沥青混凝土老化的纳米压痕表征

Journal of nanomechanics & micromechanics Pub Date : 2014-03-01 DOI:10.1061/(ASCE)NM.2153-5477.0000061

R. Tarefder, H. Faisal

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引用次数: 42

摘要

摘要沥青混凝土由粗集料、沥青粘结剂和细粉组成。沥青粘合剂在粗骨料和细粒周围形成沥青膜。细粒被困在粘合剂薄膜中，也被称为胶乳。胶粘剂和骨料决定了AC的大部分力学性能。因此，研究人员对胶粘剂进行了各种测试，以了解AC的宏观行为。纳米力学表征更适合于胶粘剂，因为胶粘剂的厚度约为15-20 μm。在本文中，作者对作为AC的组成部分的胶泥和骨料进行了纳米压痕试验，特别是比较了烘干后的胶泥和骨料与未烘干后的胶泥和骨料的模量和硬度。为了处理乳脂部分的不均匀性，他们在每个AC样品的乳脂部分做了数百个凹痕。在骨料部分，他们做了60个压痕来测定骨料的力学性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Nanoindentation Characterization of Asphalt Concrete Aging

AbstractAsphalt concrete (AC) consists of coarse aggregate, asphalt binder, and fines. The asphalt binder creates an asphalt film around the coarse aggregate and fines. Fines are trapped inside the binder film, which is also known as mastic. Mastic and aggregate govern most of the mechanical properties of AC. Therefore, researchers have performed various tests on mastic to understand macroscale behavior of AC. Nanomechanical characterization is more appropriate for mastic, as the thinness of mastic is approximately 15–20 μm around an aggregate particle. For this paper, the authors conducted nanoindentation tests on mastic and aggregate as integral parts of AC. In particular, they compared the modulus and hardness of oven-aged mastic and aggregate with those of unaged mastic and aggregate. To deal with the heterogeneity of the mastic part, they made hundreds of indents on the mastic part of each AC sample. On the aggregate part, they made 60 indents to determine the mechanical properties of the aggregate o...

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Journal of nanomechanics & micromechanics

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