阴离子型水性聚氨酯的合成与改性研究
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摘要
水性聚氨酯是以水为分散介质的二元胶体体系,与溶剂型聚氨酯相比具有无毒、不易燃烧、不污染环境等优点,已被广泛应用于皮革涂饰、汽车涂装、纤维处理、造纸工业助剂、涂料和粘合剂等领域。
本课题采用阴离子自乳化法引入亲水基团DMPA合成了稳定的聚氨酯乳液。在前人研究工作的基础上进一步探讨了水性聚氨酯的物理结构与性能的关系,并对其进行了封闭改性的初步尝试。研究表明:聚氨酯分子链中作为软段的聚合物多元醇结构不同,其乳液粘度、粒径、膜的耐水性、硬度、和拉伸强度也不同。这主要与软段的柔顺性及软段中是否带有侧基有关;提高-NCO/-OH摩尔比、增加DMPA和小分子扩链剂用量均使聚氨酯分子链中硬段含量增加,膜的拉伸强度提高,断裂伸长率降低;通过对未封闭体系动态力学性能的研究发现聚氨酯分子链中硬段含量的提高,导致聚氨酯软段的玻璃化温度(Tg)升高,软硬段相分离程度降低;扩链剂的结构、用量及复配方法对乳液及膜性能有影响,乙二胺扩链比醇类扩链综合性能优良。此外,反离子种类和用量也对聚氨酯乳液粒径、粘度和膜力学性能有影响。
通过对封闭改性体系的研究发现:封闭后的聚氨酯比未封闭的聚氨酯乳液稳定性提高;封闭剂结构不同其解封温度不同(解封温度用DSC法可确定),而且封闭剂的结构对乳液粒径、外观、稳定性也有影响;封闭固化后的膜在耐水性、硬度等方面均优于未封闭固化的膜。
A water-borne polyurethane (WPU) is defined as a binary colloidal system in which PU particles are dispersed in a continuous aqueous medium. In contrast to the solvent-borne polyurethane, the water-borne polyurethane have advantages of being free from toxicity and pollution etc., which thus was steadily expanded its application in textile coatings, sizing and adhesives for numbers of polymeric materials, leather surface etc..
In this paper, the stable aqueous polyurethane was prepared based on anionic self-emulsified process, incorporated dimethylol propionic acid (DMPA) into the prepolymer backbone. The structure-property relations of WPU were further discussed and blocking modification was primarily researched. The results showed that firstly, the different structures of polyesterols resulted in different properties of PU, such as particle size, viscosity of emulsions, tensile strength of films. Secondly, the study on the dynamic mechanics properties of unblocked systems showed that the glass transition temperature (Tg) of the soft-segments rose and the phrase compatibility of soft- and hard-segments was improved when the contents of hard-segments increased by elevating the ratio of -NCO/-OH and the dosages of DMPA and extender. Thirdly, the influences of the structure, dosage and mix of chain extenders on the properties of emulsions & films were studied. The results indicated that the emulsion extended with ethylene diamine (EDA) had better properties than that of the emulsion extended with diols. Moreover, the counter-ion worked strong effects on the physical properties of PU.
In addition, it was found from the investigation of the blocked system that the storage stability of blocked PU emulsions was improved, different blocking agents resulted in different deblocking temperatures (the deblocking temperatures were determined by Differential Scanning Calorimeter, DSC) and the post-curing films were better than uncured films in both aspects of hardness & water-resistance.
本课题采用阴离子自乳化法引入亲水基团DMPA合成了稳定的聚氨酯乳液。在前人研究工作的基础上进一步探讨了水性聚氨酯的物理结构与性能的关系,并对其进行了封闭改性的初步尝试。研究表明:聚氨酯分子链中作为软段的聚合物多元醇结构不同,其乳液粘度、粒径、膜的耐水性、硬度、和拉伸强度也不同。这主要与软段的柔顺性及软段中是否带有侧基有关;提高-NCO/-OH摩尔比、增加DMPA和小分子扩链剂用量均使聚氨酯分子链中硬段含量增加,膜的拉伸强度提高,断裂伸长率降低;通过对未封闭体系动态力学性能的研究发现聚氨酯分子链中硬段含量的提高,导致聚氨酯软段的玻璃化温度(Tg)升高,软硬段相分离程度降低;扩链剂的结构、用量及复配方法对乳液及膜性能有影响,乙二胺扩链比醇类扩链综合性能优良。此外,反离子种类和用量也对聚氨酯乳液粒径、粘度和膜力学性能有影响。
通过对封闭改性体系的研究发现:封闭后的聚氨酯比未封闭的聚氨酯乳液稳定性提高;封闭剂结构不同其解封温度不同(解封温度用DSC法可确定),而且封闭剂的结构对乳液粒径、外观、稳定性也有影响;封闭固化后的膜在耐水性、硬度等方面均优于未封闭固化的膜。
A water-borne polyurethane (WPU) is defined as a binary colloidal system in which PU particles are dispersed in a continuous aqueous medium. In contrast to the solvent-borne polyurethane, the water-borne polyurethane have advantages of being free from toxicity and pollution etc., which thus was steadily expanded its application in textile coatings, sizing and adhesives for numbers of polymeric materials, leather surface etc..
In this paper, the stable aqueous polyurethane was prepared based on anionic self-emulsified process, incorporated dimethylol propionic acid (DMPA) into the prepolymer backbone. The structure-property relations of WPU were further discussed and blocking modification was primarily researched. The results showed that firstly, the different structures of polyesterols resulted in different properties of PU, such as particle size, viscosity of emulsions, tensile strength of films. Secondly, the study on the dynamic mechanics properties of unblocked systems showed that the glass transition temperature (Tg) of the soft-segments rose and the phrase compatibility of soft- and hard-segments was improved when the contents of hard-segments increased by elevating the ratio of -NCO/-OH and the dosages of DMPA and extender. Thirdly, the influences of the structure, dosage and mix of chain extenders on the properties of emulsions & films were studied. The results indicated that the emulsion extended with ethylene diamine (EDA) had better properties than that of the emulsion extended with diols. Moreover, the counter-ion worked strong effects on the physical properties of PU.
In addition, it was found from the investigation of the blocked system that the storage stability of blocked PU emulsions was improved, different blocking agents resulted in different deblocking temperatures (the deblocking temperatures were determined by Differential Scanning Calorimeter, DSC) and the post-curing films were better than uncured films in both aspects of hardness & water-resistance.
引文
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[52] 孔志元,何庆迪等.涂料工业,2003,33(10):40~44
[53] 王念贵,邓丽娟,陈福和.聚氨酯工业,1998,13(3):19~22
[54] 张春华,亢茂青等.化工新型材料,1997,1:24~27
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[68] T. Regulski, M.R. Thomas et al. Org.Coat,Appl.Polym.Sci.,1983,48:1003.
[69] D.K atasamberis. J.Appl. Polym.Sci.,1990,41(9):2059~2065.
[70] 张俭等.聚氨酯工业,1990,(2):23~27
[71] 于洁,范和平等.聚氨酯工业,1998,13(1):20~23
[72] D.A. Wicks, Z.W. wicks Jr.. Prog.Org.Coat.,2001,41(4):1~83.
[73] 左榘,安英丽,栗方星.高分子材料科学与工程,2000,16(3):95~97
[74] 瞿金清,陈焕钦.高分子材料科学与工程,2003,19(2):43~47
[75] 朱立华,徐文瑄等.合成技术及应用,2000,16(1):29~32
[76] 游波,武利民等.高分子材料科学与工程,2003,19(1):84~88
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[2] 李少雄,刘益军.聚氨酯树脂及其应用,化学工业出版社,北京,2002
[3] 吕维忠,涂伟萍,陈焕钦.高分子通报,2001,6:60~65
[4] 李建宗,李士杰.聚氨酯工业,1997,12(4):11~14
[5] 陈红,张洪涛等.粘接,1998,3:19~22
[6] Kim Y. Y, Lee J. L. Journal of Polymer Science: part A: Polymer Chemistry, 1996,34:1095~1104
[7] Chen Y, Chen Y L. Journal of Applied Polymer Science,1992,46:435~443
[8] Vogt-Birnbrich B. Progress in Organic Coatings,1996,(29):32~38
[9] Marcel V, Jozual Anton L G.. Progress in Organic Coatings,1997,(30):39~49
[10] Yen M S, Kuo S C. Journal of Applied Polymer Science,1997,65(5):883~892
[11] 程时远,黄鹤.聚氨酯工业,1992,1:3~7
[12] 陈琦.中国胶粘剂,2001,11(4):43~47
[13] 张首文,王文军.化学推进剂和高分子材料,2001,5:10~12
[14] 瞿金青,黄洪.中国皮革,2001,30(17):6~9
[15] 周玉青,陈苏.精细石油化工进展,2001,2(10):26~29
[16] 周铭,周海清.涂料工业,2001,2:27~31
[17] Chen S. A., Chan W. C.. J.Polym. Sci. B: Polym Phys,1990,28(9):1515~1532
[18] Lorenz O., Haulena F., Kleben O., Angew. Macromol.Chem,1973,33:159
[19] D. Dieterich. Prog.Org.Coat.,1981,9:281~340
[20] 鹿秀山,郝广杰.高分子学报,2001,3:320~323
[21] O. Lorenz, H. Hick. Macromol. Chem,1978,72:115
[22] 李建宗,李士杰.中国胶粘剂,1996,6(5):44~50
[23] 包华,王世容等.聚氨酯工业,1996,4:16~19
[24] 李芝华,李国莱.中南工业大学学报,1998,29(2):197~200
[25] B.K. Kim, T.K. Kim et al. J. Appl. Polym. Sci,1994,53:371~378
[26] D.J. Hourston, G. Williams et al. J. Appl. Polym. Sci,1997,66:2305~2042
[27] C.H. Yang, H.J. Yang et al. Polymer,1999,40:871~885
[28] YuYing Xiu. J. Appl. Polym. Sci,1993,48:867~869
[29] B.K. Kim, Y.M. Lee. J. Appl. Polym. Sci,1994,54:1809~1815
[30] MENG-SHUNG YEN, SHU CHINKUO. J. Appl. Polym. Sci,1996,61:1639~1647
[31] 李坚,孙瑞凌.聚氨酯工业,1995,2:11~14
[32] 胡剑清,涂伟萍.华南理工大学学报,2002,30(4):73~76
[33] 罗强,陈应华等.应用化学,2001,18(6):504~506
[34] 吕维忠,涂伟萍,陈焕钦.合成材料老化与应用,2002,1:7~11
[35] 丁丽,杲云.功能高分子学报,2001,14(1):95~99
[36] 李延科,武青等.北京工业大学学报,2000,26(4):55~57
[37] 李士杰,廖水胶等.粘接,2001,22(3):11~12
[38] GNGR GNDZ, MURAT GAFAROGULLARi. J Appl Polym Sci,2001,80:604~612
[39] 陈家华,汤嘉陵等.精细化工,1995,12(3):16
[40] 曲虹霞,刘桂涛.聚氨酯工业,1999,14(1):40v42
[41] 陈红,谌东中等.聚氨酯工业,1999,14(4):27~29
[42] 陈红,余学海等.聚氨酯工业,2000,15(3):5~8
[43] 巨育红.现代涂料与涂装,1996,(2):6~9
[44] 胡津昕,孙多先.中国塑料,2002,16(10):33~37
[45] 周善康,林健青等.粘接,2001,22(1):21~24
[46] YUN CHEN, Y.L. CHEN. J Appl Polym Sci,1992,46:435~443
[47] D.J. HOURSTON, G.D. WILLIAMS et al. J Appl Polym Sci,1999,71:556~566
[48] 周善康,许一婷等.粘接,2001,22(2):23~26
[49] 张洪涛,尹朝晖.粘接,1998,6:1~4
[50] 郝广杰,张邦华等.高分子材料科学与工程,2000,16(2):148~151
[51] 韩朝晖,王一中等.北京化工大学学报,2001,28(1):48~51
[52] 孔志元,何庆迪等.涂料工业,2003,33(10):40~44
[53] 王念贵,邓丽娟,陈福和.聚氨酯工业,1998,13(3):19~22
[54] 张春华,亢茂青等.化工新型材料,1997,1:24~27
[55] 张学同,罗运军等.化学进展,2002,14(5):339~345
[56] 程卫军,姚康德等.化学工业与工程,2000,8:6~9
[57] 傅荣兴,冯建琳等.涂料王业,1990,1:14~18
[58] 童身毅.现代涂料与涂装,2002,4:24~28
[59] A. Chen, L. Katz. Proceeding of the waterborne,High-solids,powder coating symposium, New Orleans, LAA, 1996, 23:103~114.
[60] S.E Thames, P.C. Boyer. J.Coat.Tech.,1990,62(784):51~63.
[61] J-J Lin, G.P. Speranza et al. Ind.Eng.Chem.Res.,1997,36:4231.
[62] Y. Huang, G. Chu et al. J.Coat.Tech.,1995,67(842):33.
[63] J. Switzeman. Prog. Org. Coat,1996,27(1-4):269.
[64] D.A. Wicks, Z.W. Wicks Jr.. Prog.Org.Coat.,2001,43(1): 131~140.
[65] D.L. Jansse. J.Oil.Colour.Chem.Assoc.,1989,98:478.
[66] H.R. Lucas, K-J.wu. J.Coat.Tech.,1993,65(820):59~66.
[67] I. Muramatsu, Y. Thomas et al. Prog.Org.Coat.,1993,22(1-4):279~286.
[68] T. Regulski, M.R. Thomas et al. Org.Coat,Appl.Polym.Sci.,1983,48:1003.
[69] D.K atasamberis. J.Appl. Polym.Sci.,1990,41(9):2059~2065.
[70] 张俭等.聚氨酯工业,1990,(2):23~27
[71] 于洁,范和平等.聚氨酯工业,1998,13(1):20~23
[72] D.A. Wicks, Z.W. wicks Jr.. Prog.Org.Coat.,2001,41(4):1~83.
[73] 左榘,安英丽,栗方星.高分子材料科学与工程,2000,16(3):95~97
[74] 瞿金清,陈焕钦.高分子材料科学与工程,2003,19(2):43~47
[75] 朱立华,徐文瑄等.合成技术及应用,2000,16(1):29~32
[76] 游波,武利民等.高分子材料科学与工程,2003,19(1):84~88
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