酸催化树脂:理化及热降解研究

International Journal of Chemical and Analytical Science Pub Date : 2013-03-01 DOI:10.1016/j.ijcas.2013.03.001

Renuka Bobde , Kiran Kariya , Lata Deshmukh

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引用次数: 1

摘要

以2,2 ' -双酚、乙二胺和甲醛为单体，在2m盐酸的催化下，以1:1:2摩尔比缩合反应合成了AimsTerpolymer (BPEDF)。方法采用薄层色谱(TLC)技术对新合成树脂的纯度进行检测和验证。BPEDF的结构已经在元素分析和各种物理化学技术，即FTIR, 1HNMR和uv -可见光谱研究的基础上得到了阐明。结果对新型三元共聚物进行了详细的热降解研究，确定了其热稳定性。热降解曲线表现为40-210℃、220-410℃和410 - 900℃三个分解步骤。通过热降解曲线测定了它们的分解方式、反应顺序、表观活化能、频率因子、自由能变化、熵变和表观能变化。Sharp-Wentworth和Freeman-Carroll方法被用来计算活化能和热稳定性。Sharp-Wentworth法计算的活化能为25.84 KJ/mol−1，与Freeman-Carroll法计算的活化能为23.11 KJ/mol−1吻合较好。分解温度为251℃。反应阶数(n)为0.95。

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Acid catalyzed resin: Physico-chemical and its thermal degradation studies

Aims

Terpolymer (BPEDF) has been synthesized by the condensation of the monomers 2, 2′- biphenol, ethylene diamine and formaldehyde in 1:1:2 molar proportions in the presence of 2 M HCl as a catalyst.

Methods

The purity of newly synthesized resin has been tested and confirmed by the thin layer chromatography (TLC) technique. The structure of BPEDF has been elucidated on the basis of elemental analysis and various physicochemical techniques, i.e. FTIR, ¹HNMR, and UV–Visible spectral studies.

Result

Detailed thermal degradation study of the new terpolymer has been carried out to ascertain its thermal stability. The thermal degradation curve shows three decomposition steps (40–210 °C, 220–410 °C and 410 °C–900 °C). The thermal degradation curve was examined in order to determine their mode of decomposition, order of reaction, apparent activation energy, frequency factor, free energy change, entropy change and apparent energy change. Sharp–Wentworth and Freeman–Carroll methods have been used to calculate activation energies and thermal stability. The activation energy (25.84 KJ/mole⁻¹) calculated by using the Sharp–Wentworth method has been found to be in good agreement with that calculated by Freeman–Carroll method (23.11 KJ/mole⁻¹). The decomposition temperature is found to be 251 °C. The order of reaction (n) is found to be 0.95.

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International Journal of Chemical and Analytical Science

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