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作者:Dipti Ranjan Biswal , Umesh Chandra Sahoo , Suresh Ranjan Dash
来源:[J].Road Materials and Pavement Design(IF 0.642), 2020, Vol.21 (3), pp.835-849
摘要:Modulus of pavement materials is an important input parameter for the mechanistic design of pavements. As the bound layers such as cement-stabilised materials fail in flexure, flexural modulus (FM) is generally used as the modulus of stabilised material for the analysis of paveme...
作者:Lev Khazanovich , Eyal Levenberg
来源:[J].Road Materials and Pavement Design(IF 0.642), 2020, Vol.21 (3), pp.800-820
摘要:This work contributed an analytical quasistatic solution to the problem of an infinite viscoelastic plate supported on a Pasternak foundation and subjected to axisymmetric normal loading. The derivation was based on defining a set of iterative functions, each containing info...
作者:Yanjun Qiu , Haibo Ding , Ali Rahman ...
来源:[J].Road Materials and Pavement Design(IF 0.642), 2020, Vol.21 (1), pp.78-93
摘要:This paper aims to reasonably evaluate the reversible aging resistance of asphalt binders and comprehend the effects of low-temperature gradually hardening on fundamental properties of asphalt binders. To do so, extended bending beam rheometer (ExBBR) test with prolonged differen...
作者:A. Bayat , A. Hassani , O. Azami
来源:[J].Road Materials and Pavement Design(IF 0.642), 2020, Vol.21 (2), pp.411-433
摘要:This study conducts an experimental programme to investigate the possibility of utilising a binary combination of red mud (RM) and slag in the form of alkali-activated slag-RM (AASR) as a useful material for application in jointed plain concrete pavement (JPCP). Slag was replaced...
作者:Abbas Mohajerani , Halenur Kurmus , Linda Tran ...
来源:[J].Road Materials and Pavement Design(IF 0.642), 2020, Vol.21 (2), pp.467-485
摘要:The Clegg impact hammer (CIH) was developed by Baden Clegg for engineering purposes in 1976. The CIH was designed to measure and control the mechanical properties of road materials during construction. Nowadays, the device is used all around the world for a wide range of applicat...
作者:Conglin Chen , Joseph H. Podolsky , R. Christopher Williams ...
来源:[J].Road Materials and Pavement Design(IF 0.642), 2020, Vol.21 (2), pp.347-373
摘要:This investigation examines the rheological properties and effects of aging on laboratory produced acrylated epoxidised soybean oil (AESO) monomer (LabAESO) and commercially available AESO (ComAESO)-modified asphalt binders at various concentration levels. The rheological cu...
作者:Alexander Alisov , Chiara Riccardi , Johannes Schrader ...
来源:[J].Road Materials and Pavement Design(IF 0.642), 2020, Vol.21 (1), pp.143-155
摘要:The current experimental method used in Europe to characterise asphalt binder at high temperature is based on the Ring & Ball softening point. However, for modified binders it was demonstrated that such a method is unable to correctly characterise the material. In the presen...
作者:Mohsen Aboutalebi Esfahani , Mohammad Namavar Jahromi
来源:[J].Road Materials and Pavement Design(IF 0.642), 2020, Vol.21 (3), pp.683-700
摘要:Fibre is additive to hot mix asphalt that can improve fatigue life, rutting resistance, durability of asphalt concrete mixtures, creep compliance, tensile strength, dynamic modulus, elasticity, viscoelasticity, and reflective cracking. The fibres can be useful in controlling the ...
作者:Mohammad Ali Khasawneh , Nadim I. Shbeeb , Aslam A. Al-Omari
来源:[J].Road Materials and Pavement Design(IF 0.642), 2020, Vol.21 (3), pp.737-756
摘要:The reproduction of asphalt pavement surface texture deterioration in the laboratory is usually lengthy. The objective of this work is to find an analytical tool to predict the steady-state mean texture depth (MTD) early in the experiment in order to save time. Data were obt...
作者:Anant Lal Murmu , Nupur Dhole , Anjan Patel
来源:[J].Road Materials and Pavement Design(IF 0.642), 2020, Vol.21 (3), pp.867-885
摘要:It is a common practice around the world to stabilise black cotton soil using lime or cement to improve the strength of stabilised sub-base and subgrade soil. However, production of cement and lime is highly energy intensive. It is also reported to emit large quantity of CO<...

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