Synthesis and characterization of rigid polyurethane foam with dimer fatty acid-based polyols

Tan S, Abraham T, Ference D, Macosko CW (2011) Rigid polyurethane foams from a soybean oil-based Polyol. Polymer 52(13):2840–2846

Kurańska M, Prociak A (2016) The influence of rapeseed oil-based polyols on the foaming process of rigid polyurethane foams. Ind Crops Prod 89:182–187

Boyacá AA, Beltrán LA (2011) Production of rigid polyurethane foams from soy-based polyols. La Am Appl Res 41(1):75–80

Nikje MMA, Noruzian M, Moghaddam ST (2015) Investigation of Fe3O4/AEAP sup ermagnetic nanoparticles on the morphological, thermal and magnetite behavior of polyurethane rigid foam nanocomposites. Polimery-W 60(1):26–32

Prociak A (2007) Properties of polyurethane foams modified with natural oil-based polyols. Cell Polym 26(6):381–392

Cinelli P, Anguillesi I, Lazzeri A (2013) Green synthesis of flexible polyurethane foams from liquefied lignin. Eur Polym J 49(6):1174–1184

Fridrihsone A, Stirna U, Lazdiņa B, Misāne M, Vilsone D (2013) Characterization of polyurethane networks structure and properties based on rapeseed oil derived polyol. Eur Polym J 49(6):1204–1214

Dworakowska S, Bogdał D, Zaccheria F, Ravasio N (2014) The role of catalysis in the synthesis of polyurethane foams based on renewable raw materials. Catal Today 223(6):148–156

Alam M, Akram D, Sharmin E, Zafar F, Ahmad S (2014) Vegetable oil based eco-friendly coating materials: a review article. Arab J Chem 7(4):469–479

Miao S, Wang P, Su Z, Zhang S (2014) Vegetable-oil-based polymers as future polymeric biomaterials. Acta Biomater 10(4):1692–1704

Guo A, Javni I, Petrovic Z (2000) Rigid polyurethane foams based on soybean oil. J Appl Polym Sci 77:467–473

Zhang C, Kessler MR (2015) Bio-polyurethane foam made from compatible blends of vegetable oil-based polyol and petroleum-based polyol. ACS Sustain Chem Eng 3(4):743–749

Zieleniewska M, Leszczyński MK, Kurańska M, Prociak A, Szczepkowski L, Krzyżowska M, Ryszkowska J (2015) Preparation and characterisation of rigid polyurethane foams using a rapeseed oil-based polyol. Ind Crops Prod 74:887–897

Li S, Xia J, Li M, Huang K (2013) New vinyl ester bio-copolymers derived from dimer fatty acids: preparation, characterization and properties. J Am Oil Chem Soc 90(5):695–706

Liu X, Xu K, Liu H, Cai H, Su J, Fu Z, Guo Y, Chen M (2011) Preparation and properties of waterborne polyurethanes with natural dimer fatty acids based polyester polyol as soft segment. Prog Org Coat 72(4):612–620

Lu J, Wool RP (2008) Additive toughening effects on new bio-based thermosetting resins from plant oils. Compos Sci Technol 68(3–4):1025–1033

Güner FS, Yağcı Y, Erciyes AT (2006) Polymers from triglyceride oils. Prog Polym Sci 31(7):633–670

Konwar U, Karak N, Mandal M (2010) Vegetable oil based highly branched polyester/clay silver nanocomposites as antimicrobial surface coating materials. Prog Org Coat 68(4):265–273

Ji D, Fang Z, He W, Zhang K, Luo Z, Wang T, Guo K (2015) Synthesis of soy-polyols using a continuous microflow system and preparation of soy-based polyurethane rigid foams. ACS Sustain Chem Eng 3(6):150507153758008

Rajput SD, Mahulikar PP, Gite VV (2014) Biobased dimer fatty acid containing two pack polyurethane for wood finished coatings. Prog Org Coat 77(1):38–46

Rajput SD, Hundiwale DG, Mahulikar PP, Gite VV (2014) Fatty acids based transparent polyurethane films and coatings. Prog Org Coat 77(9):1360–1368

Kiatsimkul PP, Suppes GJ, Hsieh FH, Lozada Z, Tu YC (2008) Preparation of high hydroxyl equivalent weight polyols from vegetable oils. Ind Crops Prod 27(3):257–264

Thirumal M, Khastgir D, Singha NK, Manjunath BS, Naik YP (2008) Effect of foam density on the properties of water blown rigid polyurethane foam. J Appl Polym Sci 108(3):1810–1817

Fan H, Tekeei A, Suppes GJ, Hsieh FH (2013) Rigid polyurethane foams made from high viscosity soy-polyols. J Appl Polym Sci 127(3):1623–1629

Thirumal M, Khastgir D, Singha NK, Manjunath BS, Naik YP (2007) Mechanical, morphological and thermal properties of rigid polyurethane foam: effect of the fillers. Cell Polym 26(4):245–259

Yeganeh H, Hojati-Talemi P (2007) Preparation and properties of novel biodegradable polyurethane networks based on castor oil and poly(ethylene glycol). Polym Degrad Stab 92(3):480–489

Zhang C, Ding R, Kessler MR (2014) Reduction of epoxidized vegetable oils: a novel method to prepare bio-based polyols for polyurethanes. Macromol Rapid Commun 35(11):1068–1074

Zhang L, Huang M, Yu R, Huang J, Dong X, Zhang R, Zhu J (2014) Bio-based shape memory polyurethanes (Bio-SMPUs) with short side chains in the soft segment. J Mater Chem A 2(29):11490–11498

Zhang L, Zhang M, Zhou Y, Hu L (2013) The study of mechanical behavior and flame retardancy of castor oil phosphate-based rigid polyurethane foam composites containing expanded graphite and triethyl phosphate. Polym Degrad Stab 98(12):2784–2794

Garrido MA, Font R (2015) Pyrolysis and combustion study of flexible polyurethane foam. J Anal Appl Pyrol 113:202–215