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林产化学与工业 ›› 2017, Vol. 37 ›› Issue (5): 39-44.doi: 10.3969/j.issn.0253-2417.2017.05.005

• 研究报告 • 上一篇    下一篇

聚硅氧烷改性水性环氧树脂/聚氨酯复合聚合物的制备及性能研究

刘迪1, 吴国民1,2, 刘贵锋1, 陈健1, 孔振武1,2   

  1. 1. 中国林业科学研究院 林产化学工业研究所;生物质化学利用国家工程实验室;国家林业局 林产化学工程重点开放性实验室;江苏省 生物质能源与材料重点实验室, 江苏 南京 210042;
    2. 中国林业科学研究院 林业新技术研究所, 北京 100091
  • 收稿日期:2017-02-13 出版日期:2017-10-25 发布日期:2017-10-30
  • 通讯作者: 孔振武,研究员,博士,博士生导师,主要从事生物质基聚合物材料的基础与应用技术研究;E-mail:kongzwlhs@163.com。 E-mail:kongzwlhs@163.com
  • 作者简介:刘迪(1989-),女,山东菏泽人,硕士生,主要从事天然资源化学与利用研究
  • 基金资助:
    国家林业局948技术引进项目(2015-4-43);江苏省生物质能源与材料重点实验室基金(JSBEM-S-201505)

Preparation and Properties of Waterborne EP/PU Composites Modified with Polysiloxane

LIU Di1, WU Guomin1,2, LIU Guifeng1, CHEN Jian1, KONG Zhenwu1,2   

  1. 1. Institute of Chemical Industry of Forest Products, CAF;National Engineering Lab. for Biomass Chemical Utilization;Key and Open Lab. of Forest Chemical Engineering, SFA;Key Lab. of Biomass Energy and Materials, Jiangsu Province, Nanjing 210042, China;
    2. Research Institute of Forestry New Technology, CAF, Beijing 100091, China
  • Received:2017-02-13 Online:2017-10-25 Published:2017-10-30

摘要: 利用阴离子型聚硅氧烷改性萜烯基环氧树脂多元醇(ASTP)水分散体与亲水改性己二异氰酸酯(HDI)三聚体复合制备了聚硅氧烷(HTPDMS),并将其用于改性双组分水性环氧树脂(EP)/聚氨酯(PU)复合聚合物。分析表明:ASTP水分散体与多异氰酸酯在70℃加热5 h可完全交联成膜;HTPDMS分子链段接入树脂基体中,在固化交联的过程中硅氧烷链段向聚合物表面富集,当HTPDMS的用量为多元醇质量的10%时,硅氧烷在聚合物表面达到饱和,降低了聚合物表面能,提高了表面接触角,改性后表面接触角为95°,疏水性增强。由于硅氧烷链段热稳定性好,添加HTPDMS提高了复合聚合物的热稳定性。然而硅氧烷链段玻璃化转变温度(Tg)低,且易与聚氨酯基体树脂形成微相分离,添加HTPDMS降低了复合聚合物Tg和储能模量。

关键词: 萜烯基环氧树脂, 聚硅氧烷, 双组分水性聚氨酯, 疏水改性

Abstract: Waterborne epoxy resin(EP)/polyurethane(PU) composite polymers were prepared from anionic polysiloxane modifying terpene-base epoxy resin based polyol dispersions(ASTP) and hydrophilically modifying hexamethylene diisocyanate(D80). The silicon concentration on the uppermost surfaces of the composite polymers was higher than that at the polymer-substrate interfaces. This result implied that the hydroxypropyl terminated polydimethy-siloxane(HTPDMS) segments enriched at the polymer-air interface and formed the hydrophobic film surface. When the amount of the HTPDMS reached 10% by weight based on the weight of ASTP, siloxane content on the uppermost surfaces was saturated and the contact angle increased to about 95°. Due to the good thermal stability of siloxane segment, the introdution of HTPDMS to the polyurethane improved the thermal stability of composite. However, due to the low glass transition temperature of siloxane segment, the attachment of HTPDMS to the polyurethane decreased the glass transition temperature of the composite, and the formation of microphase separation between HTPDMS segment and the resin matrix also led to a decrease of glass transition temperatures of the composite polymers.

Key words: terpene-based epoxy resin, polysiloxane, two-component waterborne polyurethane, hydrophobic modification

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