@article { author = {Honarkar, H. and Barikani, M.}, title = {Nanoclay Dispersion and its Effect on Properties of Waterborne Polyurethanes}, journal = {Iranian Journal of Polymer Science and Technology}, volume = {26}, number = {5}, pages = {401-393}, year = {2014}, publisher = {}, issn = {10163255}, eissn = {20080883}, doi = {10.22063/jipst.2014.916}, abstract = {In recent years, waterborne polyurethanes as in coatings and adhesives formulations have attracted considerable attention because they are non-toxic, non-flammable and friendly to environment. Besides environmental management, the flexibility, low temperature property, high tensile strength, good adhesion and improved rheological property are specific properties of waterborne polyurethanes. Also low production cost of water borne polyurethanes over solvent-borne polyurethanes is also a reason for their applications. However, these materials have some defects such as weak water resistance and low adhesion in the moisture environment due to sensitivity of their hydrophilic ionic bonds, ether groups, urethane and ester groups to hydrolysis which need to be improved. Also, low heat resistance of these materials is due to a relatively low crystalline melting point or glass transition temperature of hard segments. One of the ways to solve this problem and improve its properties for different applications is the addition of inorganic fillers especially nano-sized layered silicates within polyurethane matrix. In this way water resistance, heat resistance, mechanical properties and modulus increase simultaneously. In this research, waterborne polyurethane nanocomposites with PTMG polyol, IPDI, DMPA (internal emulsifier), TEA (neutralizer) and 1, 3 and 5weight % of Cloisite 30B as reinforcement were synthesized and characterized. Polarity of the samples was investigated by contact angle test and dispersion of nano particles in the samples was characterized by X-Ray and TEM, Thermal properties and dynamic mechanical properties were measured by TGA and DMTA, respectively. The results showed that incorporation of clay into polyurethanes did reduce water absorption and increased heat resistance, modulus, particle size and contact angle.In recent years, waterborne polyurethanes including coatings and adhesives have attracted considerable attention because they are non-toxic, non-flammable and friendly to environment. Besides environmental management, flexibility, low temperature property, high tensile strength good adhesion and improved rheological property are specific evidence of waterborne polyurethanes. Also low production cost of water borne polyurethane over solvent-borne polyurethanes is also a reason for their applications. However, these materials have some defects such as weak water resistance and low adhesion in the moisture environment due to sensitivity of their hydrophilic ioned bonds, ether groups, urethane groups and ester groups to hydrolysis which are needed to be improved. Also, low heat resistance of these materials is due to relatively low crystalline melting point or glass transition temperature of hard segments. One of the ways to solve this problem and improve its properties for different application is the addition of inorganic fillers especially nanosized layered silicates within polyurethane matrix.  In this way water resistance, heat resistance, mechanical properties and modulus increase. In this research, waterborne polyurethane nanocomposites with PTMG polyol, IPDI, DMPA (internal emulsifier), TEA (neutralizer) and 1, 3 and 5weight % of cloisite 30B as reinforcement were synthesized and characterized. Polarity of the samples was investigated by Contact angle test, dispersion of nano particles in the samples were characterized by X-Ray and TEM, Thermal properties and dynamic mechanical properties were measured by TGA and DMTA respectively. Results showed that incorporation of clay into polyurethane samples caused the reduction of water absorption, increasing of heat resistance, modulus, particle size and contact angle.}, keywords = {waterborne polyurethane,Nanoclay,layer silicate,thermal stability,Nanocomposite}, title_fa = {ارزیابی پراکنش نانوخاک‌رس و اثر آن بر خواص پلی یورتان‌های پایه آبی}, abstract_fa = {در سال‌های اخیر، پلی‌یورتان‌های پایه آبی توجه زیادی را به خود جلب کرده‌اند و به‌طور وسیعی در روکش و چسب استفاده می‌شوند، چون، سمّی و قابل اشتعال نیستند و دوستدار محیط زیست به شمار می‌روند. علاوه بر ملاحظات زیست محیطی، انعطاف‌پذیری، رفتار خوب در دمای کم، استحکام زیاد، چسبندگی و خواص رئولوژیکی مناسب، از دیگر خواص پلی‌یورتان‌های پایه آبی است. همچنین، در مقایسه با پراکنه‌های پایه حلالی قیمت پلی‌یورتان های پایه آبی کمتر است. به هر حال این مواد دارای نقاط ضعفی نیز هستند از جمله مقاومت گرمایی و چسبندگی کم در محیط مرطوب ومقاومت کم نسبت به آبکافت که لازم است برطرف شوند.  یکی از راه های حل این مشکل، افزودن مواد معدنی به ویژه سیلیکات‌های لایه‌ای در مقیاس نانو به ماتریس پلی‌یورتان است. با این روش مقاومت نسبت به آب، مقاومت گرمایی، خواص مکانیکی و مدول افزایش می‌یابد.  در این پژوهش، نانوکامپوزیت‌های پلی‌یورتانی بر پایه آب با استفاده از پلی‌ال از نوع پلی‌تترامتیلن گلیکول، ایزوفورون دی‌ایزوسیانات، دی‌متیلول پروپیونیک اسید(امولسیون‌کننده داخلی) و تری‌اتیل آمین(خنثی‌کننده) و همچنین، کلویزیت 30B به عنوان فاز تقویت‌کننده در مقادیر ۱، ۳ و ۵ درصد سنتز و خواص نمونه‌ها بررسی شد. برای مطالعه قطبیت نمونه‌ها از آزمون زاویه تماس، مشاهده چگونگی پخش نانوذرات در نمونه‌ها از  پراش پرتو X و میکروسکوپ الکترونی عبوری، بررسی خواص گرماوزن‌سنجیی و بررسی خواص دینامیکی مکانیکی، آزمون DMTA به کار گرفته شد. نتایج آزمایش‌ها نشان داد، افزودن خاک رس به نمونه پلی‌یورتانی سبب کاهش جذب آب، افزایش پایداری گرمایی، مدول، اندازه ذرات و زاویه تماس می‌شود.}, keywords_fa = {پلی‌یورتان پایه آبی,نانوخاک‌رس,سیلیکات لایه‌ای,پایداری گرمایی,نانوکامپوزیت}, url = {http://jips.ippi.ac.ir/article_916.html}, eprint = {http://jips.ippi.ac.ir/article_916_407a44ae732cb6e4e9c0881b16c72cc1.pdf} }