Evaluating the influence of humidity on asphalt mixture performance by the flow number test

2021 ◽  
Vol 284 ◽  
pp. 122754
Author(s):  
Lei Xi ◽  
Rong Luo ◽  
Hanqi Liu
Keyword(s):  
Asphalt Mixture ◽  
Flow Number

scholarly journals High Temperature Performance of SBS and LM-S Modified Asphalt Mixtures by Triaxial Test

2021 ◽  
Vol 293 ◽  
pp. 02029
Author(s):  
Tang-Baoli ◽  
Ren-yongqiang ◽  
Chen-Xiangmei ◽  
Hou-Huifang ◽  
Liang-Jianping
Keyword(s):  
High Temperature ◽  
Creep Rate ◽  
Permanent Deformation ◽  
Asphalt Mixture ◽  
Deviatoric Stress ◽  
Repeated Loading ◽  
Flow Number ◽  
Modified Asphalt ◽  
Temperature Performance ◽  
Sbs Modified Asphalt

In order to study the high temperature performance of LM-S modified asphalt mixture and SBS modified asphalt mixture, repeated loading creep test was used to study the influence of temperature and deviatoric stress on the axial permanent deformation of the two kinds of asphalt mixture. At the same time, Permanent deformation, ε@5000, flow number FN and creep rate were select to evaluation of high temperature performance from different directions. The results show that the ε@5000 and creep rate are failed in the condition of high temperature and large deviatoric stress, so it hast widely practicable. The flow number FN is also limited by the conditions, which leads to the distortion of the flow number at lower temperature and smaller deviatoric stress so it is not easy to direct used as the evaluation index. Axial permanent deformation can reflect the permanent deformation in different cycles which is an excellent index to evaluate the high temperature performance of the two kinds of asphalt mixture, it is recommended to use axial permanent deformation to compare the LM-S modified asphalt mixture and SBS modified asphalt mixture The experimental results show that the axial permanent deformation of the LM-S modified asphalt mixture is always less than that of SBS modified asphalt mixture,it indicating that the high temperature rutting resistance of the LM-S modified asphalt mixture is better than that of SBS modified asphalt mixture.

scholarly journals The Potential use of Crumb Rubber in Hot Asphalt Mixes in Egypt using Dry Process

2019 ◽  
Vol 9 (1) ◽  
pp. 4356-4360
Keyword(s):  
Mechanical Properties ◽  
Permanent Deformation ◽  
Asphalt Mixture ◽  
Road Construction ◽  
Crumb Rubber ◽  
Flow Number ◽  
Storage Container ◽  
Dry Process ◽  
Wet Process ◽  
Process Method

Since 1960 Using crumb rubber modifier (CRM) in hot asphalt mixtures has become a frequent practice in road construction. Using the CRM by the dry process method is not commonly used, although it has great advantages such as it is less fuel consuming and it does not require storage container like the wet process method. This research evaluates the mechanical properties of dense graded asphalt rubber mixtures manufactured using the dry process. The results obtained from this mixture compared with similar asphalt mixture without CRM. The mechanical properties of all mixtures evaluated using a set of tests such Marshall Stability and flow test, moisture susceptibility test, indirect tensile strength test, dynamic modulus and flow number test. The research results showed that using CRM with 0.75% of aggregate’s weight increased the mixture’s stability, flow and enhanced its cracking and permanent deformation resistance.

The effects of asphalt migration on the flow number of asphalt mixture

2019 ◽  
Vol 226 ◽  
pp. 442-448 ◽  
Author(s):  
Hui Wang ◽  
Shihao Zhan ◽  
Guojun Liu ◽  
Junwei Xiang
Keyword(s):  
Asphalt Mixture ◽  
Flow Number

scholarly journals Evaluation and Comparison of Mechanical Properties of Polymer-Modified Asphalt Mixtures

Polymers ◽  
2021 ◽  
Vol 13 (14) ◽  
pp. 2282
Author(s):  
Hamad Abdullah Alsolieman ◽  
Ali Mohammed Babalghaith ◽  
Zubair Ahmed Memon ◽  
Abdulrahman Saleh Al-Suhaibani ◽  
Abdalrhman Milad
Keyword(s):  
Mechanical Properties ◽  
Asphalt Mixture ◽  
Mechanical Tests ◽  
Polymer Modification ◽  
Flow Number ◽  
Study Objective ◽  
Asphalt Cement ◽  
Modified Asphalt ◽  
Pavement Distresses ◽  
Polymer Modified Asphalt

Polymer modification is extensively used in the Kingdom of Saudi Arabia (KSA) because the available asphalt cement does not satisfy the high-temperature requirements. It was widely used in KSA for more than two decades, and there is little information regarding the differences in the performance of different polymers approved for binder modification. Pavement engineers require performance comparisons among various polymers to select the best polymer for modification rather than make their selection based on satisfying binder specifications. Furthermore, the mechanical properties can help select polymer type, producing mixes of better resistance to specific pavement distresses. The study objective was to compare the mechanical properties of the various polymer-modified asphalt (PMA) mixtures that are widely used in the Riyadh region. Control mix and five other mixes with different polymers (Lucolast 7010, Anglomak 2144, Pavflex140, SBS KTR 401, and EE-2) were prepared. PMA mixtures were evaluated through different mechanical tests, including dynamic modulus, flow number, Hamburg wheel tracking, and indirect tensile strength. The results show an improvement in mechanical properties for all PMA mixtures relative to the control mixture. Based on the overall comparison, the asphalt mixture with polymer Anglomk2144 was ranked the best performing mixture, followed by Paveflex140 and EE-2.

Fine Aggregate Interference on Thermal Stability of Asphalt Mixture

2013 ◽  
Vol 470 ◽  
pp. 823-826
Author(s):  
Chen Chen Zhang ◽  
Guang Yang ◽  
Li Jia Zhou ◽  
Jing Hang Wu
Keyword(s):  
High Temperature ◽  
Asphalt Mixture ◽  
Aggregate Size ◽  
Maximum Aggregate Size ◽  
Fine Aggregate ◽  
Flow Number ◽  
Temperature Performance ◽  
Fine Aggregates ◽  
Thermal Stability Of ◽  
Skeleton Structure

Fine aggregates are sensitive parts to skeleton structure of mixture and decrease rutting resistance of asphalt mixtures. In order to evaluate the high temperature performance of mixtures with different fine aggregate (2.36mm and 1.18mm) content, 16 gradations were investigated. Flow number test and rutting test was conducted to evaluate anti-rutting performance of mixtures. Then, interference coefficient was put forward to analyze interference rule of high temperature performance. The results show that high temperature performance was improved with the increasing size of nominal maximum aggregate size; the interference effects of fine aggregate ( 2.36mm and 1.18 mm ) is inversely proportional to nominal maximum aggregate size.

Fiber-Reinforced Hot-Mix Asphalt: Idaho Case Study

2017 ◽  
Vol 2633 (1) ◽  
pp. 98-107 ◽  
Author(s):  
Ahmed Muftah ◽  
Amir Bahadori ◽  
Fouad Bayomy ◽  
Emad Kassem
Keyword(s):  
Laboratory Tests ◽  
Asphalt Mixture ◽  
Asphalt Mixtures ◽  
Fiber Reinforced ◽  
Flow Number ◽  
Indirect Tensile Test ◽  
Need To Evaluate ◽  
Indirect Tensile ◽  
The One

This paper presents the findings of a research study to determine the benefits of fiber-reinforced asphalt mixtures used to mitigate distresses observed in the field. Control asphalt mixture test sections were constructed on US-30 in Idaho, along with fiber-reinforced asphalt mixture test sections. Three types of fibers were evaluated: Fiber 1 (i.e., aramid and polyolefin fiber), Fiber 2 (i.e., wax-treated aramid fiber), and Fiber 3 (i.e., glass fiber). Several laboratory tests were conducted on laboratory-prepared test samples and extracted field cores. The laboratory tests included dynamic modulus, flow number, Hamburg wheel-track test, indirect tensile test, creep compliance, and semicircular bending, in addition to performance evaluation with AASHTOWare Pavement ME Design software. The laboratory results showed no significant improvement to the properties of asphalt mixtures at the fiber content recommended by the manufacturer. However, the performance of asphalt mixtures did improve at a fiber dosage higher than the one recommended by the manufacturer. This study demonstrated the need to evaluate different fiber contents when asphalt mixtures are designed, because the dosage recommended by the manufacturer may not be optimal for various asphalt mixtures.

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