Achieving ultrahigh glass transition temperature, halogen-free and phosphorus-free intrinsic flame retardancy for bismaleimide resin through building network with diallyloxydiphenyldisulfide

[1]  K. Moon,et al.  Systematic evaluation of cyanate ester/ epoxidized cresol novolac copolymer resin system for high temperature power electronic packaging applications , 2020 .

[2]  Xingrong Zeng,et al.  Functionalized ZrP nanosheet with free‐radical quenching capability and its synergism in intumescent flame‐retardant polypropylene , 2020, Polymers for Advanced Technologies.

[3]  Shuang Yang,et al.  Facile construction of one-component intrinsic flame-retardant epoxy resin system with fast curing ability using imidazole-blocked bismaleimide , 2019, Composites Part B: Engineering.

[4]  Hongyu Yang,et al.  Facile synthesis of a novel transparent hyperbranched phosphorous/nitrogen-containing flame retardant and its application in reducing the fire hazard of epoxy resin. , 2019, Journal of hazardous materials.

[5]  M. Döring,et al.  Phosphorus-Containing Flame Retardants from Biobased Chemicals and Their Application in Polyesters and Epoxy Resins , 2019, Molecules.

[6]  Lei Song,et al.  Construction of hierarchical MoS2@TiO2 structure for the high performance bimaleimide system with excellent fire safety and mechanical properties , 2019, Chemical Engineering Journal.

[7]  R. Nazir,et al.  Recent developments in P(O/S)–N containing flame retardants , 2019, Journal of Applied Polymer Science.

[8]  A. Gu,et al.  Thermally resistant thermadapt shape memory crosslinked polymers based on silyl ether dynamic covalent linkages for self-folding and self-deployable smart 3D structures , 2019, Journal of Materials Chemistry A.

[9]  Xingrong Zeng,et al.  Remarkably improving the fire-safety of polypropylene by synergism of functionalized ZrP nanosheet and N-alkoxy hindered amine , 2018, Applied Clay Science.

[10]  Yu-Zhong Wang,et al.  Inherently flame-retardant rigid polyurethane foams with excellent thermal insulation and mechanical properties , 2018, Polymer.

[11]  E. Kroke,et al.  Sulfides and Disulfides of s-Triazine: Potential Thermal Thiyl Radical Generators. , 2018, Chemistry.

[12]  Tuan Liu,et al.  A Self-Healable High Glass Transition Temperature Bioepoxy Material Based on Vitrimer Chemistry , 2018, Macromolecules.

[13]  A. Gu,et al.  Preparation and mechanism of shape memory bismaleimide resins with high transition temperature, high toughness and good processability , 2018, Journal of Materials Science.

[14]  Ping Chen,et al.  Thermal, mechanical properties and shape memory performance of a novel phthalide-containing epoxy resins , 2018 .

[15]  B. Schartel,et al.  Phosphorus‐Containing Polymer Flame Retardants for Aliphatic Polyesters , 2018 .

[16]  E. Duoss,et al.  3D printing of high performance cyanate ester thermoset polymers , 2018 .

[17]  A. Gu,et al.  Development and mechanism of ultralow dielectric loss and toughened bismaleimide resins with high heat and moisture resistance based on unique amino-functionalized metal-organic frameworks , 2018 .

[18]  Shuang Yang,et al.  Flame-retardant performance and mechanism of epoxy thermosets modified with a novel reactive flame retardant containing phosphorus, nitrogen, and sulfur , 2018 .

[19]  Hongxia Yan,et al.  Ternary hybrid nanoparticles of reduced graphene oxide/graphene-like MoS2/zirconia as lubricant additives for bismaleimide composites with improved mechanical and tribological properties , 2017 .

[20]  B. Schartel,et al.  Exploring the Modes of Action of Phosphorus-Based Flame Retardants in Polymeric Systems , 2017, Materials.

[21]  Jun Hou,et al.  Flame retarding epoxy composites with poly(phosphazene- co -bisphenol A)-coated boron nitride to improve thermal conductivity and thermal stability , 2017 .

[22]  Guozheng Liang,et al.  Developing high performance cyanate ester resin with significantly reduced postcuring temperature while improved toughness, rigidity, thermal and dielectric properties based on manganese-Schiff base hybridized graphene oxide , 2016 .

[23]  P. Jiang,et al.  Phosphonium sulfonates as flame retardants for polycarbonate , 2016 .

[24]  M. Döring,et al.  A flame retardant synergism of organic disulfides and phosphorous compounds , 2016 .

[25]  A. R. D. Luzuriaga,et al.  Epoxy resin with exchangeable disulfide crosslinks to obtain reprocessable, repairable and recyclable fiber-reinforced thermoset composites , 2016 .

[26]  Mengmei Zhang,et al.  Brominated flame retardants and the formation of dioxins and furans in fires and combustion. , 2016, Journal of hazardous materials.

[27]  A. Gu,et al.  Green flame retarding bismaleimide resin with simultaneously good processing characteristics, high toughness and outstanding thermal stability based on a multi-functional organic boron compound , 2015 .

[28]  R. Pfaendner,et al.  Disulfides – Effective radical generators for flame retardancy of polypropylene , 2014 .

[29]  Jiehua Li,et al.  A novel flame retardant containing phosphorus, nitrogen, and sulfur , 2014, Journal of Thermal Analysis and Calorimetry.

[30]  Y. Mai,et al.  Recent developments in the fire retardancy of polymeric materials , 2013 .

[31]  D. Zhuo,et al.  A Novel Hyperbranched Polysiloxane Containing Epoxy and Phosphaphenanthrene Groups and its Multi-Functional Modification of Cyanate Ester Resin , 2013 .

[32]  Zhen Yao,et al.  Synthesis of N-Alkoxy Hindered Amine Containing Silane as a Multifunctional Flame Retardant Synergist and Its Application in Intumescent Flame Retardant Polypropylene , 2012 .

[33]  Xiaodong Wang,et al.  Novel spirocyclic phosphazene-based epoxy resin for halogen-free fire resistance: synthesis, curing behaviors, and flammability characteristics. , 2012, ACS applied materials & interfaces.

[34]  R. Pfaendner,et al.  Azoalkanes—novel flame retardants and their structure–property relationship , 2011 .

[35]  R. Pfaendner,et al.  Bis(1-propyloxy-2,2,6,6-tetramethylpiperidin-4-yl)-diazene – An innovative multifunctional radical generator providing flame retardancy to polypropylene even after extended artificial weathering , 2011 .

[36]  Y. Mi,et al.  Understanding the effect of chain entanglement on the glass transition of a hydrophilic polymer , 2011 .

[37]  M. Döring,et al.  Novel phosphorus-containing poly(ether sulfone)s and their blends with an epoxy resin : Thermal decomposition and fire retardancy , 2006 .

[38]  R. Pfaendner,et al.  Azoalkanes: A Novel Class of Flame Retardants , 2006 .

[39]  Z. Jun,et al.  Surface modification of segmented poly(ether urethane) by grafting sulfo ammonium zwitterionic monomer to improve hemocompatibilities , 2003 .

[40]  P. Mather,et al.  A new hyperbranched poly(arylene-ether-ketone-imide): Synthesis, chain-end functionalization, and blending with a bis(maleimide) , 2002 .

[41]  Ding-hai Huang,et al.  Influence of Intermolecular Entanglements on the Glass Transition and Structural Relaxation Behaviors of Macromolecules. 2. Polystyrene and Phenolphthalein Poly(ether sulfone) , 2000 .

[42]  Ding-hai Huang,et al.  Influence of Entanglements on the Glass Transition and Structural Relaxation Behaviors of Macromolecules. 1. Polycarbonate , 1999 .

[43]  Y. Akutsu,et al.  Reaction of gas-phase radicals from combustion with radical scavengers , 1997 .

[44]  C. Vijayakumar,et al.  The ene reaction between N‐isobutylallylnadimide and N‐isobutylmaleimide as a model for the cross‐linking reaction in bis(allyl)nadimide polymerization , 1990 .

[45]  A. Kramer,et al.  Allylnadic-imides: A new class of heat-resistant thermosets , 1989 .

[46]  A. Ballistreri,et al.  Intumescent flame retardants for polymers. IV. The polycarbonate–aromatic sulfonates system , 1988 .

[47]  K. R. Carduner,et al.  Carbon-13 NMR investigation of the oligomerization of bismaleimidodiphenyl methane with diallyl bisphenol A , 1988 .

[48]  O. Smith,et al.  Experimental and numerical studies of sulfur chemistry in H2/O2/SO2 flames☆ , 1987 .

[49]  S. Ōae Organic Chemistry of Sulfur , 1977 .

[50]  L. Field Disulfides and Polysulfides , 1977 .

[51]  D. V. Krevelen,et al.  Some basic aspects of flame resistance of polymeric materials , 1975 .

[52]  J. Eichhorn Synergism of free radical initiators with self‐extinguishing additives in vinyl aromatic polymers , 1964 .