利用湿法探索 MPP 改性沥青粘结剂和混合料的低温性能

IF 1.1 4区 工程技术 Q3 ENGINEERING, CIVIL
Ali Qabur, H. Baaj, M. El-Hakim
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引用次数: 0

摘要

热裂缝会严重影响柔性路面的结构完整性,尤其是在加拿大等寒冷地区。采用湿法对沥青粘结剂和混合料进行塑料改性对沥青材料低温性能影响的研究有限。本项目使用的塑料材料是多层塑料包装(MPP)。本研究旨在确定 MPP 是否可用于提高 MPP 改性粘结剂和 MPP 改性混合料的性能,特别是考虑到 MPP 占塑料总用量的 40% 多一点,是最大的终端用途细分市场。本研究评估了在传统热拌沥青中引入 MPP 添加剂对流变学和机械性能的影响。这项研究采用湿法测试了 MPP 改性沥青材料,其添加量分别为 2%、4% 和 8%(按沥青粘结剂重量计)。测试结果表明,MPP 改性百分比最好不要超过 2%,因为 MPP 含量为 4% 或更高的混合料在低温下性能较差。使用较软的粘结剂作为基质粘结剂将有助于提高 MPP 改性率,但这一假设还需要实验验证。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exploring the low-temperature performance of MPP-modified asphalt binders and mixtures using wet method
Thermal cracking significantly impacts the structural integrity of flexible pavements, particularly in colder regions like Canada. Limited studies investigated the impact of plastic modification of asphalt binders and mixtures using the wet method on the low-temperature performance of asphalt materials. The plastic material utilized in this project is multilayer plastic packaging (MPP). This study aims to determine whether MPP can be integrated to enhance the performance of the MPP-modified binder and MPP-modified mixtures, especially considering that MPP accounts for just over 40% of total plastic usage, making it the largest end-use market segment. This research evaluates the impact on rheological and mechanical behaviour when introducing MPP additives to conventional hot mix asphalt. This study used the wet method to test MPP-modified asphalt materials at 2%, 4%, and 8% (by weight of the asphalt binder). Test results demonstrate that the MPP modification percentage should ideally not exceed 2% as blends with 4% MPP or higher exhibited lower performance at low temperatures. The use of a softer binder as a base binder would help increase the MPP modification rates, but this hypothesis needs to be validated experimentally.
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来源期刊
Canadian Journal of Civil Engineering
Canadian Journal of Civil Engineering 工程技术-工程:土木
CiteScore
3.00
自引率
7.10%
发文量
105
审稿时长
14 months
期刊介绍: The Canadian Journal of Civil Engineering is the official journal of the Canadian Society for Civil Engineering. It contains articles on environmental engineering, hydrotechnical engineering, structural engineering, construction engineering, engineering mechanics, engineering materials, and history of civil engineering. Contributors include recognized researchers and practitioners in industry, government, and academia. New developments in engineering design and construction are also featured.
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