Journal ArticleDOI
Effects of furan-phosphamide derivative on flame retardancy and crystallization behaviors of poly(lactic acid)
Jinhao Sun,Lu Li,Juan Li +2 more
TLDR
In this article, a furan-phosphamide derivative (POCFA) was synthesized using furfurylamine (FA) and phosphorus oxychloride(POC), which was used as a flame retardant and nucleating agent in PLA.About:
This article is published in Chemical Engineering Journal.The article was published on 2019-08-01. It has received 78 citations till now. The article focuses on the topics: Phosphamide & Cone calorimeter.read more
Citations
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Journal ArticleDOI
A liquid phosphorus-containing imidazole derivative as flame-retardant curing agent for epoxy resin with enhanced thermal latency, mechanical, and flame-retardant performances.
Siqi Huo,Shuang Yang,Jun Wang,Jianwen Cheng,Qianqian Zhang,Yefa Hu,Guoping Ding,Qiaoxin Zhang,Pingan Song +8 more
TL;DR: DA was characterized by its good compatibility with EP, moderate curing temperature, fast curing rate, suitable thermal latency, mechanical reinforcing and flame-retardant effects, and thus it had a broad application prospect in various industrial fields.
Journal ArticleDOI
Polyphosphoramide-intercalated MXene for simultaneously enhancing thermal stability, flame retardancy and mechanical properties of polylactide
TL;DR: In this paper, a novel MXene-phenyl phosphonic diaminohexane (MXene-PPDA) nanohybrid was constructed via the intercalation of PPDA into the MXene interlayer.
Journal ArticleDOI
One-pot scalable fabrication of an oligomeric phosphoramide towards high-performance flame retardant polylactic acid with a submicron-grained structure
TL;DR: In this paper, a one-pot scalable fabrication of an oligomeric phosphoramide, phenyl phosphonic piperazine (PPP), via a one step condensation polymerization is presented.
Journal ArticleDOI
Mechanically robust self-healing and recyclable flame-retarded polyurethane elastomer based on thermoreversible crosslinking network and multiple hydrogen bonds
TL;DR: In this paper, a novel strategy was proposed to manufacture a multifunctional polyurethane elastomer with high tensile strength (37.11 ± 1.89 MPa) and excellent self-healing efficiency (91.8%), containing a thermo-reversible crosslinking network and multiple hydrogen interactions.
Journal ArticleDOI
Facile synthesis of an efficient phosphonamide flame retardant for simultaneous enhancement of fire safety and crystallization rate of poly (lactic acid)
TL;DR: In this article, a multi-functional additive N,N′,N″-(nitrilotris(ethane-2,1-diyl))tris(P,P-diphenylphosphinic amide) (NTPA) was successfully synthesized through the substitution reaction of N, N-bis(2-aminoethyl)ethylenediamine and diphenyl phosphinyl chloride and its chemical structure was determined.
References
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Journal ArticleDOI
A Literature Review of Poly(Lactic Acid)
TL;DR: In this article, a literature review is presented regarding the synthesis, and physicochemical, chemical, and mechanical properties of poly(lactic acid)(PLA), with an orthorhombic unit cell.
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An Overview of Polylactides as Packaging Materials
TL;DR: The aim of this paper is to review the production techniques for PLAs, summarize the main properties of PLA and to delineate the main advantages and disadvantages of PLA as a polymeric packaging material.
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Biofibres, biodegradable polymers and biocomposites: An overview
TL;DR: The structural aspects and properties of several biofibers and biodegradable polymers, recent developments of different biofiber and biocomposites are discussed in this paper.
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Poly-Lactic Acid: Production, Applications, Nanocomposites, and Release Studies.
TL;DR: The linkage of a 100% bio-originated material and nanomaterials opens new windows for becoming independent, primarily, of petrochemical-based polymers and, secondarily, for answering environmental and health concerns will undoubtedly be growing with time.
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Thermal decomposition of biodegradable polyesters—II. Poly(lactic acid)
TL;DR: In this article, the thermal decomposition of biologically degradable polymer poly(lactic acid) (PLA) was investigated by means of several thermoanalytical techniques: thermogravimetric, differential scanning calorimetry, time resolved pyrolysis-MS and pyrolynsis-GC/MS.