Browsing by Author "Rassool, RP"
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- ItemSimulations and design of a compact beamline for Inverse compton scattering at the University of Melbourne X-lab.(Australian Institute of Physics, 2022-12-11) Taylor, GN; Volpi, M; Rassool, RP; Dowd, RT; William, SD; Sheehy, SLA presentation of the conceptual design and simulation of a compact beamline using high gradient X-band accelerating structures at the University of Melbourne X-lab which can be used as input for an Inverse Compton Scattering X-ray light source.
- ItemThe southern hemisphere’s first X-band radio-frequency test facility at the University of Melbourne.(Australian Institute of Physics, 2022-12-11) Pushkarna, D; Taylor, GN; Volpi, M; Rassool, RP; Dowd, RT; Williams, SD; Sheehy, SLThe first Southern Hemisphere X-band Laboratory for Accelerators and Beams (X-LAB) is under construction at the University of Melbourne, it will form the basis for developing a compact accelerator for medical applications, such as radiotherapy and compact light sources.
- ItemWear resistance and microstructural study of diamond coated WC tools(Trans Tech Publications, 2010-08-02) Boland, JN; Li, XS; Rassool, RP; MacRae, CM; Wilson, NC; Elbracht, S; Luzin, V; Imperia, P; Sobott, BDiamond composite materials are classified as superhard and exhibit exceptional abrasive resistance. Cemented tungsten carbide tools with a thick coating of diamond composite material (PCD) are finding increased usage in materials cutting operations in manufacturing, mining, minerals, gas and petroleum exploration and civil construction industries. Two major advantages derived from these coated tools are: (a) increased wear resistance and hence increased life-span of these tools and (b) their proven ability to handle “difficult-to-machine” materials as well as high-strength, extremely abrasive materials such as quartz-rich rocks, granites and basalts. In this research, the variability of the wear resistance of PCD coated tungsten carbide is correlated with microstructural variations. A detailed study of the microstructure and distribution of phases was performed using SEM, cathodoluminescence (CL) imaging, direct x-ray imaging, Raman spectroscopy as well as residual stress measurements using neutron diffraction. © 2010 Trans Tech Publications Ltd