Estimation and assessment of high temperature mix performance grade for select bio-based WMA additives

Joseph Herbert Podolsky; R. Christopher Williams

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Estimation and assessment of high temperature mix performance grade for select bio-based WMA additives

机译：精选生物基WMA添加剂高温混合性能等级的评估和评估

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摘要

The Hirsch and Al-Khateeb models are commonly used to predict an asphalt mixture's dynamic modulus (E~*) at intermediate temperatures. However, G~*_b and the mix volumetrics are needed to make these predictions. The main objectives of this paper are to demonstrate how mix testing and binder results can be used to estimate the high temperature performance grade (PG) of warm mix asphalts (WMA) with and without bio-based additives and to compare dynamic modulus performance between different asphalt binders and select bio-based additives. The results indicate that prediction of high temperature performance grade for an asphalt mixture cannot be done using the Hirsch model, but is possible using the Al-Khateeb model and that the additives and non-modified binder were not found to be statistically different from one another overall as well as within each binder type.

机译：Hirsch和Al-Khateeb模型通常用于预测中间温度下沥青混合料的动态模量（E〜*）。但是，需要G〜* _b和混合体积来进行这些预测。本文的主要目的是演示如何使用混合测试和粘合剂结果来估算含或不含生物基添加剂的温拌沥青（WMA）的高温性能等级（PG），以及比较不同添加剂之间的动态模量性能沥青粘合剂和精选生物基添加剂。结果表明，使用Hirsch模型无法预测沥青混合料的高温性能等级，但使用Al-Khateeb模型则可以预测高温添加剂的性能，并且未发现添加剂和未改性粘合剂之间的统计学差异整体以及每种粘合剂类型内。

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来源
《Construction and Building Materials》 |2014年第30期|310-322|共13页
作者
Joseph Herbert Podolsky; R. Christopher Williams;
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作者单位

Iowa State University, Department of Civil, Construction, and Environmental Engineering, 174 Town Engineering, Ames, IA, United States;

Iowa State University, Department of Civil, Construction, and Environmental Engineering, 490 Town Engineering, Ames, IA, United States;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
E~*; G~*_b; WMA; Hirsch model; Al-Khateeb model; Bio-based additives;

机译：E〜*;G〜* _b;WMA;赫希模型Al-Khateeb模型;生物基添加剂;

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1. Production temperatures and mechanical performance of rubberized asphalt mixtures modified with two warm mix asphalt (WMA) additives [J] . Mahmoud Ameri, Farzad Yazdipanah, Arash Rahimi Yengejeh, Materials and structures . 2020,第4期

机译：橡胶沥青混合物的生产温度和机械性能用两种温热沥青（WMA）添加剂改性
2. Characterisation of the mechanical performance of asphalt concrete mixtures with selected WMA additives [J] . Kassem Hussein A., Chehab Ghassan R. The international journal of pavement engineering . 2021,第5a6期

机译：选定WMA添加剂沥青混凝土混合物力学性能的特征
3. Effects of WMA Additive on the Rheological Properties of Asphalt Binder and High Temperature Performance Grade [J] . JiupengZhang, GuoqiangLiu, LiXu, Advances in materials science and engineering . 2015,第1期

机译：WMA添加剂对沥青粘结剂流变性能和高温性能等级的影响。
4. Selecting Warm Mix Asphalt (WMA) Additives by the Properties of WMA Binders [C] . Pengcheng Shi, Zhaoxing Xie, Wenzhong Fan International Conference on Advanced Engineering Materials and Technology . 2013

机译：通过WMA粘合剂的性质选择温热的沥青（WMA）添加剂
5. Development of a testing temperature to be used with the Hamburg Wheel Tracking Device on asphalt mixtures that utilize performance grade binders. [D] . Nielson, Jason. 2010

机译：开发与汉堡车轮跟踪设备一起使用的高性能沥青粘合剂的测试温度。
6. Performance Assessment of Asphalt Mixture Produced with a Bio-Based Binder [O] . Elena Gaudenzi, Francesco Canestrari, Xiaohu Lu, 2021

机译：用生物基粘合剂生产的沥青混合料的性能评估
7. Stone Matrix Asphalt (SMA) is a gap-graded mix that is gaining popularity worldwide. Generally, gap graded mixes are thought to be weak in fatigue resistance. In this study, cellulose fibers were pre-blended in PG64-22 binder with fiber proportions of 0.2%, 0.4%, 0.6%, 0.8% and 1.0% by weight of aggregates. The fiber-modified binder showed improved rheological properties and showed that the PG64-22 binder can be modified and raised to PG70-22 grade. The cellulose oil palm fiber (COPF) was found to improve the diameteral fatigue performance of SMA design mix. The fatigue life increased to a maximum at a fiber content of about 0.6%, whilst the tensile stress and stiffness also showed a similar trend in performance. The initial strains of the mix were lowest at a fiber content of 0.6%. [O] . Ratnasamy Muniandy, Bujang B.K. Huat 2006

机译：石基沥青（SMA）是一种间隙分级的混合物，在全球范围内越来越受欢迎。通常，间隙梯度混合料被认为抗疲劳性较弱。在这项研究中，将纤维素纤维预先掺入PG64-22粘合剂中，纤维比例为集料重量的0.2％，0.4％，0.6％，0.8％和1.0％。纤维改性的粘合剂表现出改善的流变性能，并表明PG64-22粘合剂可以被改性并提高到PG70-22级。发现纤维素油棕纤维（COPF）可以改善SMA设计混合物的直径疲劳性能。在约0.6％的纤维含量下，疲劳寿命增加到最大值，而拉伸应力和刚度也表现出相似的性能趋势。混合物的初始应变在纤维含量为0.6％时最低。
8. Performance Assessment of Warm Mix Asphalt (WMA) Pavements [R] . Sargand, S., Figueroa, J. L., Edwards, W., 2009

机译：暖拌沥青（Wma）路面的性能评估

Estimation and assessment of high temperature mix performance grade for select bio-based WMA additives

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