由含硫环氧树脂和苯并恶嗪制成的本质不燃热固性材料:热学和机械性能的评价

IF 2 4区 工程技术 Q3 ENGINEERING, CHEMICAL Advances in Polymer Technology Pub Date : 2023-08-02 DOI:10.1155/2023/1686001
Yanchen Lyu, Haibo Fan, L. Qiu
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引用次数: 0

摘要

苯并恶嗪(BZ)-环氧树脂共聚物表现出良好的力学性能,但在环氧树脂含量较高时,其热性能和阻燃性能受损。本文报道了一种新型的含硫环氧树脂(EPS),它是用4,4’-硫代双酚(TBP)代替双酚a(BA)合成的,然后与三种含硫BZ(TBP-a、TBP-fa和TBP-tma)共混。使用傅立叶变换红外光谱和差示扫描量热法分析了树脂的聚合行为,以确定最佳固化程序。该分析表明,恶嗪环和环氧环同时发生开环和交联反应,并且在固化过程中出现了源自呋喃环和噻吩环的双取代结构。热重分析表明,EPS的加入阻碍了双取代结构的形成,从而提高了初始分解温度。由于EPS的开环产生了不稳定的C–O–C–O基团,800°C下的焦炭产率降低。为了制备炭产率为24%的自熄性共聚物,EPS基共混物需要比BA基共混物更少的BZ。除TBP-a/EPS外,所有共聚物的热释放能力(使用微燃烧量热法测量)均小于300 J/g·K,表明硫醚键和双取代结构的存在导致了优异的阻燃性。TBP-fa/EPS共聚物在锥形量热计测量中也表现出优异的阻燃性。最后,比例为5的TBP-fa/EPS共聚物的玻璃化转变温度 : 5(w/w)达到289°C。环氧树脂含量为70%的TBP-fa/EPS共聚物具有几乎相同的储能模量(2206 MPa),因此具有类似的机械性能。总之,以含硫环氧树脂为原料制备的BZ-环氧树脂共聚物结合了组成成分的优点,扩大了其应用领域。
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Intrinsically Noncombustible Thermosets from Sulfur-Containing Epoxy Resin and Benzoxazines: Evaluation of Thermal and Mechanical Properties
Benzoxazine (BZ)-epoxy copolymers exhibit favorable mechanical properties, but their thermal and flame-retardant characteristics are impaired at high epoxy fractions. Here, we report a new type of sulfur-containing epoxy resin (EPS), which we synthesized using 4,4’-thiobisphenol (TBP) instead of bisphenol A (BA) and then blended with three sulfur-containing BZs (TBP-a, TBP-fa, and TBP-tma). The polymerization behavior of the resins was analyzed using Fourier transform infrared spectroscopy and differential scanning calorimetry for determining the optimal curing procedure. This analysis revealed that the oxazine and epoxy rings undergo ring-opening and cross-linking reactions at the same time and that double-substituted structures originating from the furan and thiophene rings appeared during the curing process. Thermogravimetric analysis showed that the addition of EPS increased the initial decomposition temperature by hindering the formation of double-substituted structures. The char yield at 800°C decreased owing to the unstable C–O–C–C–O groups derived from the ring-opening of EPS. To prepare the self-extinguishing copolymers with a char yield of 24%, a smaller quantity of BZ was needed for the EPS-based blends than for the BA-based ones. The heat release capacities—measured using micro-combustion calorimetry—of all copolymers except TBP-a/EPS were less than 300 J/g·K, demonstrating that the presence of thioether bonds and double-substituted structures resulted in excellent flame retardancy. The TBP-fa/EPS copolymer also exhibited excellent flame retardancy in cone calorimeter measurement. Finally, the glass transition temperature of the TBP-fa/EPS copolymer at a ratio of 5 : 5 (w/w) reached as high as 289°C. A TBP-fa/EPS copolymer with an epoxy content of 70% had nearly the same storage modulus (2,206 MPa) at 50°C as poly(BA-a) and thus similar mechanical properties. In summary, BZ-epoxy copolymers prepared from sulfur-containing epoxy combine the advantages of the constituent components and extend their areas of application.
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来源期刊
Advances in Polymer Technology
Advances in Polymer Technology 工程技术-高分子科学
CiteScore
5.50
自引率
0.00%
发文量
70
审稿时长
9 months
期刊介绍: Advances in Polymer Technology publishes articles reporting important developments in polymeric materials, their manufacture and processing, and polymer product design, as well as those considering the economic and environmental impacts of polymer technology. The journal primarily caters to researchers, technologists, engineers, consultants, and production personnel.
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