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不同基层类型对沥青面层低温收缩性能影响的研究 被引量:1
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作者 徐永丽 郭阳 孙志棋 《中外公路》 2023年第4期75-79,共5页
为了研究不同基层类型对沥青面层低温收缩性能的影响,针对半刚性基层和柔性基层两种类型,设计两种沥青路面组合结构:AC‑16+水泥稳定碎石和AC‑16+沥青稳定碎石。在两种材料侧面的中心和层间界面特征位置粘贴应变片,采用电阻应变片测量法... 为了研究不同基层类型对沥青面层低温收缩性能的影响,针对半刚性基层和柔性基层两种类型,设计两种沥青路面组合结构:AC‑16+水泥稳定碎石和AC‑16+沥青稳定碎石。在两种材料侧面的中心和层间界面特征位置粘贴应变片,采用电阻应变片测量法,进行组合结构的温缩试验,获得在降温过程中各个位置的应变变化,分析基层类型对面层低温收缩性能的影响,试验温度为-30~20℃,每10℃为一个温度范围。研究结果表明:在同一温度下,柔性基层各特征位置处的应变值与沥青面层十分接近,两者绝对差值为3.1%;柔性基层对应的沥青面层温缩应变更接近自由态的单体变形;在各温度范围内,柔性基层对沥青面层的约束应变与半刚性基层结构相比平均降低了76.7%;随着温度的降低,层间应变差量平均值增大,柔性基层结构的层间应变差量远小于半刚性基层结构。研究结果较好地解释了不同基层类型下沥青面层低温收缩能力的差别,可为寒冷地区沥青路面结构提供较好的理论支撑。 展开更多
关键词 道路工程 温度收缩应变 温缩试验 沥青路面 基层类型 层间应变差量 温缩系数
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Experimental and theoretical study on thermal and moisture characteristics of new-type bamboo structure wall
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作者 李念平 龙激波 +2 位作者 苏林 王厉 钟珊 《Journal of Central South University》 SCIE EI CAS 2012年第3期600-608,共9页
Thermal and moisture characteristics of the bamboo structure wall were tested in natural climate and three representative variation processes of heat and moisture: heating from solar radiation in summer at normal tem... Thermal and moisture characteristics of the bamboo structure wall were tested in natural climate and three representative variation processes of heat and moisture: heating from solar radiation in summer at normal temperature and humidity, heating from solar radiation in summer at normal temperature and high humidity after rain, humidifying from brash in summer at high temperature and normal humidity. The results show that, in summer, the largest temperature difference between external and internal surface of the 28 mm-thick bamboo plywood wall is 11.73℃ (at 15:40) and the largest strain difference is 136 μm/m (at 18:50), both in ambient and indoor conditioned environment. In heating process, lengthways of the wall surface are in contracting strain while transverse ways are in expanding strain at initial stage and in contracting strain during later period. When the high temperature wall is humidified by rain, the surface temperature drops, moisture content increases and the expanding strain is presented on the surface during the whole process. Temperature and moisture content are two important factors which affect thermal and moisture stress (TMS) of the bamboo structure wall. The TMS is not only related to temperature and moisture content, but also greatly affected by temperature gradient, moisture content gradient and rates of changing. 展开更多
关键词 porous media bamboo structure thermal expansion moisture expansion thermal and moisture stress
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