CIESC(化工学报),
zeolite/lysobutadiene rubber composite modified by coupling 2019, 70(8): 2864-2875.
agent[J]. Journal of Qingdao University of Science and Technology [38] GUPTA V K, NAYAK A, AGARWAL S. Potential of activated
(Natural Science edition) (青岛科技大学学报: 自然科学版), 2020, carbon from waste rubber tire for the adsorption of phenolics: Effect
41(2): 69-74. of pre-treatment conditions[J]. Journal of Colloid and Interface
[20] LIU D D (柳丹丹), CUI J L (崔静磊), FANG L (方莉), et al. Science, 2014, 417(1): 420-430.
Preparation of white carbon black from fly ash modified with silane （下转第 2015 页）

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