合肥工业大学学报(自然科学版)
閤肥工業大學學報(自然科學版)
합비공업대학학보(자연과학판)
Journal of Hefei University of Technology (Natural Science)
2015年
10期
1381-1386
,共6页
道路工程%高模量沥青混合料%混合料性能%力学特性%作用机理
道路工程%高模量瀝青混閤料%混閤料性能%力學特性%作用機理
도로공정%고모량력청혼합료%혼합료성능%역학특성%작용궤리
road engineering%high modulus asphalt mixture%mixture performance%mechanics proper-ty%mechanism
高温多雨地区多重不利因素的叠加加速了沥青路面性能的衰减。文章采用掺加PRM 和PRS的2种高模量沥青混合料对水稳定性,高温、水热稳定性,疲劳、低温性能,以及动静模量、直接剪切试验进行研究,对高温多雨地区高模量沥青混合料性能系统地进行评价。结果表明:与基质沥青混合料和SBS沥青混合料相比,PRM 和PRS 2种高模量沥青混合料有较好的水稳定性、高温稳定性和疲劳性能,在水‐热综合作用下有良好的抵抗变形能力,同时低温性能也略有改善,沥青混合料的动、静态模量以及抗剪强度有大幅提高。文章研究认为机械嵌挤作用和纤维网约束力可以改善混合料整体性能,吸收、吸附作用和界面层作用有利于改善沥青的高温和低温性能。
高溫多雨地區多重不利因素的疊加加速瞭瀝青路麵性能的衰減。文章採用摻加PRM 和PRS的2種高模量瀝青混閤料對水穩定性,高溫、水熱穩定性,疲勞、低溫性能,以及動靜模量、直接剪切試驗進行研究,對高溫多雨地區高模量瀝青混閤料性能繫統地進行評價。結果錶明:與基質瀝青混閤料和SBS瀝青混閤料相比,PRM 和PRS 2種高模量瀝青混閤料有較好的水穩定性、高溫穩定性和疲勞性能,在水‐熱綜閤作用下有良好的牴抗變形能力,同時低溫性能也略有改善,瀝青混閤料的動、靜態模量以及抗剪彊度有大幅提高。文章研究認為機械嵌擠作用和纖維網約束力可以改善混閤料整體性能,吸收、吸附作用和界麵層作用有利于改善瀝青的高溫和低溫性能。
고온다우지구다중불리인소적첩가가속료력청로면성능적쇠감。문장채용참가PRM 화PRS적2충고모량력청혼합료대수은정성,고온、수열은정성,피로、저온성능,이급동정모량、직접전절시험진행연구,대고온다우지구고모량력청혼합료성능계통지진행평개。결과표명:여기질력청혼합료화SBS력청혼합료상비,PRM 화PRS 2충고모량력청혼합료유교호적수은정성、고온은정성화피로성능,재수‐열종합작용하유량호적저항변형능력,동시저온성능야략유개선,력청혼합료적동、정태모량이급항전강도유대폭제고。문장연구인위궤계감제작용화섬유망약속력가이개선혼합료정체성능,흡수、흡부작용화계면층작용유리우개선력청적고온화저온성능。
The asphalt pavement performance degradation is worsen by superposition of multiple ad‐verse factors in hot and rainy areas .The performance of high modulus asphalt mixtures modified with PRM and PRS respectively was evaluated systematically by water stability ,high temperature and hot‐water synthetical stability ,fatigue and low temperature performance tests and dynamic and static modulus and shear tests .The results showed that compared with virgin asphalt and styrene‐butadiene‐styrene(SBS) mixture ,PRS and PRM mixtures had better water stability ,high temperature stability , hot‐water synthetical stability and fatigue property ;the low temperature performance of mixtures was improved lightly .On the other hand ,dynamic and static modulus and shear strength of PRM and PRS asphalt mixtures were improved significantly .It was put forward that wedging force and fiber network improved the performances of mixtures .Absorbency and interface layer effect improved the high tem‐perature and low temperature performance of asphalt binders .
