工程塑料应用
工程塑料應用
공정소료응용
ENGINEERING PLASTICS APPLICATION
2014年
10期
7-11
,共5页
超高分子量聚乙烯%纳米炭黑%抗静电%无卤阻燃
超高分子量聚乙烯%納米炭黑%抗靜電%無滷阻燃
초고분자량취을희%납미탄흑%항정전%무서조연
PE-UHMW%nano carbon black%antistatic%halogen-free flame retardant
利用偶联接枝对纳米炭黑粒子表面处理,通过反应型增容载体载附纳米炭黑,将处理后的纳米炭黑及纳米复配阻燃剂用于改性超高分子量聚乙烯(PE–UHMW),制备出纳米抗静电无卤阻燃PE–UHMW复合材料。通过体积电阻率测试、燃烧性能测试、热重分析及扫描电子显微镜分析对该材料的导电性能、阻燃性能、热性能等进行了研究。结果表明,纳米炭黑分布在PE–UHMW球晶间缝隙处和球晶内微纤间缝隙处的非晶区内,形成了纳米级双导电网络,这种立体穿插纳米尺度均匀分布,在低炭黑含量情况下就形成稳定的导电通路,起到了抗静电作用;制备的纳米抗静电无卤阻燃PE–UHMW复合材料,其燃烧时形成高效、致密、厚实的炭层,可有效地隔绝空气,起到阻燃作用。
利用偶聯接枝對納米炭黑粒子錶麵處理,通過反應型增容載體載附納米炭黑,將處理後的納米炭黑及納米複配阻燃劑用于改性超高分子量聚乙烯(PE–UHMW),製備齣納米抗靜電無滷阻燃PE–UHMW複閤材料。通過體積電阻率測試、燃燒性能測試、熱重分析及掃描電子顯微鏡分析對該材料的導電性能、阻燃性能、熱性能等進行瞭研究。結果錶明,納米炭黑分佈在PE–UHMW毬晶間縫隙處和毬晶內微纖間縫隙處的非晶區內,形成瞭納米級雙導電網絡,這種立體穿插納米呎度均勻分佈,在低炭黑含量情況下就形成穩定的導電通路,起到瞭抗靜電作用;製備的納米抗靜電無滷阻燃PE–UHMW複閤材料,其燃燒時形成高效、緻密、厚實的炭層,可有效地隔絕空氣,起到阻燃作用。
이용우련접지대납미탄흑입자표면처리,통과반응형증용재체재부납미탄흑,장처리후적납미탄흑급납미복배조연제용우개성초고분자량취을희(PE–UHMW),제비출납미항정전무서조연PE–UHMW복합재료。통과체적전조솔측시、연소성능측시、열중분석급소묘전자현미경분석대해재료적도전성능、조연성능、열성능등진행료연구。결과표명,납미탄흑분포재PE–UHMW구정간봉극처화구정내미섬간봉극처적비정구내,형성료납미급쌍도전망락,저충입체천삽납미척도균균분포,재저탄흑함량정황하취형성은정적도전통로,기도료항정전작용;제비적납미항정전무서조연PE–UHMW복합재료,기연소시형성고효、치밀、후실적탄층,가유효지격절공기,기도조연작용。
Antistatic and halogen-free flame retardant PE–UHMW composites filled with nano carbon and nano complex flame retardant were prepared via nanotechnology. Nano carbon black was surface modified and attached on the polyolefin to be well dispersed in the PE–UHMW. Moreover,volume resistance, flame retardancy,TG and SEM test were used to study the physical and electrical properties of composites.SEM photographs reveal that carbon black is dispersed in the amorphous layer and the phases between the spherulites,forming the electric networks in a particular low level. What is more, the results illustrate that antistatic phase is well formed with the cooperation between nano carbon black and antistatic materials. The carbon black dispersed selectively in the polyolefin with low molecular weight can still perform as the carbon phase to improve the carbonization of the composites.
