公路交通技术
公路交通技術
공로교통기술
TECHNOLOGY OF HIGHWAY AND TRANSPORT
2014年
4期
14-18
,共5页
桥面铺装%SMA%双层结构%高温性能%试验研究
橋麵鋪裝%SMA%雙層結構%高溫性能%試驗研究
교면포장%SMA%쌍층결구%고온성능%시험연구
bridge deck pavement%SMA%double-layer structure%high-temperature performance%test research
当前水泥混凝土桥面铺装沥青层一般采用与路面相同的结构。根据国外应用情况,拟定不同组合方式的5种双层SMA结构,通过谢伦堡析漏试验、肯塔堡飞散试验以及车辙试验来检验每种类型混合料的抗高温变形性能。在此基础上,通过APA试验和车辙试验分析5种不同组合方式的双层SMA结构抗高温变形性能,结果显示:双层SMA结构整体抗变形能力更大程度上依赖于结构组合方式;上面层抗变形能力稍差的混合料与下面层抗变形能力较强的混合料组合的整体抗变形能力可能优于双层抗变形能力较强的混合料组合;故推荐混凝土桥面采用SMA13+SMA9.5或SMA9.5+SMA13铺装层结构组合。
噹前水泥混凝土橋麵鋪裝瀝青層一般採用與路麵相同的結構。根據國外應用情況,擬定不同組閤方式的5種雙層SMA結構,通過謝倫堡析漏試驗、肯塔堡飛散試驗以及車轍試驗來檢驗每種類型混閤料的抗高溫變形性能。在此基礎上,通過APA試驗和車轍試驗分析5種不同組閤方式的雙層SMA結構抗高溫變形性能,結果顯示:雙層SMA結構整體抗變形能力更大程度上依賴于結構組閤方式;上麵層抗變形能力稍差的混閤料與下麵層抗變形能力較彊的混閤料組閤的整體抗變形能力可能優于雙層抗變形能力較彊的混閤料組閤;故推薦混凝土橋麵採用SMA13+SMA9.5或SMA9.5+SMA13鋪裝層結構組閤。
당전수니혼응토교면포장력청층일반채용여로면상동적결구。근거국외응용정황,의정불동조합방식적5충쌍층SMA결구,통과사륜보석루시험、긍탑보비산시험이급차철시험래검험매충류형혼합료적항고온변형성능。재차기출상,통과APA시험화차철시험분석5충불동조합방식적쌍층SMA결구항고온변형성능,결과현시:쌍층SMA결구정체항변형능력경대정도상의뢰우결구조합방식;상면층항변형능력초차적혼합료여하면층항변형능력교강적혼합료조합적정체항변형능력가능우우쌍층항변형능력교강적혼합료조합;고추천혼응토교면채용SMA13+SMA9.5혹SMA9.5+SMA13포장층결구조합。
At present the asphalt layer paved on cement concrete bridge deck adopts the same structure as the general pavement. In accordance with foreign applications, this paper lays down 5 double-layer SMA structures in different combination modes and inspects the high -temperature resistant deformation performance of each type of mixtures via Schellenberg Binder Drain Down Test, Cantabro Test and rutting test. On this basis the paper analyzes the high-temperature resistant deformation performance of double-layer SMA structures in 5 different combination modes via APA test and rutting test, the results show that the integral capability of double-layer SMA structures resistant to deformation is mostly dependent on combination modes of structures; the integral deformation resistant capability of combination between the mixture on upper surface course with less strong deformation resistant capability and the mixture on lower surface course with strong deformation resistant capability may be superior to the combination of double-layer mixtures with strong deformation resistant capability; therefore, the combination of pavement layer structures of SMA13+SMA9. 5 or SMA9. 5+SMA13 are recommended for concrete bridge deck.