標題: 環氧樹脂摻混磷酸鹽系難燃劑之熱裂解行為與耐燃性質研究
Study on the Thermodegradation and the Flammability of Epoxy Blend Melamine Phosphate
作者: 陳宏祺
Hung-Chi Chen
蕭興仁
薛敬和
Dr. Hsing-Jen Shiao
Dr. Ging- Ho Hsiue
應用化學系碩博士班
關鍵字: 磷酸鹽系難燃劑;耐燃材料;摻混;填充;膨脹型;接著;Melamine Phosphate;Flame retardant;Blend;Fill;Intumescent;adhesive
公開日期: 1998
摘要: 本論文研究的目的在於探討epoxy / melamine phosphate ( MP )、epoxy / Imidazole / MP 及epoxy / DICY / MP三種摻混組合,配合四種不同的硬化時間及溫度所製作出的A、B、C、D及E五系統的熱裂及熱氧裂解機構,並討論氧氣對裂解的影響及其所扮演的角色。藉由的裂解曲線圖,可得知隨溫度的升高,難燃劑MP於260 ℃產生裂解,所釋放出的磷酸在與環氧樹脂產生化學反應,也因而導致環氧樹脂的安定性下降,進而促使環氧樹脂脫水裂解,形成致密的膨脹型焦炭層,此為其主要的難燃機構。因此,環氧樹脂在此扮演了焦炭層的主要生成者,這點與以往文獻中有關膨脹型難燃系統的作用機構不同。 為了進一步確認並比較各摻混系統間的難燃性質及機械強度,極限氧指數( LOI )及接著強度,皆於本研究中作一探討。結果顯示,不論在何系統,當摻混5 phr MP時,即可獲得良好的耐燃效果( LOI = 29 ),而在模擬經歷惡劣環境後,測試各系統之接著強度,發現仍保有不錯的接著強度,顯見其耐候性良好。 綜合所有的研究結果,我們得知以MP作為此膨脹型難燃系統的難燃劑,確實可以大幅提升環氧樹脂的耐燃性質。比較各組的機械強度,epoxy / melamine phosphate ( MP )、epoxy / Imidazole / MP 摻混組合比epoxy / DICY / MP摻混組合好。且當MP添加的量達30 phr時,所獲得反應放熱焓最大且拉力強度最好,耐燃性質及耐候性質亦優,藉此結果,我們計算出MP上可與環氧樹脂產生反應的有效官能基數為3 ~ 4。
We have studied the thermo and thermooxidative degradation of epoxy ( BE 188 ) / melamine phosphate( MP ), epoxy / imidazole / MP and epoxy / DICY / MP blends with four curing schedual and shown the influence of oxygen in the degradation mode. It shows that a chemical interaction is shown to take place between melamine phosphate ( MP ) and epoxy( BE188 ) on heating , resulting in decreasing the stability of the virgin polymer and implies a protection mechanisms leading to the intumescence. To evaluate the flameability properties of the materials, limit oxygen index ( LOI )and tensile strength , were assessed in experiments. The results showed that the intumescent fire retardant filled epoxy has superior flameability properties and keeps good retention of adhesive strength after harsh environmenttal test . It is concluded that this intumescent system additive is an effective flame retardant on improving combustion properties for epoxy.By tensile strength we got epoxy ( BE 188 ) / melamine phosphate( MP ), epoxy / Imidazole / MP blends are stronger than epoxy / DICY / MP blend and in that case we also got the strongest tensile strength as epoxy filled 30 phr MP, by this result ,we calculate that MP has a functionality of 4 toward epoxy BE188 might be 3∼4 .
URI: http://140.113.39.130/cdrfb3/record/nctu/#NT870500042
http://hdl.handle.net/11536/64820
Appears in Collections:Thesis