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The Department of Biomedical Materials Science offices and laboratories occupy nearly 5000 square feet within the School of Dentistry. These facilities permit research and characterization of a diverse range of materials (metals, polymers, ceramics, composites), of a wide range of properties (physical, mechanical, electrochemical, biological, etc.), and at all levels of interest - from atomistic to macroscopic.
In light of the fact that the equipment available in our laboratories represents the state of the art in material testing and characterization, and a variety of industries and other universities have requested access to this equipment, the Department of Biomedical Materials Science has formalized a User Facility. This facility provides access to equipment used to perform materials processing, characterization, and certification.
These services are now available to users within and outside the academic community on a fee-for-service basis. Users may become trained in the use of the equipment and be allowed independent operation or testing may be performed by departmental personnel at an additional cost.
For more information please refer to the User Facility Catalog.
The ceramic processing laboratory contains the equipment typically found in a dentallaboratory and allows the fabrication of a variety of all-ceramic prostheses (powderporcelain, pressable, glass-infiltrated, CAD-CAM, and sintered). Some of thetechniques, such as lost wax method and air abrasion, are also useful in preparation orsurface treatment of metallic and other materials for a variety of applications.
Cerec inLab 3D dental CAD-CAM system (Sirona)
Touch and press furnace (Dentsply Detrey)
Lost wax method auxiliary equipment
Quattro IS air abrasion (sandblasting) unit (Renfert)
USB2000 optical spectrophotometer (Ocean Optics)
Calcified tissue histology
Atomic force microscopy
X-Ray microtomography (Micro-CT)
Our Dell Precision T7400 graphics workstation (dual quad-core processors, 32GB RAM, 2TB HD, 512MB graphics accelerator) is a powerful platform for several finite element modeling packages. Mimics software can convert 3D models captured by our micro-CT scanner, as well as a variety of medical scanners into finite element models suitable for export to Abacus or ANSYS. Abacus software can predict the mechanically and thermally induced stress and microstrain distributions in a component or surrounding an implant. The necessary material elasticity constants are determined using our ultrasonic pulse apparatus and analytical balance. Fe-safe software works in conjunction with Abacus to predict fatigue lifetimes of components. ALTA Pro software can analyze accelerated lifetime test data to predict product reliability and can perform Monte Carlo simulations to design more efficient fatigue tests. Mimics (Materialise)
Abacus FEA (Simulia)with fe-safe (Safe Technology)
25DL Plus ultrasonic thickness gauge (Panametrics-NDT
ALTA Pro (Reliasoft)
Kenneth St. John, Ph.D., Director, Biomedical Materials Science User FacilityTel: (601) 984-6170, Email: firstname.lastname@example.org
University of Mississippi School of DentistryDepartment of Biomedical Materials Science2500 N. State StreetJackson, MS 39216-4505
2500 North State Street
Jackson, MS 39216
General Information: 601-984-1000
Patient Appointments: 888-815-2005