A Study of Moisture Damage in Plastomeric Polymer Modified Asphalt Binder Using Functionalized AFM Tips

• Main Authors: Rafiqul Tarefder, Md Arifuzzaman
• Format: Article
• Language: English
• Published: International Institute of Informatics and Cybernetics 2011-12-01
• Series: Journal of Systemics, Cybernetics and Informatics
• Subjects: Moisture Damage; Plastomer And Surface Roughness; Adhesion Force; Asphalt; Antistripping Agents; Atomic Force Microscopy
• Online Access: http://www.iiisci.org/Journal/CV$/sci/pdfs/RO586JX.pdf

In this study, moisture damage in plastomeric polymer modified asphalt binder is investigated using Atomic Force Microscopy (AFM) with chemically functionalized AFM tips. Four different percentages of plastomeric polymers and two antistripping agents such as Kling Beta and Lime are used to modify a base asphalt binder. Chemical functional groups such as -COOH, -CH3, -NH3, and –OH, that are commonly present in plastomeric polymer modified asphalt system, are used to functionalize the AFM tips. The force distance mode of AFM is used to measure the adhesion forces between a modified asphalt sample surface and the functionalized AFM tips. This enables the measurement of adhesion within an asphalt binder system. It is shown that the adhesion force values in dry sample changed substantially from that in wet conditioned samples. It is evident from this study that plastomeric modification does not help reduce moisture damage in asphalt. The percentage change in adhesion forces due to moisture is about 20 nN for the lime modified samples, and about 50 nN for the Kling Beta modified samples. This indicates that lime is more effective than Kling Beta for reducing moisture damage in plastomeric polymer modified asphalt.