Preparation and characterisation of a novel fire retardant PET/α-zirconium phosphate nanocomposite

Abstract: Abstract:The preparation of a novel fire retardant nanocomposite of poly (ethylene terephthalate) (PET)/α-zirconium phosphate (α-ZrP) by in situ polymerization was investigated. The novel fire retarded PET nanocomposite, PET-co-DDP/α-ZrP nanocomposite, was synthesized by the direct condensation of terephthalic acid, ethylene glycol, 9,10-dihydro-10[2,3-di(hydroxycarbonyl)propyl]-10-phosphaphenanthrene-10-oxide and nano α-ZrP. The morphology，thermal stability and burning behaviour of the nanocomposite with 1 wt… Show more

“…Recently, research interests in the α-ZrPO 3 based polymeric nano-composites are growing, because the chemical, mechanical, and thermal properties of nano-composites can be significantly improved by introducing -ZrPO 3 in the polymeric interface as nanofillers [21,35,36]. Accordingly, several experimental methods have been developed to synthesize polymer/-ZrPO 3 inorganic nano-composites, including exfoliation-adsorption, in-situ intercalative polymerization, melt intercalation and template synthesis [37][38][39][40].…”

“…Accordingly, several experimental methods have been developed to synthesize polymer/-ZrPO 3 inorganic nano-composites, including exfoliation-adsorption, in-situ intercalative polymerization, melt intercalation and template synthesis [37][38][39][40]. There have been several experimental investigations on polymer/-ZrPO 3 nano-composites including poly (ethylene terephthalate)(PET)/-ZrPO 3 [41], epoxy/-ZrPO 3 [42][43][44][45], polyacrylamide (PAM)/-ZrPO 3 [46,47], poly(vinyl alcohol) (PVA)/-ZrPO 3 [48][49][50][51][52][53], and starch/-ZrPO 3 [54,55]. These nano-composites will be reviewed in detail in the following paragraphs and the combustion and mechanical properties of some nano-composites are listed in Tables 1 and 2.…”

“…Considering the thermal and chemical stability of -ZrPO 3 [56], the PET/-ZrPO 3 nano-composite may improve the fire retardant performance. A novel fire retardant nano-composite of PET/-ZrPO 3 by in-situ polymerisation was obtained by Wang [41].…”

“…SOL-GEL method was also adopted by Sun and Xu to produce low crystallinity -ZrPO 3 [14] and -ZrPO 3 nanoplatelets [15], respectively. -ZrPO 3 can also be synthesized by using the hydrothermal method [16][17][18] and the direct precipitation reaction method (DPRM) [19][20][21][22]. The largest size and the highest sheet orderliness of -ZrPO 3 can be achieved by using DPRM, while the sample prepared by SOL-GEL method has the smallest size and the lowest sheet orderliness [23].…”

A brief review on α-zirconium phosphate intercalation compounds and nano-composites

“…Recently, research interests in the α-ZrPO 3 based polymeric nano-composites are growing, because the chemical, mechanical, and thermal properties of nano-composites can be significantly improved by introducing -ZrPO 3 in the polymeric interface as nanofillers [21,35,36]. Accordingly, several experimental methods have been developed to synthesize polymer/-ZrPO 3 inorganic nano-composites, including exfoliation-adsorption, in-situ intercalative polymerization, melt intercalation and template synthesis [37][38][39][40].…”

“…Accordingly, several experimental methods have been developed to synthesize polymer/-ZrPO 3 inorganic nano-composites, including exfoliation-adsorption, in-situ intercalative polymerization, melt intercalation and template synthesis [37][38][39][40]. There have been several experimental investigations on polymer/-ZrPO 3 nano-composites including poly (ethylene terephthalate)(PET)/-ZrPO 3 [41], epoxy/-ZrPO 3 [42][43][44][45], polyacrylamide (PAM)/-ZrPO 3 [46,47], poly(vinyl alcohol) (PVA)/-ZrPO 3 [48][49][50][51][52][53], and starch/-ZrPO 3 [54,55]. These nano-composites will be reviewed in detail in the following paragraphs and the combustion and mechanical properties of some nano-composites are listed in Tables 1 and 2.…”

“…Considering the thermal and chemical stability of -ZrPO 3 [56], the PET/-ZrPO 3 nano-composite may improve the fire retardant performance. A novel fire retardant nano-composite of PET/-ZrPO 3 by in-situ polymerisation was obtained by Wang [41].…”

“…SOL-GEL method was also adopted by Sun and Xu to produce low crystallinity -ZrPO 3 [14] and -ZrPO 3 nanoplatelets [15], respectively. -ZrPO 3 can also be synthesized by using the hydrothermal method [16][17][18] and the direct precipitation reaction method (DPRM) [19][20][21][22]. The largest size and the highest sheet orderliness of -ZrPO 3 can be achieved by using DPRM, while the sample prepared by SOL-GEL method has the smallest size and the lowest sheet orderliness [23].…”

A brief review on α-zirconium phosphate intercalation compounds and nano-composites

“…Polymer blends are widely used in automotive-, construction-, and electronic industry, where burning behavior can be a main criterion of application [4]. Nevertheless, plastics are easily flammable, which implies, it is important to enhance the fire resistance by using flame retardant [5,6] and nanofillers [7,8], or control the forming morphology in order to maximize the performance [1,9]. It should be mentioned that despite our extensive research, we did not find any papers which have examined the effects of compatibilizers on fire behavior of polymer blends.…”

Influence of morphology and compatibilizer on burning behavior of PET/HDPE blend

The Phosphates of the World and the World of Phosphates