Deakin's Corrosion Research Centre is home to exceptional research and testing facilities that include the National Facility for Pipeline Coating Assessment. The Centre's focus is on innovative corrosion and materials research and testing.
Expertise in trace microanalysis on materials and minerals in both point analysis and mapping modes. Advanced data analysis capability implemented in a software package developed by the group - Chimage. This package allows hyperspectral mapping data to be clustered, phaes automatically assigned and quantified.
The Rapid Automated Materials and Processing Centre (RAMP) provides user-pays access to state of the art robotics, automated materials synthesis & characterisation instrumentation in a world-class facility. We aid materials manufacturing, research and development processes, enabling productivity gains through the use of various High-Throughput materials synthesis, characterisation and performance assessment methods.
The Monash Immersive Visualisation Platform features CAVE2(TM) - a world-leading capability for the display and interactive exploration of rich and large datasets. It is used by scientists, engineers and artists to visualise, manipulate and comprehend data such as engineering models, multi-dimensional images across the size scale from nanoscopic to cosmic, and the outputs of scientific, computational and engineering simulations across the physical and life sciences and the arts and humanities.
Metallic Additive Manufacturing, 3D Printing, Metallic Additive Manufacturing, Metallic 3D Printing, Design, 3D Design, Prototyping, Rapid Prototyping, 3D Prototyping, Biomedical, Manufacturing, Biomedical Manufacturing, Arcam, EBM, Arcam EBM, Concept Laser, M2, Concept Laser M2, Optomec, LENS, Optomec LENS, Voxeljet, VX1000, Voxeljet VX1000, Cold Spray, Titanium, Ti 6-4, Ti 6Al 4V, Cobalt Chrome, CoCr, ASTM F75
A major three-dimensional testing facility developed for large scale testing of civil, mechanical, aerospace and mining engineering components and systems.
Featuring a wide range of capabilities in surface modification, thin films, polymer grafting, biomolecule immobilisation and bioactive coatings in polymers, ceramics and metals.
Housing some of the most advanced manufacturing technologies available, the Precinct brings design and engineering together, from digital design to digital manufacturing focusing in particular on 3D printing of advanced high value add products and components.
This platform is a combination of atomic force microscopy (AFM), colloidal characterisation equipment and indentation capabilities to provide surface and material characterisation of a broad range of materials to support research activities in engineering, science and medicine. This platform has the capacity to provide information on surface topography, elasticity, magnetic and electrical properties, colloidal forces, wetting properties, and micro- and nano- mechanical material property characterisation.
Cross and Interdisciplinary Applied Mathematics for researchers and industry
VLSCI is the biggest computation facility devoted to life sciences in the world, where researchers can access high-end compute resources and a range of experts to assist them - from research design through to data management and interpretation.
Provides high quality electron microscopy and microanalysis facilities for research and teaching throughout RMIT University and provides access for external users. The Microscopy & Microanalysis Facility is a linked laboratory of the Australian Microscopy and Microanalysis Research Facility.
The Monash eResearch Centre partners with research groups to accelerate and transform research, connecting them to the most appropriate hardware, software and services to sustain that capability.
A biomedical imaging research centre that supports a wide range of biomedical, engineering and scientific research.
MCEM enables a wide variety of disciplinary and interdisciplinary research projects, covering topics from corrosion to catalysis, optics to superconductivity, alloys to ceramics, polymers to biomaterials and microelectronics to nanotechnology.
The Australian Synchrotron produces powerful beams of light that can be used to examine the atomic and molecular detail of a wide range of materials.
The $10m Electron Microscopy Unit is a key facility designed for physical sciences, life sciences and engineering applications. The unit is equipped with five state-of-the-art electron microscopes, available to academic and industry users as user operated, collaboration or fee for use basis.