Synthesis and characterization of phosphorus-based flame retardant containing rigid polyurethane foam

[1] Tang Z(2002)Thermal degradation behavior of rigid polyurethane foams prepared with different fire retardant concentrations and blowing agents Polymer 43 6471-6479

[2] Maroto-Valer MM(2013)Glass transition and thermal degradation of rigid polyurethane foams derived from castor oil–molasses polyols J Therm Anal Calorim 111 1545-1552

[3] Andrésen JM(2015)Research on highly flame-retardant rigid PU foams by combination of nanostructured additives and phosphorus flame retardants Polym Degrad Stab 111 142-150

[4] Miller JW(2017)Synthesis and characterization of flame retardant rigid polyurethane foam based on a reactive flame retardant containing phosphazene and cyclophosphonate Polym Degrad Stab 144 62-69

[5] Listemann ML(2011)Traditional, state-of-the-art and future thermal building insulation materials and solutions – Properties, requirements and possibilities Energy Build 43 2549-2563

[6] McDaniel PL(2014)Environmentally friendly flame-retardant and its application in rigid polyurethane foam Int J Polym Sci 2014 7-1094

[7] Hatakeyama H(2016)Constructing polyurethane foams of strong mechanical property and thermostability by two novel environment friendly bio-based polyols Korean J Chem Eng 33 1088-102

[8] Matsumura H(2016)Continuous flame-retardant actions of two phosphate esters with expandable graphite in rigid polyurethane foams Polym Degrad Stab 130 97-200

[9] Hatakeyama T(2018)A reactive phosphorus-containing polyol incorporated into flexible polyurethane foam: Self-extinguishing behavior and mechanism Polym Degrad Stab 153 192-1141

[10] Xu W(2008)Thermal stability and flame retardancy of rigid polyurethane foams/organoclay nanocomposites Polym-Plast Technol Eng 47 1136-892

[1] Tang Z(2002)Thermal degradation behavior of rigid polyurethane foams prepared with different fire retardant concentrations and blowing agents Polymer 43 6471-6479

[2] Maroto-Valer MM(2013)Glass transition and thermal degradation of rigid polyurethane foams derived from castor oil–molasses polyols J Therm Anal Calorim 111 1545-1552

[3] Andrésen JM(2015)Research on highly flame-retardant rigid PU foams by combination of nanostructured additives and phosphorus flame retardants Polym Degrad Stab 111 142-150

[4] Miller JW(2017)Synthesis and characterization of flame retardant rigid polyurethane foam based on a reactive flame retardant containing phosphazene and cyclophosphonate Polym Degrad Stab 144 62-69

[5] Listemann ML(2011)Traditional, state-of-the-art and future thermal building insulation materials and solutions – Properties, requirements and possibilities Energy Build 43 2549-2563

[6] McDaniel PL(2014)Environmentally friendly flame-retardant and its application in rigid polyurethane foam Int J Polym Sci 2014 7-1094

[7] Hatakeyama H(2016)Constructing polyurethane foams of strong mechanical property and thermostability by two novel environment friendly bio-based polyols Korean J Chem Eng 33 1088-102

[8] Matsumura H(2016)Continuous flame-retardant actions of two phosphate esters with expandable graphite in rigid polyurethane foams Polym Degrad Stab 130 97-200

[9] Hatakeyama T(2018)A reactive phosphorus-containing polyol incorporated into flexible polyurethane foam: Self-extinguishing behavior and mechanism Polym Degrad Stab 153 192-1141

[10] Xu W(2008)Thermal stability and flame retardancy of rigid polyurethane foams/organoclay nanocomposites Polym-Plast Technol Eng 47 1136-892