Indian Institute of Technology Kharagpur

About: Indian Institute of Technology Kharagpur is a education organization based out in Kharagpur, India. It is known for research contribution in the topics: Natural rubber & Dielectric. The organization has 16887 authors who have published 38658 publications receiving 714526 citations.

Development and characterization of Al2Cu and Ag2Al nanoparticle dispersed water and ethylene glycol based nanofluid

Abstract: Nanofluids offer excellent scope of enhancing thermal conductivity of common heat transfer fluids In the present study, we have synthesized Al 2 Cu and Ag 2 Al nanoparticles by mechanical alloying, prepared nanofluids by dispersing about 02–15 vol% these nanoparticles in water and ethylene glycol, characterized the size/microstructure of nanoparticles by X-ray diffraction and transmission electron microscopy, and measured the thermal conductivity of nanofluid using a modified thermal comparator The results indicate that the present nanofluids records 50–150% improvement in thermal conductivity Both experimental results and analytical study indicate that the degree of enhancement strongly depends on identity/composition, size, volume fraction and shape (aspect ratio) of the dispersed nanoparticles

Laboratory evaluation of crumb rubber modified asphalt mixes

Abstract: The paper presents the details of various investigations conducted for the laboratory evaluation of the performance of crumb–rubber modified asphalt mixes. Crumb rubber (CR) obtained from discarded truck and bus tires was used to modify 80/100 penetration grade asphalt cement. Fatigue and permanent deformation characteristics, temperature and moisture susceptibility, and oxidative aging are some of the performance indicators of mixes evaluated. A static indentation test was adopted for assessing the relative permanent deformation characteristics of different mixes. Three aggregate gradations: (1) superpave; (2) gradation specified by the Ministry of Surface Transport, India for asphalt concrete; and (3) one gap gradation, were considered in the investigation. Compared to normal mixes, CR modified mixes were found to have improved fatigue and permanent deformation characteristics. They also showed lower temperature susceptibility and greater resistance to moisture damage compared to normal mixes. Superpave mixes gave better overall performance compared to the mixes having other aggregate gradations.