[1] |
庄贵阳. 我国实现"双碳"目标面临的挑战及对策[J]. 人民论坛, 2021(18):50-53. doi: 10.3969/j.issn.1004-3381.2021.18.012ZHUANG Guiyang. Challenges and counter measures for China to achieve the goal of "double carbon"[J]. People's Tribune,2021(18):50-53(in Chinese). doi: 10.3969/j.issn.1004-3381.2021.18.012
|
[2] |
潘科, 徐海涛, 冯祥奕. "双碳"目标下我国新材料重点方向发展研究[J]. 信息通信技术与政策, 2022(3):74-81.PAN Ke, XU Haitao, FENG Xiangyi. Research on the development of key directions of new materials in China under the goal of "double carbon"[J]. Information and Communications Technology and Policy,2022(3):74-81(in Chinese).
|
[3] |
扈蓉, 陈丽琼, 黄开胜, 等. 低碳生物基塑料研究进展[J]. 塑料科技, 2012, 40(2):94-98. doi: 10.3969/j.issn.1005-3360.2012.02.017HU Rong, CHEN Liqiong, HUANG Kaisheng, et al. Research progress of low carbon bio based plastics[J]. Plastics Science and Technology,2012,40(2):94-98(in Chinese). doi: 10.3969/j.issn.1005-3360.2012.02.017
|
[4] |
唐皞, 郭斌, 李本刚, 等. 热塑性淀粉的增强研究进展[J]. 塑料工业, 2013, 41(1):1-8, 28. doi: 10.3969/j.issn.1005-5770.2013.01.001TANG Hao, GUO Bin, LI Ben'gang, et al. Research progress on reinforcement of thermoplastic starch[J]. Plastic Industry,2013,41(1):1-8, 28(in Chinese). doi: 10.3969/j.issn.1005-5770.2013.01.001
|
[5] |
唐皞, 郭斌, 薛岚, 等. 增塑剂在热塑性淀粉中的应用研究进展[J]. 塑料工业, 2012, 40(7):1-4, 90.TANG Hao, GUO Bin, XUE Lan, et al. Research progress on the application of plasticizers in thermoplastic starch[J]. Plastic Industry,2012,40(7):1-4, 90(in Chinese).
|
[6] |
查东东, 郭斌, 李本刚, 等. 热塑性淀粉耐水性的化学与物理作用机制[J]. 化学进展, 2019, 31(1):156-166.ZHA Dongdong, GUO Bin, LI Ben'gang, et al. Chemical and physical mechanism of water resistance of thermoplastic starch[J]. Chemical Progress,2019,31(1):156-166(in Chinese).
|
[7] |
查东东, 周文, 银鹏, 等. 热塑性淀粉力学性能的提升途径及作用机理[J]. 化学进展, 2019, 31(7):1044-1055. doi: 10.7536/PC181113ZHA Dongdong, ZHOU Wen, YIN Peng, et al. Improving ways and mechanism of mechanical properties of thermoplastic starch[J]. Chemical Progress,2019,31(7):1044-1055(in Chinese). doi: 10.7536/PC181113
|
[8] |
周文, 张鑫, 马宏鹏, 等. 热塑性淀粉制备的化学与物理机制及方法[J]. 化学进展, 2021, 33(11):1972-1982.ZHOU Wen, ZHANG Xin, MA Hongpeng, et al. Chemical and physical mechanism and method of thermoplastic starch preparation[J]. Chemical Progress,2021,33(11):1972-1982(in Chinese).
|
[9] |
PAKRAVAN H R , JAMSHIDI M , LATIFI M. The effect of hydrophilic (polyvinyl alcohol) fiber content on the flexural behavior of engineered cementitious composites (ECC)[J]. Journal of the Textile Institute,2018,109(1):79-84.
|
[10] |
ZHAO Y, YANG X, ZHANG Q, et al. Crack resistance and mechanical properties of polyvinyl alcohol fiber-reinforced cement-stabilized macadam base[J]. Advances in Civil Engineering,2020,8(88):6564076.
|
[11] |
ZHU Y, LI H M, WU C X, et al. Preparation and characterisation of polyvinyl alcohol/nano-SiO2 composite fibre with high initial modulus[J]. Material Research Innovations,2015,18(S4):825-828.
|
[12] |
ALEXANDER R, DINKAR A, BISWAS S, et al. Comparative study of different carbon reinforcements at different length scales on the properties of polyvinyl alcohol composites[J]. Polymer Composites,2021,42(9):4239-4252. doi: 10.1002/pc.26142
|
[13] |
ZHOU W, ZHA D, ZHANG X, et al. Ordered long polyvinyl alcohol fiber-reinforced thermoplastic starch composite having comparable mechanical properties with polyethylene and polypropylene[J]. Carbohydrate Polymers,2020,250(3):116913.
|
[14] |
YIN P, DONG X, ZHOU W, et al. A novel method to produce sustainable biocomposites based on thermoplastic corn-starch reinforced by polyvinyl alcohol fibers[J]. RSC Advances,2020,10(40):23632-23643. doi: 10.1039/D0RA04523C
|
[15] |
JIANG L, LIU Z, HU K, et al. Preparation and properties of environment-friendly acrylic latex laminating adhesives applied in plastic/plastic composite films[J]. Journal of Adhesion Science and Technology,2019,33(1):2-17.
|
[16] |
DAFADER N C, RAHMAN N, MAJUMDAR S K, et al. Preparation and characterization of iminodiacetate group containing nonwoven polyethylene fabrics and its application in chromium adsorption[J]. Journal of Polymers and the Environment,2018,26(2):740-748. doi: 10.1007/s10924-017-0991-8
|
[17] |
RANDALL J D, EYCKENS D J, SARLIN E, et al. Mixed surface chemistry on carbon fibers to promote adhesion in epoxy and PMMA polymers[J]. Industrial & Engineering Chemistry Research,2022,61(4):1615-1623.
|
[18] |
柯勇, 沈一丁, 费贵强, 等. GMA改性水溶性PVA纤维的制备及其对纸张增强作用[J]. 精细化工, 2013, 30(11):1247-1251. doi: 10.13550/j.jxhg.2013.11.011KE Yong, SHEN Yiding, FEI Guiqiang, et al. Preparation of GMA modified water-soluble PVA fiber and its strengthening effect on paper[J]. Fine Chemicals,2013,30(11):1247-1251(in Chinese). doi: 10.13550/j.jxhg.2013.11.011
|
[19] |
柯勇, 沈一丁, 费贵强, 等. 甲基丙烯酸缩水甘油酯对水溶性聚乙烯醇纤维的表面改性及增强机理[J]. 高分子材料科学与工程, 2013, 29(12):103-106.KE Yong, SHEN Yiding, FEI Guiqiang, et al. Surface modification and reinforcing mechanism of water soluble polyvinyl alcohol fiber by glycidyl methacrylate[J]. Polymeric Materials Science and Engineering,2013,29(12):103-106(in Chinese).
|
[20] |
中国国家标准化管理委员会. 塑料 拉伸性能的测定 第一部分: 总则: GB/T 1040.1—2018[S]. 北京: 中国标准出版社, 2018.Standardization Administration of the People's Republic of China. Plastics—Determination of tensile properties—Part 1: General principles: GB/T 1040.1—2018[S]. Beijing: China Standards Press, 2018(in Chinese).
|
[21] |
中国国家标准化管理委员会. 塑料 弯曲性能的测定: GB/T 9341—2008[S]. 北京: 中国标准出版社, 2008.Standardization Administration of the People's Republic of China. Plastics—Determination of flexural properties: GB/T 9341—2008[S]. Beijing: China Standards Press, 2008(in Chinese).
|
[22] |
柯勇. 悬浮接枝共聚改性聚乙烯醇纤维的制备及应用[D]. 陕西: 陕西科技大学, 2014.KE Yong. Preparation and application of polyvinyl alcohol fiber modified by suspension graft copolymerization[D]. Shaanxi: Shaanxi University of Science & Technology, 2014(in Chinese).
|
[23] |
QU L J, GUO X Q, TIAN M W, et al. Antimicrobial fibers based on chitosan and polyvinyl-alcohol[J]. Fibers & Polymers,2014,15(7):1357-1363.
|
[24] |
FAN L, DU Y, WANG X, et al. Preparation and characterization of alginate/poly(vinyl alcohol) blend fibers[J]. Jour-nal of Macromolecular Science Part A,2007,42(1):41-50.
|
[25] |
FADIL F, ADLI F A, AFFANDI N, et al. Dope-dyeing of polyvinyl alcohol (PVA) nanofibres with remazol yellow FG[J]. Polymers,2020,12(12):3043. doi: 10.3390/polym12123043
|