西南交通大学学报
西南交通大學學報
서남교통대학학보
JOURNAL OF SOUTHWEST JIAOTONG UNIVERSITY
2014年
3期
412-418
,共7页
刘军忠%翁兴中%张俊%李宪鹏%纪东明%郭磊
劉軍忠%翁興中%張俊%李憲鵬%紀東明%郭磊
류군충%옹흥중%장준%리헌붕%기동명%곽뢰
机场工程%应急机场土质道面%疲劳特性%整体回弹模量%累积塑性变形%弯沉盆曲线
機場工程%應急機場土質道麵%疲勞特性%整體迴彈模量%纍積塑性變形%彎沉盆麯線
궤장공정%응급궤장토질도면%피로특성%정체회탄모량%루적소성변형%만침분곡선
airport engineering%emergency airfield soil pavement%fatigue characteristic%holistic elastic modulus%cumulative plastic deformation%deflection basin curve
为分析应急机场快速修建工程的合理道面结构形式,采用人工加载和道面电液伺服疲劳试验机加载2种方式,对由压实土基、稳定土基层(底基层)和功能性面层组成的典型道面结构疲劳变形特性进行了模型试验。研究了土质道面结构的累积塑性变形、回弹弯沉和弯沉盆曲线随飞机荷载、施加荷载频率和荷载作用次数的变化情况及其平面分布规律。试验结果表明:累积塑性变形随加载频率增大而增大,累积塑性变形与加载次数呈对数关系;弯沉盆曲线形状类似“S”型曲线,可采用四次曲线方程进行拟合;道面结构的早期整体回弹模量增长较快,7~60 d龄期内整体回弹模量可达200~500 MPa,在数万次通行次数下,土质道面的回弹弯沉小于1 mm,表明提出的土质道面结构形式能够满足应急机场强时效性的要求。
為分析應急機場快速脩建工程的閤理道麵結構形式,採用人工加載和道麵電液伺服疲勞試驗機加載2種方式,對由壓實土基、穩定土基層(底基層)和功能性麵層組成的典型道麵結構疲勞變形特性進行瞭模型試驗。研究瞭土質道麵結構的纍積塑性變形、迴彈彎沉和彎沉盆麯線隨飛機荷載、施加荷載頻率和荷載作用次數的變化情況及其平麵分佈規律。試驗結果錶明:纍積塑性變形隨加載頻率增大而增大,纍積塑性變形與加載次數呈對數關繫;彎沉盆麯線形狀類似“S”型麯線,可採用四次麯線方程進行擬閤;道麵結構的早期整體迴彈模量增長較快,7~60 d齡期內整體迴彈模量可達200~500 MPa,在數萬次通行次數下,土質道麵的迴彈彎沉小于1 mm,錶明提齣的土質道麵結構形式能夠滿足應急機場彊時效性的要求。
위분석응급궤장쾌속수건공정적합리도면결구형식,채용인공가재화도면전액사복피로시험궤가재2충방식,대유압실토기、은정토기층(저기층)화공능성면층조성적전형도면결구피로변형특성진행료모형시험。연구료토질도면결구적루적소성변형、회탄만침화만침분곡선수비궤하재、시가하재빈솔화하재작용차수적변화정황급기평면분포규률。시험결과표명:루적소성변형수가재빈솔증대이증대,루적소성변형여가재차수정대수관계;만침분곡선형상유사“S”형곡선,가채용사차곡선방정진행의합;도면결구적조기정체회탄모량증장교쾌,7~60 d령기내정체회탄모량가체200~500 MPa,재수만차통행차수하,토질도면적회탄만침소우1 mm,표명제출적토질도면결구형식능구만족응급궤장강시효성적요구。
To investigate the reasonable pavement structure for rapid construction of emergency airfield,fatigue deformation characteristics of soil airfield pavement were researched respectively by manual loading method and electro-hydraulic servo fatigue testing machine. Through a full-scale model test,the variations of cumulative plastic deformation,rebound deflection and deflection basin curve with load,loading frequency and loading times were discussed. The test results show that cumulative plastic deformation increases with loading frequency,and there exists a logarithmic relationship between it and loading times,the deflection basin curve has approximately an S-style curve and can be fitted well by a quartic polynomial equation. The carrying capacity of pavement structure increases fast at an early stage,holistic elastic modulus runs up to from 200 to 500 MPa in 7 to 60 d,the rebound deflections are less than 1 mm under ten thousands traffic times. The fatigue deformation characteristics of the recommended airfield pavement structure composed of compacted subsoil,cement stabilized soil base (or subbase)and functional surface course,can meet the requirements of emergency airfield.
