2) fiber asphalt
纤维沥青
1.
The fiber asphalt is studied by a series of capability experiments,such as fiber adsorption of asphalt experiment,fiber asphalt adhesive property experiment,fiber asphalt shear capability experiment.
采用纤维吸持沥青试验、纤维沥青粘附性试验、纤维沥青剪切强度等对几种掺常用路用纤维的纤维沥青进行了性能试验,研究纤维沥青的性能。
2.
Based on the reinforced mechanism of fibers, the paper analyze the capacity of fiber asphalt and fiber strengthened asphalt mixture through the test of fiber asphalt ,the Marshall test and pavement performance test of fiber strengthened asphalt mixture.
本文在对纤维作用机理分析的基础上,结合纤维沥青性能分析试验、纤维沥青混合料的马歇尔试验和路用性能试验,研究了纤维沥青和纤维沥青混合料各方面的性能,对纤维沥青混合料应用和配合比设计提出了建议。
3) fiber-enhanced asphalt concrete
纤维沥青砼
1.
The model-temperature in road construction is simulated by multi-index orthogonal test,and the characteristics of three mixing methods including the dry-mixing method,wet-mixing method and compound-mixing method are elaborated,and the effects of different mixing methods and model temperatures on Marshall index of fiber-enhanced asphalt concrete are analysed in Marshall test.
采用多指标正交试验,模拟路面施工时的压实温度,运用极差分析法和综合平衡法确定了纤维沥青砼生产和施工的优化方案,通过马歇尔试验研究,阐述了干拌法、湿拌法和后拌法等3种拌和工艺的特点,分析了3种拌和工艺和压实温度对纤维沥青砼马歇尔指标的影响。
4) pitch fibre pipe
沥青纤维管
5) pitch carbon fiber
沥青碳纤维
1.
The production capacity of the pitch carbon fiber is on a small scale, though the research in out country is carried out for a long time from the beginning, there are great gap compared with the foreign countries in the research and production application.
沥青碳纤维研制要经过原料沥青的精制,沥青的调制,而后形成沥青碳纤维原丝,沥青碳纤维原丝必须经过预氧化和碳化处理,才能成为工业可用的碳纤维丝。
6) mesophase pitch fibers
中间相沥青纤维
1.
Block carbon materials with high thermal conductivities were prepared from mesophase pitch fibers by using their high preferred orientation of pitch molecular and appropriate thermoplasticity through a hot-pressing method.
利用中间相沥青纤维中沥青分子的高度择优取向和适度的热塑性热压制备高导热块体炭材料。
补充资料:再生橡胶-沥青-纤维粉防水卷材
分子式:
CAS号:
性质:系以再生橡胶、沥青、废纤维粉经混合、压延、成卷,制成的非硫化型防水卷材。此种卷材价格较低,可作为一般防水用途,用于一些不十分重要的建筑领域。
CAS号:
性质:系以再生橡胶、沥青、废纤维粉经混合、压延、成卷,制成的非硫化型防水卷材。此种卷材价格较低,可作为一般防水用途,用于一些不十分重要的建筑领域。
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