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以聚四氢呋喃醚二醇(PTMG)、六亚甲基二异氰酸酯(HDI)和羟丙基甲基丙烯酸酯(HPMA)为原料,调节加料比例,合成了一系列具有不同软/硬段比的可紫外光固化聚氨酯丙烯酸酯预聚物(编号为PMHH)。利用红外光谱仪(FT-IR)监测合成反应过程,并获得目标预聚物的红外光谱图;以预聚物PMHH为基础树脂,配制了一系列紫外光固化胶粘剂,利用FT-IR实时考察胶液的光聚合行为;探索了预聚物不同软/硬段比对胶液黏度以及光固化后样品的机械性能、热力学性能和固化收缩率的影响。研究结果表明:PMHH具有优异的柔韧性和低玻璃化转变温度(Tg),增加PMHH结构中软段的比例有利于紫外光固化胶柔韧性的提高,增加热稳定性,降低固化收缩。
Abstract:A series of UV-curable polyurethane acrylate prepolymers(identified as PMHH)with different soft/hard segment ratios were synthesized by incorporating different ratios of polytetramethylene glycol(PTMG),hexamethylenediisocyanate(HDI)and hydroxypropyl methacrylate(HPMA). The synthesis process was monitored by Fouriertransforminfraredspectrometer(FT-IR),andtheinfraredspectrumofthetargetprepolymerwasobtained.A series of UV-curing adhesives were prepared based on the prepolymer PMHH,and the photopolymerization behavior of the solution was investigated by real-time FT-IR. The effects of different soft/hard segment ratios of prepolymer on viscosity of adhesive solution and mechanical,thermodynamic properties and curing shrinkage of the sample after light curing were investigated. The research results showed that PMHH had excellent flexibility and low glass transition temperature(Tg). Increasing the proportion of soft segments in PMHH was conducive to the improvement of flexibility of UV-curing adhesive,which increased the thermal stability and reduced curing shrinkage.
[1]ZHU X,NIU Q,XU Y,et al.From small molecules to polymer fibers:Photopolymerization with electrospinning on the fly[J].Journal of Photochemistry and Photobiology A:Chemistry,2018,353:101-107.
[2]LIU C G,WANG C N,HU Y,et al.Castor oil-based polyfunctional acrylate monomers:Synthesis and utilization in UV-curable materials[J].Progress in Organic Coatings,2018,121:236-246.
[3]SONG C,WANG L,ZHANG B,et al.Progress on decreasing shrinkage of photopolymerization[J].Polymeric Materials Science&Engineering,2017,33(10):175-182.
[4]RAMLAN S N A,BASIRUN W J,PHANG S W,et al.Electrically conductive palm oil-based coating with UVcuring ability[J].Progress in Organic Coatings,2017,112:9-17.
[5]ARIMITSU K,SUGIOKA S,WATANABE K,et al.Anionic UV curing of epoxy resins containing dispersed scaly silica modified with base-amplifying groups[J].Progress in Organic Coatings,2017,113:185-188.
[6]GAO F,CAO J,WANG Q,et al.Properties of UV-cured self-healing coatings prepared with PCDL-based polyurethane containing multiple H-bonds[J].Progress in Organic Coatings,2017,113:160-167.
[7]LIU R,LUO J,ARIYASIVAM S,et al.High biocontent natural plant oil based UV-curable branched oligomers[J].Progress in Organic Coatings,2017,105:143-148.
[8]XIANG H,WANG X,XI L,et al.Effect of soft chain length and generation number on properties of flexible hyperbranched polyurethane acrylate and its UV-cured film[J].Progress in Organic Coatings,2018,114:216-222.
[9]CHUNG Y C,KIM H Y,CHOI J W,et al.Graft polymerization of polyacrylonitrile or poly(methyl methacrylate)onto polyurethane for the improvement of mechanical properties and water vapor permeability[J].Bulletin of the Korean Chemical Society,2015,36(5):1418-1425.
[10]ALISHIRI M,SHOJAEI A.In situ preparation and characterization of biocompatible acrylate-terminated polyurethane containing chemically modified multiwalled carbon nanotube[J].Polymer Composites,2017,39(51):297-307.
[11]CHUNG Y C,CHOI J W,LEE J Y,et al.The control of molecular interactions between polyurethane copolymers by grafted malic acid and its impact on polymer characteristics[J].Journal of Applied Polymer Science,2012,126(S2):E225-E232.
[12]BISTRI?I?A L,LESKOVAC M,BAJSI?E G.Hydrogen bonding and mechanical properties of thin films of polyether-based polyurethane-silica nanocomposites[J].European Polymer Journal,2010,46(10):1975-1987.
[13]YILGOR I,YILGOR E,GULER I G,et al.FT-IRinvestigation of the influence of diisocyanate symmetry on the morphology development in model segmented polyurethanes[J].Polymer,2006,47(11):4105-4114.
[14]GUNES I S,CAO F,JANA S C.Evaluation of nanoparticulate fillers for development of shape memory polyurethane nanocomposites[J].Polymer,2008,49(9):2223-2234.
[15]KRóL P.Synthesis methods,chemical structures and phase structures of linear polyurethanes.Properties and applications of linear polyurethanes in polyurethane elastomers,copolymers and ionomers[J].Progress in Materials Science,2007,52(6):915-1015.
[16]D?UNUZOVI?E S,TASI?S V,BO?I?B R,et al.Mechanical and thermal properties of UV cured mixtures of linear and hyperbranched urethane acrylates[J].Progress in Organic Coatings,2012,74(1):158-164.
[17]HONG J W,CHEON H K,KIM S H,et al.Synthesis and characterization of UV-curable urethane acrylate oligomers containing ammonium salts for anti-fog coatings[J].Progress in Organic Coatings,2017,110:122-127.
[18]JIAN Z,YONG H,MING X,et al.Preparation and properties of dual-cure polyurethane acrylate[J].Progress in Organic Coatings,2009,66(1):35-39.
[19]DILLMAN B F,KANG N Y,JESSOP J L P.Solventless synthesis and free-radical photopolymerization of a castor oil-based acrylate oligomer[J].Polymer,2013,54(7):1768-1774.
[20]LIAO F,ZENG X R,LI H Q,et al.Synthesis and properties of UV curable polyurethane acrylates based on two different hydroxyethyl acrylates[J].Journal of Central South University,2012,19(4):911-917.
[21]QIN L,NIE J,HE Y.Synthesis and properties of polyurethane acrylate modified by different contents of stearyl alcohol[J].Journal of Coatings Technology and Research,2015,12(1):197-204.
[22]MIAO X,LI Y,ZHANG Q,et al.Low shrinkage light curable dental nanocomposites using Si O2microspheres as fillers[J].Materials Science and Engineering,2012,32(7):2115-2121.19
基本信息:
DOI:10.13416/j.ca.2020.04.002
中图分类号:TQ436
引用信息:
[1]宋彩雨,孙明明,张斌等.聚氨酯丙烯酸酯的软/硬段比对紫外光固化胶粘剂性能的影响[J].中国胶粘剂,2020,29(04):1-7+19.DOI:10.13416/j.ca.2020.04.002.
基金信息:
黑龙江省科学院青年基金杰青项目(CXJQ2019SH01)