1) stress absorbing membrane interlayer(SAMI)
应力吸收层(SAMI)
1.
Shear resistance,flexural-tensile and fatigue performance of stress absorbing membrane interlayer(SAMI) was studied.
采用2种Strata-T改性沥青,通过单轴贯入试验及复合车辙试验分析了应力吸收层(SAMI)沥青混合料的抗剪性能;通过0~25℃小梁弯曲试验及15,25℃疲劳试验,分析了SAMI沥青混合料在不同温度下的弯拉及疲劳性能;同时将SAMI沥青混合料与SBS改性沥青混合料(AC5)的主要性能进行了对比分析。
2) stress absorb layer
应力吸收层
1.
The influence on asphalt overlay bottom layer tension stress and difference of bending and settlement at joints caused by different stress absorb layers is analyzed with finite element method(FEM),and the reasonable thickness and modulus of stress absorb layer are defined.
采用有限元计算方法,分析了不同应力吸收层在接缝处对沥青加铺层层底拉应力、弯沉差的影响,确定了应力吸收层的合理厚度及模量。
2.
The material of stress absorb layers has the superiority in delaying or restraining the reflection cracks of the old concrete road surface, and this is different from general intermediate layer of prevent fracturing .
应力吸收层材料在延缓或抑制旧水泥混凝土路面的反射裂缝方面具有不同于一般防裂夹层的优越性,成为旧水泥混凝土路面沥青加铺层结构采用的一种重要技术方案。
3) stress absorbing layer
应力吸收层
1.
Prevention of reflective cracks with high viscous asphalt stress absorbing layer;
高粘性沥青应力吸收层防治反射裂缝研究
2.
The application of stress absorbing layer in overlaying old cement concrete pavement;
应力吸收层在旧水泥混凝土路面加铺中的应用
3.
Through asphalt ductility test and mixture tensile properties and tension-compression fatigue test, the tensile properties and tension-compression fatigue performances of three stress absorbing layer mixtures are analyzed.
应力吸收层在延缓旧水泥混凝土路面沥青加铺层反射裂缝形成方面具有卓越的性能。
4) stress absorbing layers
应力吸收层
1.
Road performance of stress absorbing layers in asphalt mixture;
应力吸收层沥青混合料的路用特性
2.
This paper carries out the bending beam and creep deformation tests under low temperature for the different aggregate grading materials in stress absorbing layers with inventive Sampave asphalt and the other two modified asphalts and then analyzes the influences of asphalt binder and aggregate grading on low temperature anti-cracking performances.
通过对自主研发的Sampave等3种改性沥青结合料和不同级配的应力吸收层沥青混合料进行低温弯曲和低温蠕变试验,分析沥青结合料和矿料级配对应力吸收层沥青混合料低温抗裂性能的影响。
5) stress-absorbing layer
应力吸收层
1.
The finite element methods are used to carry out comparative analysis for overlay structures with or without stress-absorbing layer,load stress,thermal stress and stress intensity factors drop by big percentages while stress-absorbing layer is installed between old cement concrete pavement and asphalt concrete overlay,and the effect is more obvious with the lower m.
采用有限元方法对设置与未设置应力吸收层的加铺层结构进行对比分析可知,在旧水泥混凝土路面与沥青混凝土加铺层之间设置应力吸收层后,加铺层结构的荷载应力、温度应力及应力强度因子均有大幅度的降低,应力吸收层的模量越低,效果越明显。
2.
The causes of reflection crack occurred in semi-rigid base and concrete base are analyzed,the construc- tion technique of rubber asphalt stress-absorbing layer is adopted and its mechanism is discussed,the construction technique and considerations are given at last.
分析了半刚性基层和混凝土基层2种路面反射裂缝的成因,针对这2种情况提出了采用橡胶沥青应力吸收层(AR-SMA)技术,并论述了这种技术的作用机理,最后给出了橡胶沥青应力吸收层技术的施工工艺和注意事项。
3.
In order to study the crack-proof problem of asphalt overlay of existing cement pavement,the SBS modified asphalt mix is applied as interlayer stress-absorbing layer,and the proportion design,immersion Mar- shall test,freeze-thaw split test as well as the pavement of test road are carried out.
为了探索旧水泥路面沥青加铺层问结构防裂问题,将SBS改性沥青混合料用作层间应力吸收层,并进行了配合比设计、浸水马歇尔试验、冻融劈裂试验及试验路铺筑。
6) stress absorbing membrane interlayer
应力吸收层
1.
By analyzing the materials requirement,equipment collocation,construction technics and quality control in the construction of asphalt rubber stress absorbing membrane interlayer,it puts forward key points for construction control of asphalt rubber stress absorbing membrane interlayer.
通过对橡胶沥青应力吸收层施工中原材料要求、设备配置、施工工艺和质量控制等方面的分析,提出了橡胶沥青应力吸收层施工的控制要点,以供参考。
2.
SMA chip mixture uing SBS modified asphalt was used to stress absorbing membrane interlayer in the project.
结合某沥青加铺层项目,研究了旧水泥混凝土路面加铺沥青层时设置的应力吸收层材料———SBS改性沥青玛脂石屑混合料的配合比,并通过马歇尔试验和路用性能检验了该混合料配合比,结果表明:所配制的SBS改性沥青玛脂石屑混合料的各项技术指标均满足要求。
补充资料:轧辊残余应力(见轧辊应力)
轧辊残余应力(见轧辊应力)
residual stresses in roll
zhagun eanyu yingli轧辊残余应力(residual stresses in roll)见礼辐应力。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条