The Correlation between Compaction Degree and Performance Life of Asphalt Concrete

Inadequate compaction of wearing course of asphalt concrete is a common phenomenon in road construction. Contractors choose to apply a minimum compaction effort in order to cut costs and speed up construction process. Even though the requirement set by relevant authorities such as, Jabatan Kerja...

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Bibliographic Details
Main Author: Intan Kumalasari, Intan
Format: Thesis
Language:English
Published: 2008
Subjects:
Online Access:http://utpedia.utp.edu.my/741/1/intan_kumalasari.pdf
http://utpedia.utp.edu.my/741/
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Institution: Universiti Teknologi Petronas
Language: English
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Summary:Inadequate compaction of wearing course of asphalt concrete is a common phenomenon in road construction. Contractors choose to apply a minimum compaction effort in order to cut costs and speed up construction process. Even though the requirement set by relevant authorities such as, Jabatan Kerja Raya (JKR), most of the end product failed to achieve this requirement. Inadequate compaction results in pavement with reduced rutting and fatigue life. This study aims to establish a correlation between compaction degree and performance life of asphalt concrete. Such correlations will provide awareness to the practitioner that the void content is a crucial factor in the performance life of asphalt concrete. Three types of tests were carried out to provide quantitative information on performance life of asphalt concrete at various degrees of compaction. The tests were dynamic creep test, fatigue test and wheel tracking test. The mix type is wearing course and the mix designation is asphalt concrete wearing course or ACW20. The material includes asphalt cement, aggregate and cement as tiller. Based on JKR recommendation, penetration graded asphalts were used. The sieve analysis was performed according to JKR specifications. From dynamic creep test, the correlation between compaction degree and rutting life obtained was Y,%. = 4. x 10-145X 7767`('l ow orosit YA 10 X 1217 (medium porosity) and YA = (3 x 10"t') X, 13308(h igh porosity). where Y,, as rutting life in rasa and XA as compaction degree in percentage. Low porosity specimen is less susceptibility to rut depth than the high porosity specimen. The correlation between porosity and rate of wheel tracking obtained in this study was Yn = 0.0018 Xa 18 624w ith R` =0.7138, where Yß is rate of wheel tracking in mm/min and XE4 is porosity. This correlation emphasizes that low porosity specimen is more resistant to permanent deformation than high porosity specimen. For fatigue failure, the same trend can be concluded.