海泡石对膨胀阻燃聚丙烯燃烧和热分解的影响

将改性后的海泡石添加到聚磷酸铵(APP)和双季戊四醇(DPER)膨胀阻燃聚丙烯(PP/IFR)体系中,采用氧指数(LOI)、热重分析(TGA)、光电子能谱(XPS)、傅里叶变换红外(FTIR)光谱、锥形量热仪(CONE)和扫描电镜(SEM)考察其对膨胀阻燃体系的催化协效作用,探讨作用机理.LOI结果表明,改性的海泡石比纳米水滑石和有机改性的蒙脱土有更好的催化协效作用.CONE数据证实,海泡石可以降低膨胀阻燃聚丙烯体系的热释放速率和总的热释放量.通过观察SEM图片发现,海泡石可以改善膨胀炭层的形貌,提高炭层的隔热隔质性能.TGA结果表明,在氮气和空气气氛下,海泡石均可以提高膨胀炭层的热稳定性,增加高温时残余物的量,其主要作用对象为APP.FTIR和XPS测试发现加热过程中海泡石可以与APP发生化学反应,形成P—O—Si键,增加了APP高温时的稳定性.     

Effect of Phosphorus-Nitrogen Intumescent Flame Retardant on Structure and Properties of Poly(propylene)

Summary : Phosphorus-nitrogen intumescent product (R₂₀₀₀) was filled into polypropylene (PP) as a flame retardant. The neat PP and flame-retarded PP blends were studied for their structural and mechanical properties after verification of the flame retardancy character of blends. In this paper, the influence of incorporation of different amount (5%, 10%, 15%, 20%, and 25%) of R₂₀₀₀ was studied. The flame retardancy is evaluated by limiting oxygen index (LOI) value, which is enhanced from 17.5 for pure PP to 22.7 for the blend comprising 15% intumescent product, phosphorus-nitrogen based (R₂₀₀₀). The thermal degradation behaviour of the PP/R₂₀₀₀ blends was investigated using thermogravimetric analysis (TGA) under nitrogen (N₂) and oxygen (O₂) atmospheres. The influence of the R₂₀₀₀ on the PP crystallization was examined by X-ray diffraction (XRD) and differential scanning calorimetry (DSC). Further, the mechanical properties of the materials were studied by dynamic mechanical analysis (DMA). The incorporation of the flame retardant had no effect on the crystallization of the neat polymer and the mechanical properties of the materials remained unaffected.     

磷系阻燃共聚酯的结构与性能

采用磷系阻燃剂2-羧乙基苯基次磷酸（CEPPA）作为第3单体,通过聚合反应制备了含磷的阻燃共聚酯。采用核磁共振、DSC、元素分析和极限氧指数仪表征阻燃共聚酯的化学组成、序列分布、结晶性能、磷含量和极限氧指数。结果表明：大部分CEPPA单元以无规分布的形式共聚到聚酯分子链中,小部分CEPPA单元以短嵌段的形式共聚在聚酯分子链中,且随着阻燃剂含量增加,无规系数变小。由于分子链的规整性下降,与聚对苯二甲酸乙二酯（PET）相比,阻燃共聚酯的Tg和Tm下降,结晶度减小。随阻燃剂含量的增加,极限氧指数值增加,当阻燃共聚酯中的磷含量达到9．08mg／g时,极限氧指数值达到33％以上。     

新型单组分磷-氮膨胀型阻燃剂的合成及其阻燃性能

以氯化螺环磷酸酯(1)和对甲苯胺(2)为原料,经亲核取代反应合成了三源一体的新型单分子磷-氮膨胀型阻燃剂——季戊四醇螺环磷酰对甲苯胺(3),其结构经1H NMR和IR表征。考察了溶剂、原料配比、反应温度、反应时间和缚酸剂对3产率的影响。合成3的最佳反应条件为:乙腈为溶剂,三乙胺为缚酸剂,1 10mmol,n(1)∶n(2)=1∶3,于80℃反应4 h,产率79.3%。阻燃性能研究结果表明,3的初始分解温度为220℃,500℃成炭率达43.3%。     

三聚氰胺氰尿酸盐对玻纤增强尼龙66复合材料阻燃性能的影响

将三聚氰胺氰尿酸盐(MCA)阻燃剂添加到玻纤增强的尼龙66复合材料(GF-PA66)中。利用UL-94实验对MCA在复合材料中的阻燃效果进行研究;通过扫描电子显微镜(SEM)分析了燃烧后的样品形貌,并利用热重分析法对复合材料的热分解行为进行了研究。结果表明:MCA可使玻纤增强尼龙66复合材料达到UL-94V-0级阻燃效果;MCA晶体被均匀地分散于尼龙基体中,在燃烧时MCA通过自身吸热分解,产生不可燃气体,实现气相阻隔,从而起到阻燃作用,并在复合材料自熄面上留下纳米级气孔。     

Effect of a Nanoclay on the Mechanical,Thermal and Flame Retardant Properties of Rigid Polyurethane Foam

Water blown rigid polyurethane foams (PUF) with organoclay/organically modified nanoclay (ONC) were prepared and their properties such as density, mechanical, morphological, insulation, thermal and flame retardant properties were studied. In this investigation, the ONC content was varied from 1 to 10 parts per hundred of polyol (php) by weight. It was observed that the compressive strength of ONC filled PUF increased up to 3 php of ONC loading and then it decreased. Wide angle X-ray diffraction and transmission electron microscopy studies indicated the exfoliated dispersion of ONC in PUF. The thermal conductivity of ONC filled PUF decreases up to 5 php and then increases. The glass transition temperature (Tg) of PUF decreases on loading of ONC. The TGA analysis shows that there is slight increase in degradation temperature with increase in ONC loading. The flame retardant properties (LOI and flame spread rate) are improved slightly on addition (3 php) of ONC filled PUF.     

Flame retardancy and heat resistance of phenol-biphenylene-type epoxy resin compound modified with benzoguanamine

The flame retardancy and heat resistance of a phenol-biphenylene-type epoxy resin compound, which forms a self-extinguishing network structure, were increased by the inclusion of a benzoguanamine-modified phenol biphenylene resin. The benzoguanamine-modified phenol biphenylene resin contains a benzoguanamine unit to release non-flammable nitrogen substances during ignition and to increase the resin's reactivity toward epoxy resins, and biphenylene units to keep the resin's thermal degradation and water resistance. The addition of the benzoguanamine-modified phenol biphenylene resin in the epoxy resin compound improved the epoxy resin compound's flame retardancy and heat resistance, and also increased its glass transition temperature while maintaining its water resistance and mechanical properties. Copyright © 2003 John Wiley & Sons, Ltd.     

Synthetic Hydromagnesite as Flame Retardant. A Study of the Stearic Coating Process

A synthetic hydromagnesite obtained from an industrial by-product rich in magnesium oxide was employed and evaluated as a non-halogenated flame retardant for poly(ethylene-co-vinyl acetate). The filler was characterized with different techniques (such as specific surface area, TGA, particle morphology and size measurements, WAXS). Significant differences were found between the synthetic hydromagnesite and the natural one. Synthetic hydromagnesite was coated with stearic acid and the effectiveness of the coating process was studied by the dye adsorption method and sedimentation volume measurements. The amount of coating agent ranged from 1 to 4.5%. This factor was found to have a significant effect on the thermal decomposition behaviour of the filler. A poly(ethylene-co-vinyl acetate) (27% of VA) was filled with the coated synthetic grades of hydromagnesite as well as with two commercial flame retardants and different physicochemical properties were evaluated, including their flame retardant effect.     

Synthesis and Characterization of Borax-Polyimide for Flame Retardant Applications

Polyamide-borax composites were prepared from solution of polyimide and the borax using N-methyl-2-pyrrolidone as a solvent. The Polyimide-borax composites films (PI-BX) characterized by FTIR, SEM and x-ray. The borax content significantly influences thermal behavior of the polymeric films, such as glass transition and decomposition temperatures of polyimide-borax composites. The glass transition temperatures of the composites were higher than that of the original polyimide. The flammability properties of them were demonstrated by cone calorimeter and indicate that the borax composites have significantly decreased in heat release rate, and mass loss rate. The PI-BX composites appears very good the flame retardant properties.     

Phosphorus‐Doped Graphene Oxide Layer as a Highly Efficient Flame Retardant

A simple and easy process has been developed to efficiently dope phosphorus into a graphene oxide surface. Phosphorus‐doped graphene oxide (PGO) is prepared by the treatment of polyphosphoric acid with phosphoric acid followed by addition of a graphene oxide solution while maintaining a pH of around 5 by addition of NaOH solution. The resulting materials are characterized by X‐ray photoelectron spectroscopy (XPS), Fourier transform infrared spectroscopy (FT‐IR), X‐ray diffraction (XRD), Raman spectroscopy, thermogravimetric analysis (TGA), and scanning electron microscopy (SEM). The as‐made PGO solution‐coated cloth exhibits excellent flame retardation properties. The PGO‐coated cloth emits some smoke at the beginning without catching fire for more than 120 s and maintains its initial shape with little shrinkage. In contrast, the pristine cloth catches fire within 5 s and is completely burned within 25 s, leaving trace amounts of black residue. The simple technique of direct introduction of phosphorus into the graphene oxide surface to produce phosphorus‐doped oxidized carbon nanoplatelets may be a general approach towards the low‐cost mass production of PGO for many practical applications, including flame retardation.     

新型含磷阻燃剂的合成及阻燃PC/ABS的热稳定性能

通过9,10-二氢-9-氧杂-10-磷杂菲-10-氧化物(DOPO)、乙烯基甲基二甲氧基硅烷(WD-23)和γ-氨丙基甲基二乙氧基硅烷(DB902)之间的反应,合成了一种新型含磷阻燃剂:10-(乙基甲基二甲氧基硅烷)-9,10-二氢-9-氧杂-10-磷杂菲-10-氧化物/γ-氨丙基甲基二乙氧基硅烷共聚物(DPWDF).利用热重分析(TGA)研究了阻燃剂及阻燃PC/ABS的热稳定性.结果表明:480 ℃以后,阻燃剂在空气氛围中的残炭量比在氮气氛围中的高;阻燃剂提前于基体PC/ABS分解,有利于促进基体成炭,提高基体的高温残炭量.     

多层次炭结构对膨胀阻燃聚丙烯性能的调控作用研究

将具有封闭空心结构的酚醛微球(HPMs)引入到聚丙烯/膨胀阻燃剂(PP/IFR)体系,燃烧时一方面依托PP/IFR形成膨胀多孔炭,另一方面通过HPMs形成空心炭微球,嵌入到前面多孔炭的骨架中,形成具有多层次孔的炭结构,从而调控膨胀炭层,进而调节材料的阻燃性能.通过极限氧指数(LOI)、垂直燃烧(UL-94)等研究了材料的阻燃性能;通过热失重分析(TGA)测试其热稳定性;采用红外热成像仪监测燃烧过程材料的表面温度,用扫描电镜(SEM)观察IFR、HPMs在基体中的分散行为及炭层结构.结果表明,少量HPMs在聚合物中分散得比较均匀.HPMs调控了膨胀炭层,使PP/IFR形成了表层炭致密,内层具有多层次孔的炭结构.这种优质的炭结构可以使样品表面温度迅速降低,从而有效提高PP/IFR体系的阻燃效率,使得PP在添加18 wt%IFR和1 wt%HPMs就可以通过UL-94 V0级别.     

新型含磷阻燃剂DOPO-PPO的合成及其阻燃性能

以苯基磷酰二氯,对羟基苯甲醛及9,10-二氢-9-氧杂-10-磷杂菲(DOPO)为原料,合成了一种新型含磷阻燃剂——二[4-(次甲基-羟基-磷杂菲)苯氧基]苯基氧化磷(DOPO-PPO),其结构经1H NMR和IR表征。通过TGA和DTG研究了DOPO-PPO的热稳定性,热降解行为及成炭性能。结果表明:DOPO-PPO的起始热分解温度为210℃,在700℃时残炭为30.4%。以环氧树脂为基材,DOPO-PPO为阻燃剂,二氨基二苯硫砜为固化剂,制备了阻燃环氧树脂(3)。通过极限氧指数(LOI)和垂直燃烧(UL-94)测试了3的阻燃性能。结果表明:当DOPOPPO的添加量为12.0%(质量百分数,即312)时,阻燃级别为V-0级,LOI为34.0%。     

一种新型含溴磷酰胺酯阻燃剂的合成

以三氯氧磷、季戊四醇、氨气等为原料合成了一种未见文献报道的含磷、溴、氮阻燃剂1,3 (2,2 二溴甲基)丙撑 O (2,6,7 三氧杂 1 氧基磷杂双环[2.2.2]辛烷 4 亚甲基)磷酰胺酯,通过元素分析、红外光谱等确定了化合物的结构 通过TG初步探讨了其热稳定性     

新型大分子磷氮阻燃剂的合成及其在阻燃聚碳酸酯中的应用

以苯基膦酰二氯和哌嗪为原料合成了一种新型大分子含磷氮阻燃剂——聚苯基磷酰哌嗪(1),其结构经1H NMR,31P NMR和IR表征。对阻燃聚碳酸酯(2)的极限氧指数(LOI)测试结果表明:添加7%的1时,2的LOI值为34.8%。     

Synthesis of Novel Arginine-Based Flame Retardant and Its Application in Lyocell Fabric

Lyocell fabrics are widely applied in textiles, however, its high flammability increases the risk of fire. Therefore, to resolve the issue, a novel biomass-based flame retardant with phosphorus and nitrogen elements was designed and synthesized by the reaction of arginine with phosphoric acid and urea. It was then grafted onto the lyocell fabric by a dip-dry-cure technique to prepare durable flame-retardant lyocell fabric (FR-lyocell). X-ray photoelectron spectroscopy (XPS) and Fourier-transform infrared spectroscopy (FTIR) analysis demonstrated that the flame retardant was successfully introduced into the lyocell sample. Thermogravimetric (TG) and Raman analyses confirmed that the modified lyocell fabric featured excellent thermal stability and significantly increased char residue. Vertical combustion results indicated that FR-lyocell before and after washing formed a complete and dense char layer. Thermogravimetric Fourier-transform infrared (TG-FTIR) analysis suggested that incombustible substances (such as H₂O and CO₂) were produced and played a significant fire retarding role in the gas phase. The cone calorimeter test corroborated that the peak of heat release rate (PHRR) and total heat release (THR) declined by 89.4% and 56.4%, respectively. These results indicated that the flame retardancy of the lyocell fabric was observably ameliorated.     

密胺树脂/硼酸锌双层包覆微胶囊化红磷的制备及其在阻燃聚烯烃中的应用

描述了采用密胺树脂和硼酸锌连续双层包覆微胶囊化红磷(MRP)的最新制备方法。采用红外光谱、电子能谱和透射电镜等分析手段对其进行了表征，并证实红磷已被完全包覆。实验数据表明：经包覆的MRP的热稳定性获得了明显改善，吸水率和磷化氢的发生量均大大减少。MRP作为阻燃助剂应用于聚烯烃阻燃材料表现出了良好的阻燃效果。实时红外和热失重测量以及扫描电镜观察表明：其阻燃机制是红磷受热时与树脂反应促进了含磷膨胀炭层的形成，从而提高了材料的热稳定性，碳层起到了隔氧、隔热作用，而且主要在凝聚相中发挥其阻燃作用。     

Composites of Reduced Flammability Based on Amorphous Elastic Polyurethane and Halogen-containing Flame Retardant

Russian Journal of Applied Chemistry - The effect of a mixture of halogen-containing fl ame retardants based on chloroparaffins and 1,1,9-trihydroperfl uorononanol-1 immobilized on a...     

氧化石墨烯与Si-P低聚物在环氧树脂中的协同阻燃作用

采用Hummers方法制备了氧化石墨烯(GO),并通过扫描电镜(SEM)和原子力显微镜(AFM)对GO微观形貌进行了表征.详细研究了GO与硅磷低聚物(DMS-DOPO)在环氧树脂(EP)力学性能和阻燃性能中的协同作用.万能材料试验测试结果表明,GO和DMS-DOPO分别对拉伸强度和断裂伸长率提高效果明显,二者协同后,可使EP拉伸强度和断裂伸长率分别提高17.1%和42.2%.采用热重分析(TG)、极限氧指数(LOI)、垂直燃烧(UL-94)、锥型量热(CONE)和SEM对EP及其阻燃材料的热性能、燃烧性能以及炭层微观形貌进行了表征.EP/DMS-DOPO/GO在600℃残留量为EP的5.2倍,比EP/DMS-DOPO和EP/GO分别提高4.4%和208.6%.EP/DMS-DOPO/GO的LOI值大于30,并能通过UL-94 V-0级别,燃烧过程中可形成内部结构疏松多孔、外表面致密的膨胀炭层.DMS-DOPO和GO协同后使EP热释放速率峰值由1154 k W·m-2降低到710 k W·m-2,总烟释放量降低30%.