功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2013年
24期
3550-3553
,共4页
左孔成%张林%彭金方%肖新标%金学松%朱旻昊
左孔成%張林%彭金方%肖新標%金學鬆%硃旻昊
좌공성%장림%팽금방%초신표%금학송%주민호
杂化阻尼%热稳定性%丁腈橡胶%氢键%晶体%界面
雜化阻尼%熱穩定性%丁腈橡膠%氫鍵%晶體%界麵
잡화조니%열은정성%정정상효%경건%정체%계면
hybrid damping%heat stable%NBR%hydrogen bond%crystal%interface
针对丁腈橡胶 NBR/有机小分子 AO-2246共混物阻尼材料热稳定性欠佳的现象,借助动态力学分析仪(DMA )、红外光谱(FT-IR )、X 射线衍射(XRD)以及扫描电镜(SEM)等表征手段对其机理进行了研究。结果表明,高含量有机小分子 AO-2246的NBR/AO-2246共混物,阻尼性能优异,但其稳定性欠佳。随着退火温度的提高,阻尼性能下降与材料内部氢键逐渐消失有关,而氢键的消失会导致大量结晶体的产生,结晶体进一步对阻尼材料阻尼性能产生不利影响。在SEM微观形貌中发现,晶体易于沿着材料内部界面处优先生成,这归因于界面效应。随着退火温度提高,发现晶体形貌也发生了变化,即晶体结构处于不稳定状态,这是氢键逐渐消失的结果。
針對丁腈橡膠 NBR/有機小分子 AO-2246共混物阻尼材料熱穩定性欠佳的現象,藉助動態力學分析儀(DMA )、紅外光譜(FT-IR )、X 射線衍射(XRD)以及掃描電鏡(SEM)等錶徵手段對其機理進行瞭研究。結果錶明,高含量有機小分子 AO-2246的NBR/AO-2246共混物,阻尼性能優異,但其穩定性欠佳。隨著退火溫度的提高,阻尼性能下降與材料內部氫鍵逐漸消失有關,而氫鍵的消失會導緻大量結晶體的產生,結晶體進一步對阻尼材料阻尼性能產生不利影響。在SEM微觀形貌中髮現,晶體易于沿著材料內部界麵處優先生成,這歸因于界麵效應。隨著退火溫度提高,髮現晶體形貌也髮生瞭變化,即晶體結構處于不穩定狀態,這是氫鍵逐漸消失的結果。
침대정정상효 NBR/유궤소분자 AO-2246공혼물조니재료열은정성흠가적현상,차조동태역학분석의(DMA )、홍외광보(FT-IR )、X 사선연사(XRD)이급소묘전경(SEM)등표정수단대기궤리진행료연구。결과표명,고함량유궤소분자 AO-2246적NBR/AO-2246공혼물,조니성능우이,단기은정성흠가。수착퇴화온도적제고,조니성능하강여재료내부경건축점소실유관,이경건적소실회도치대량결정체적산생,결정체진일보대조니재료조니성능산생불리영향。재SEM미관형모중발현,정체역우연착재료내부계면처우선생성,저귀인우계면효응。수착퇴화온도제고,발현정체형모야발생료변화,즉정체결구처우불은정상태,저시경건축점소실적결과。
The damping mechanism of the nitrile rubber (NBR)/organic small molecule AO-2 246 blending was investigated due to its poor thermal stability property.The dynamic mechanical analyzer (DMA),Fourier transform infrared (FT-IR),X-ray diffraction (XRD),scanning electron microscope (SEM),etc were used. The results showed that the NBR/AO-2 246 blending displayed an outstanding damping property but a poor heat endurance performance when there was a rich content of AO-2 246.With the increase of annealing temper-ature,a gradual decline in the damping capacity was apparently related to the disappeared of the hydrogen bond which could induce a large amount of crystals from AO-2 246.These crystals could further damage the damping performance.In this study,the results from SEM indicated crystals might be prone to generate on the internal interfaces attributed to the interface effect.It was found the crystal morphology was also changed with increas-ing annealing temperature,which indicated the crystal structure was unstable,resulting from the gradual disap-pearance of the hydrogen bond.