Fang M L,Webster T F,Gooden D,et al. Investigating a novel flame retardant known as V6:Measurements in baby products,house dust,and car dust[J]. Environ. Sci. Technol.,2013,47(9):4449-4454.
[2]
Singh H,Jain A K. Ignition,combustion,toxicity,and fire retardancy of polyurethane foams:A comprehensive review[J]. J. Appl. Polym. Sci.,2008,111(2):1115-1143.
Liang S Y,Neisius N M,Gaan S. Recent developments in flame retardant polymeric coatings[J]. Prog. Org. Coat.,2013,76(11):1642-1665.
[5]
Levchik S V,Weil E D. A review of recent progress in phosphorus-based flame retardants[J]. J. Fire Sci.,2006,24(5):345-364.
[6]
K?nig A,Kroke E. Methyl-DOPO-a new flame retardant for flexible polyurethane foam[J]. Polym. Advan. Technol.,2011,22(1):5-13.
[7]
K?nig A,Kroke E. Flame retardancy working mechanism of methyl-DOPO and MPPP in flexible polyurethane foam[J]. Fire Mater.,2012,36(1):1-15.
[8]
Liang S Y,Neisius M,Mispreuve H,et al. Flame retardancy and thermal decomposition of flexible polyurethane foams:Structural influence of organophosphorus compounds[J]. Polym. Degrad. Stabil.,2012,97(11):2428-2440.
[9]
Stowell J,Liu W H. Phosphate ester flame retardant and resins containing same:US,20100137465[P]. 2010-06-03.
[10]
Stowell J,Pirrelli R,Dashevsky S. Polyurethane foam composition containing flame-retardant,and process for making same,flame retardant composition and polyurethane foam made therefrom:EP,2393874[P]. 2011-12-14.
[11]
Block M B,Ferbitz J,Henze O S,et al. Derivatives of diphosphines as flame retardants for polyurethanes:US,20110190407[P]. 2011-08-04.
Kim Y S,Davis R,Cain A A,et al. Development of layer-by-layer assembled carbon nanofiber-filled coatings to reduce polyurethane foam flammability[J]. Polymer,2011,52(13):2847-2855.
[14]
Laufer G,Kirkland C,Cain A A,et al. Clay-chitosan nanobrick walls:Completely renewable gas barrier and flame-retardant nanocoatings[J]. ACS Appl. Mater. Interfaces,2012,4(3):1643-1649.
[15]
Kim Y S,Harris R,Davis R. Innovative approach to rapid growth of highly clay-filled coatings on porous polyurethane foam[J]. ACS Macro Lett.,2012,1(7):820-824.
[16]
Li Y C,Kim Y S,Shields J,et al. Controlling polyurethane foam flammability and mechanical behaviour by tailoring the composition of clay-based multilayer nanocoatings[J]. J. Mater. Chem. A,2013,1(41):12987.
[17]
Kim Y S,Li Y C,Pitts W M,et al. Rapid growing clay coatings to reduce the fire threat of furniture[J]. ACS Appl. Mater. Interfaces,2014,6(3):2146-2152.
[18]
Cain A A,Nolen C R,Li Y C,et al. Phosphorous-filled nanobrick wall multilayer thin film eliminates polyurethane melt dripping and reduces heat release associated with fire[J]. Polym. Degrad. Stabil.,2013,98(12):2645-2652.
[19]
Kim Y S,Davis R. Multi-walled carbon nanotube layer-by-layer coatings with a trilayer structure to reduce foam flammability[J]. Thin Solid Films,2014,550(1):184-189.
[20]
Pan H F,Pan Y,Wang W,et al. Synergistic effect of layer-by-layer assembled thin films based on clay and carbon nanotubes to reduce the flammability of flexible polyurethane foam[J]. Ind. Eng. Chem. Res.,2014,53(37):14315-14321.
[21]
Laufer G,Kirkland C,Morgan A B,et al. Exceptionally flame retardant sulfur-based multilayer nanocoating for polyurethane prepared from aqueous polyelectrolyte solutions[J]. ACS Macro Lett.,2013,2(5):361-365.
[22]
Thirumal M,Singha N K,Khastgir D,et al. Halogen-free flame-retardant rigid polyurethane foams:Effect of alumina trihydrate and triphenylphosphate on the properties of polyurethane foams[J]. J. Appl. Polym. Sci.,2010,116(4):2260-2268.
[23]
K?nig A,Malek A,Fehrenbacher U,et al. Silane-functionalized flame-retardant aluminum trihydroxide in flexible polyurethane foam[J]. J. Cell. Plast.,2010,46(5):395-413.
[24]
Lorenzetti A,Modesti M,Besco S,et al. Influence of phosphorus valency on thermal behaviour of flame retarded polyurethane foams[J]. Polym. Degrad. Stabil.,2011,96(8):1455-1461.
[25]
Allan D,Daly J H,Liggat J J. Thermal volatilisation analysis of a TDI-based flexible polyurethane foam containing ammonium polyphosphate[J]. Polym. Degrad. Stabil.,2014,102:170-179.
[26]
欧育湘,李建军. 阻燃剂--性能、制造及应用[M]. 北京:化学工业出版社,2006.
[27]
Wu D,Zhao P,Liu Y. Flame retardant property of novel intumescent flame retardant rigid polyurethane foams[J]. Polym. Eng. Sci.,2013,53(11):2478-2485.
[28]
Xu Z Z,Huang J Q,Chen M J,et al. Flame retardant mechanism of an efficient flame-retardant polymeric synergist with ammonium polyphosphate for polypropylene[J]. Polym. Degrad. Stabil.,2013,98(10):2011-2020.
[29]
Chen M J,Shao Z B,Wang X L,et al. Halogen-free flame-retardant flexible polyurethane foam with a novel nitrogen-phosphorus flame retardant[J]. Ind. Eng. Chem. Res.,2012,51(29):9769-9776.
[30]
Chen M J,Xu Y J,Rao W H,et al. Influence of valence and structure of phosphorus-containing melamine salts on the decomposition and fire behaviors of flexible polyurethane foams[J]. Ind. Eng. Chem. Res.,2014,53(21):8773-8783.
[31]
Modesti M,Lorenzetti A,Simioni F,et al. Expandable graphite as an intumescent flame retardant in polyisocyanurate-polyurethane foams[J]. Polym. Degrad. Stabil.,2002,77(2):195-202.
[32]
Bashirzadeh R,Gharehbaghi A. An investigation on reactivity,mechanical and fire properties of Pu flexible foam[J]. J. Cell. Plast.,2010,46(2):129-158.
Bourbigot S,Samyn F,Turf T,et al. Nanomorphology and reaction to fire of polyurethane and polyamide nanocomposites containing flame retardants[J]. Polym. Degrad. Stabil.,2010,95(3):320-326.
[35]
Qian L,Feng F,Tang S. Bi-phase flame-retardant effect of hexa-phenoxy-cyclotriphosphazene on rigid polyurethane foams containing expandable graphite[J]. Polymer,2014,55(1):95-101.
[36]
Wolska A,Go?dzikiewicz M,Ryszkowska J. Thermal and mechanical behaviour of flexible polyurethane foams modified with graphite and phosphorous fillers[J]. J. Mater. Sci.,2012,47(15):5627-5634.
[37]
Wolska A,Go?dzikiewicz M,Ryszkowska J. Influence of graphite and wood-based fillers on the flammability of flexible polyurethane foams[J]. J. Mater. Sci.,2012,47(15):5693-5700.
[38]
Wang C Q,Ge F Y,Sun J,et al. Effects of expandable graphite and dimethyl methylphosphonate on mechanical,thermal,and flame-retardant properties of flexible polyurethane foams[J]. J. Appl. Polym. Sci.,2013,130(2):916-926.
Mack A G,Tsao T. Mixed glycol polyphosphonate compouonds:US,20110218260[P]. 2011-09-08.
[41]
Block M B,Ferbitz J,Fleckenstein C,et al. Polymeric flame retardant:US,20120010312[P]. 2012-01-12.
[42]
Qi Y D,Tai X Y. Phosphorous-containing flame retardants for polyurethane foams:EP,2688953[P]. 2014-08-27.
[43]
Piotrowski A,Desikan A N,Dashevsky S. Monohydroxy cyclic phosphonate substantially free of polyhydoxy phosphonate,process for making same and flame retardant flexible polyurethane foam obtained therefrom:EP,2619213[P]. 2014-09-03.
[44]
Chen M J,Chen C R,Tan Y,et al. Inherently flame-retardant flexible polyurethane foam with low content of phosphorus-containing cross-linking agent[J]. Ind. Eng. Chem. Res.,2014,53(3):1160-1171.
[45]
Bruchmann B,Schonfelder D,Ferbitz J,et al. Process for producing flame-retardant Pu foams:US,20110257284[P]. 2011-10-20.
[46]
Wiebke M,Mathias D,Martin S. Mixtures of phosphorus-containing compounds,method for production of the same and use of the same as flame-retardant material:EP,2062905[P]. 2012-01-11.
[47]
Nazaré S,Davis R D. A review of fire blocking technologies for soft furnishings[J]. Fire Science Reviews,2012,1(1):1-23.
[48]
Alongi J,Carosio F,Frache A,et al. Layer by Layer coatings assembled through dipping,vertical or horizontal spray for cotton flame retardancy[J]. Carbohyd. Polym.,2013,92(1):114-119.
[49]
Li Y C,Schulz J,Grunlan J C. Polyelectrolyte/nanosilicate thin-film assemblies:Influence of pH on growth,mechanical behavior,and flammability[J]. ACS Appl. Mater. Interfaces,2009,1(10):2338-2347.
[50]
Engels H W,Pirkl H G,Albers R,et al. Polyurethanes:Versatile materials and sustainable problem solvers for today's challenges[J]. Angew. Chem. Int. Ed.,2013,52(36):9422-9441.
[51]
Levchik S V,Weil E D. Thermal decomposition,combustion and fire-retardancy of polyurethanes-A review of the recent literature[J]. Polym. Int.,2004,53(11):1585-1610.
[52]
Valencia L B,Rogaume T,Guillaume E,et al. Analysis of principal gas products during combustion of polyether polyurethane foam at different irradiance levels[J]. Fire Safety J.,2009,44(7):933-940.
[53]
Denecker C,Liggat J J,Snape C E. Relationship between the thermal degradation chemistry and flammability of commercial flexible polyurethane foams[J]. J. Appl. Polym. Sci.,2006,100(4):3024-3033.
[54]
Tokuyasu N,Fujimoto K,Hirata M. Organophosphorus compound having phosphate-phosphonate bond,and flame-retardant polyester fiber and flame-retardant polyurethane resin composition each containing the same:EP,1632497[P]. 2012-04-18.
[55]
Dasari A,Yu Z Z,Cai G P,et al. Recent developments in the fire retardancy of polymeric materials[J]. Prog. Polym. Sci.,2013,38(9):1357-1387.
[56]
K?nig A,Fehrenbacher U,Hirth T,et al. Flexible polyurethane foam with the flame-retardant melamine[J]. J. Cell. Plast.,2008,44(6):469-480.
[57]
K?nig A,Fehrenbacher U,Kroke E,et al. Thermal decomposition behavior of the flame retardant melamine in slabstock flexible polyurethane foams[J]. J. Fire Sci.,2009,27(3):187-211.
[58]
Gharehbaghi A,Bashirzadeh R,Ahmadi Z. Polyurethane flexible foam fire resisting by melamine and expandable graphite:Industrial approach[J]. J. Cell. Plast.,2011,47(6):549-565.
[59]
Wang C Q,Lv H N,Sun J,et al. Flame retardant and thermal decomposition properties of flexible polyurethane foams filled with several halogen-free flame retardants[J]. Polym. Eng. Sci.,2014,54(11):2497-2507.
