A Method for the Determination of Mixing Temperatures of Different Components of Recycled Hot Mix Asphalt Mixtures

Gottumukkala, Bharath and Mullapudi, Ramya Sri and Reddy, Kiran Kumar and Kusam, Sudhakar Reddy (2022) A Method for the Determination of Mixing Temperatures of Different Components of Recycled Hot Mix Asphalt Mixtures. International Journal of Pavement Research and Technology. ISSN 1996-6814

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Abstract

To produce reclaimed asphalt pavement (RAP) mixes in plant using hot recycling technique, virgin aggregate is super-heated to heat the RAP by conduction. The temperature to which virgin aggregates are to be heated will depend on the RAP percentage in the mix, quality of RAP and the quantity and quality of virgin binder and RAP preheat temperature. In the present study an investigation has been carried out to examine the heat transfer characteristics of RAP mixes to propose a simple method for determination of superheated virgin aggregate and RAP temperatures to be adopted for preparation of RAP mixes. For this purpose an empirical equation has been developed for estimating the super-heating temperature of virgin aggregates as a function of RAP content, RAP preheat temperature and mixing temperature. Effect of mixing temperature on bulk density and mechanical properties was also evaluated in this study. Correlations were developed between mixing temperature and bulk density, mechanical properties (Indirect tensile strength and resilient modulus). Effect of RAP preheat temperatures and virgin aggregate temperatures are having higher effect on mechanical properties for lower RAP content when compared with higher RAP content. It is also observed that using higher percentages of RAP will require either higher preheating temperatures of RAP or higher virgin aggregate temperatures. From the ANOVA analysis it was observed that for lower RAP contents (up to 25%) preheat temperature of RAP material had significant effect on mechanical properties, on the other hand for higher RAP contents (40%) both RAP preheat and superheated virgin aggregate temperature played an equal role on the mechanical properties. © 2022, The Author(s), under exclusive licence to Chinese Society of Pavement Engineering.

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