多重应力蠕变恢复(MSCR)试验测定废机油改性沥青粘结剂作为路面材料

Biruk Tadele, Emer Tucay Quezon
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引用次数: 0

摘要

工程师们一直在使用改性粘合剂来提高柔性路面的质量。废料的利用是朝这个方向采取的解决办法之一。正是基于此,本研究重点对废机油作为沥青粘结剂的路面材料进行了评价。在研究中,使用了从80/100渗透级沥青中提取的四个样品。从四个样品中,首先检查了沥青粘结剂是否满足天气要求,然后用不同含量的机油(3,6和9%)对三个样品进行了改性。对未改性和改性的粘结剂进行了流变学性质的研究。采用动态剪切流变仪(DSR)测定了粘结剂的高温性能等级(PG),并通过多次应力蠕变恢复试验测定了粘结剂的抗车辙性能。PG分析表明,老化和未老化的3%和6%改性胶粘剂的PG值与未改性胶粘剂相似,而9%改性胶粘剂的PG值较低。改性沥青粘结剂的Jnr3.2值低于未改性的粘结剂,表明改性提高了抗车辙性能和设计交通荷载(ESALS)。研究表明,利用废机油改性粘结剂作为路面材料是可行的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multiple Stress Creep Recovery (MSCR) Test for Determination of Waste Engine Oil Modified Asphalt Binder as Pavement Material
Engineers have been using modified binders to improve the quality of flexible pavements. The use of waste material is one of the solutions taken in this direction. It is for this ground that the studies emphasis on the evaluation of waste engine oil as a modifier for asphalt binder as a pavement material. In the study uses four samples extracted from 80/100 penetration grade bitumen. From four sample first sample was checked for weather requirements of asphalt binder meet or not and the three were modified with different content of engine oil (3,6 and 9%). The behaviors of both unmodified and modified binder were checked for rheological properties. Dynamic shear rheometer (DSR) was used to determine high temperature performance grade (PG) and multiple stress creep recovery tests to determine rutting resistance properties of the binder. PG analysis indicates that both aged and un-aged 3% and 6% modified binder have similar higher PG grade with the unmodified one and 9% modified to have lower PG vale. Jnr3.2 value of modified asphalt binder is lower than unmodified binder indicating that modification had improved the rutting resistance and design traffic load (ESALS). The study shows that it is possible to use waste engine oil-modified binder as a pavement material.
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