南京师范大学学报:工程技术版
南京師範大學學報:工程技術版
남경사범대학학보:공정기술판
Journal of Nanjing Nor Univ: Eng and Technol
2011年
3期
50-54
,共5页
王智%马燕娟%马振毛
王智%馬燕娟%馬振毛
왕지%마연연%마진모
纳米碳酸钙%微米碳酸钙%环氧树脂%机械性能%耐热性能
納米碳痠鈣%微米碳痠鈣%環氧樹脂%機械性能%耐熱性能
납미탄산개%미미탄산개%배양수지%궤계성능%내열성능
nano-CaCO3%micro-CaCO3%epoxy%mechanical property%thermal property
采用质量百分比为3%的纳米碳酸钙和不同比例微米碳酸钙进行复配,并填充环氧树脂.力学性能测试结果表明:微米碳酸钙添加量为5%时,复合材料的力学性能达到最佳.TGA测试结果表明,该配比碳酸钙级配填充提高了环氧树脂的耐热性能.
採用質量百分比為3%的納米碳痠鈣和不同比例微米碳痠鈣進行複配,併填充環氧樹脂.力學性能測試結果錶明:微米碳痠鈣添加量為5%時,複閤材料的力學性能達到最佳.TGA測試結果錶明,該配比碳痠鈣級配填充提高瞭環氧樹脂的耐熱性能.
채용질량백분비위3%적납미탄산개화불동비례미미탄산개진행복배,병전충배양수지.역학성능측시결과표명:미미탄산개첨가량위5%시,복합재료적역학성능체도최가.TGA측시결과표명,해배비탄산개급배전충제고료배양수지적내열성능.
3% nano-CaCO3 and different content micro-CaCO3 were blended and filled with epoxy composites. The resuits of mechanical property showed that the 3% nano-CaCO3/5% micro-CaCO3/epoxy sample had the best mechanical property. The results of TGA indicated that the 3% nano-CaC03/5% micro-CaCO3/epoxy sample had the better thermal property than that of pure epoxy.
