On the influence of basic thermodynamics on thermal cracking resistance of asphalt mixtures in cooling tests

Q2 Engineering
D. Steiner, B. Hofko
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引用次数: 2

Abstract

The cooling test or Thermal Stress Restrained Specimen Test (TSRST) simulates fully restrained pavements, as they occur in field for laboratory assessment of the thermal cracking resistance of asphalt mixtures. In the TSRST, cryogenic stress builds up due to cooling and prevented shrinkage until the tensile strength of the specimen is exceeded and the specimen fails by cracking. By carrying out TSRST various viscoelastic parameters, e.g. relaxation, evolution of tensile stresses, and tensile strength can be analyzed. Thus, a comprehensive view on the low temperature performance is possible. Standard TSRST is controlled by setting the cooling rate of the air within the chamber at a fixed value, e.g. -10°C/h. In thermodynamics, the actual cooling rate of objects is not only influenced by the cooling but also by external conditions like humidity, air velocity, radiation condition, etc. A current study investigates the impact of additional cooling parameters rather than just the air cooling rate. Two test machines of the same manufacturer that differ in the year of production and the setup of the climate chamber are compared. An initial wide scatter of test results from the two devices could be explained by taking thermodynamics into account and the reproducibility could be significantly enhanced.
冷却试验中基本热力学对沥青混合料抗热裂性的影响
冷却试验或热应力约束试样试验(TSRST)模拟完全约束路面,因为它们发生在现场的实验室评估沥青混合物的抗热裂性。在TSRST中,由于冷却和防止收缩,低温应力积聚,直到超过试样的抗拉强度,试样因开裂而失效。通过进行TSRST,可以分析各种粘弹性参数,如松弛、拉应力演化和抗拉强度。因此,全面了解低温性能是可能的。标准TSRST是通过将室内空气的冷却速率设置为固定值(例如-10°C/h)来控制的。在热力学中,物体的实际冷却速度不仅受冷却的影响,还受外界条件如湿度、空气速度、辐射条件等的影响。目前的一项研究调查了额外冷却参数的影响,而不仅仅是空气冷却速率。对同一厂家生产年份不同、气候室设置不同的两台试验机进行了比较。由于热力学因素的影响,两种装置的初始测试结果的广泛分散可以得到解释,并且可重复性可以显着提高。
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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来源期刊
RILEM Technical Letters
RILEM Technical Letters Materials Science-Materials Science (all)
CiteScore
5.00
自引率
0.00%
发文量
13
审稿时长
10 weeks
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