北京工业大学学报
北京工業大學學報
북경공업대학학보
JOURNAL OF BEIJING POLYTECHNIC UNIVERSITY
2015年
9期
1365-1374
,共10页
张争奇%王志祥%李志宏%郭寒萍
張爭奇%王誌祥%李誌宏%郭寒萍
장쟁기%왕지상%리지굉%곽한평
含盐高湿%沥青混合料%耐久性%汉堡车辙仪%评价指标%车辙变形率
含鹽高濕%瀝青混閤料%耐久性%漢堡車轍儀%評價指標%車轍變形率
함염고습%력청혼합료%내구성%한보차철의%평개지표%차철변형솔
salty and humid%asphalt mixture%durability%Hamburg rutting test%evaluation index%rate of rutting
为了研究含盐高湿环境下沥青混合料的耐久性,以不同温度和不同质量浓度盐溶液模拟含盐高湿环境进行汉堡车辙试验,并通过试验比较不同类型沥青混合料在含盐高湿环境下的耐久性,使用Origin 8.0对板状和圆柱形的车辙试验结果进行非线性指数拟合,提出含盐高湿环境沥青混合料耐久性的试验评价指标和检测方法,最后分析含盐高湿环境对沥青混合料的侵蚀机理.结果表明:采用改性沥青作结合料可以显著提高含盐高湿环境下沥青混合料的耐久性;含盐高湿环境下,普通AC混合料的耐久性较差,而SMA混合料的耐久性优于其他类型混合料;60益、70益圆柱形试件浸水车辙变形率可以作为沥青路面耐久性的评价和检测指标;高温、盐分、水分及其耦合效应是引起沥青混合料耐久性降低的主要原因.
為瞭研究含鹽高濕環境下瀝青混閤料的耐久性,以不同溫度和不同質量濃度鹽溶液模擬含鹽高濕環境進行漢堡車轍試驗,併通過試驗比較不同類型瀝青混閤料在含鹽高濕環境下的耐久性,使用Origin 8.0對闆狀和圓柱形的車轍試驗結果進行非線性指數擬閤,提齣含鹽高濕環境瀝青混閤料耐久性的試驗評價指標和檢測方法,最後分析含鹽高濕環境對瀝青混閤料的侵蝕機理.結果錶明:採用改性瀝青作結閤料可以顯著提高含鹽高濕環境下瀝青混閤料的耐久性;含鹽高濕環境下,普通AC混閤料的耐久性較差,而SMA混閤料的耐久性優于其他類型混閤料;60益、70益圓柱形試件浸水車轍變形率可以作為瀝青路麵耐久性的評價和檢測指標;高溫、鹽分、水分及其耦閤效應是引起瀝青混閤料耐久性降低的主要原因.
위료연구함염고습배경하력청혼합료적내구성,이불동온도화불동질량농도염용액모의함염고습배경진행한보차철시험,병통과시험비교불동류형력청혼합료재함염고습배경하적내구성,사용Origin 8.0대판상화원주형적차철시험결과진행비선성지수의합,제출함염고습배경력청혼합료내구성적시험평개지표화검측방법,최후분석함염고습배경대력청혼합료적침식궤리.결과표명:채용개성력청작결합료가이현저제고함염고습배경하력청혼합료적내구성;함염고습배경하,보통AC혼합료적내구성교차,이SMA혼합료적내구성우우기타류형혼합료;60익、70익원주형시건침수차철변형솔가이작위력청로면내구성적평개화검측지표;고온、염분、수분급기우합효응시인기력청혼합료내구성강저적주요원인.
In order to study the rutting performance of asphalt pavement under salty and humid environment, tests on the condition of different temperatures and different salt solution concentrations were conducted applying laboratory Hamburg rutting test, by which the different types of durability of the asphalt mixture were compared. The Origin 8.0 was used to analyze the correlation of the results from plate and cylindrical specimens. Not only the cylindrical specimen rutting test conditions were determined, but also the salty humidity environment durability test conditions and the evaluation index were put forward. At last the erosion mechanism of salty and humid environment on the asphalt pavement was analyzed. The results show that modified asphalt binder can significantly improve the salt durability of the asphalt mixture under high humidity environment. It has poorer durability for the ordinary AC mixture than that of other. However, the durability of SMA mixture is better than that of other types of mixture under high humidity environment; cylindrical specimen immersion rutting deformation rate under the temperature of 60 ℃, 70 ℃ can be used to evaluate the durability of asphalt pavement and detection index. High temperature, salt, water, and the coupling effects are the main reasons for decreasing the durability of asphalt mixture.