department of biomaterials and medical devices engineering
TRANSCRIPT
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SCIENTIFIC POTENTIAL Department of Biomaterials
and Medical Devices Engineering
Head of the Department
Professor Zbigniew Paszenda
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Laboratories
Department of Biomaterials and Medical Devices Engineering
1Laboratory of samples preparation
Laboratory of testing electrochemical properties
Laboratory of testing mechanical properties
Laboratory of heat treatment
Laboratory of integrated materials processing in dental prosthetics
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• Sample preparation
Material study
➢ Fully equiped line for metals,
ceramics, plastics, composites
• Microscopic observations
➢ Observation and characterization of
damage surface
➢ System for automatic image analysis
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• Study of mechanical properties
➢ Hardness, microhardness,
ultra-nanohardness
➢ Extension, compression, bending
• Heat treatment➢ Forming mechanical properties
➢ Sterilization
Material study
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Corrosion testing
• Voltamperometric study
➢ Regular corrosion
➢ Pitting corrosion
➢ Stress corrosion
➢ Crevice corrosion
➢ Galvanic corrosion
• Impedance study
➢ Electrochemical Impedance Spectrometry
• Degradation study of plastics and ceramic materials
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Surface analyses
• Topography and surface roughness
➢ Elipsometer Woollam M2000
➢ Mechanical profilometer
• Thicnkess of surface layer
• Nanohardness of surface layer
• Adhesion of surface layer
➢ Opical profilometer DCM 3D
• Friction wear
• Surface wettability
➢ Surftens Universal
➢ Pin on Disc
➢ Open platform CSM
➢ Open platform CSM
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• 3D scanning
➢ reverse engineering
➢ design
➢ analysis
• Virtual imaging
➢ nVidia 3D VISION 2
➢ 3dsMAX
➢ Quazar3D
Virtual Reality
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Technologies
Laboratory of integrated materials processing
in dental prosthetics
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Technologies
• CAD-CAM system in dentistry
➢ 4 axis milling machine
➢ 3D laser scanner
➢ CAD software
➢ Face bow
• Foundry, metal and ceramics machining
➢ Induction foundry
➢ Furnace
➢ Electropolishing unit
➢ Furnace for ceramics
➢ ZrO2 sintering furnace
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Major fields of scientific research
Department of Biomaterials and Medical Devices Engineering
Mechanical, physiochemical and
electrochemical study of biomaterials,
implants and medical devices
Numerical and experimental methods
applied in design of implants and medical
devices
Corrosion and biodegradation of metal,
ceramic and plastic biomaterials and
implants
Research on a advanced rehabilitation
equipment
2
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Examples of research and application2
Department of Biomaterials and Medical Devices Engineering
anodic oxidation
Transpendicular screws for spine stabilization
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Examples of research and application2
Department of Biomaterials and Medical Devices Engineering
heart valve
Artificial heart prosthesis
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Examples of research and application2
Department of Biomaterials and Medical Devices Engineering
Plate for the correction
osteotomy
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Examples of designed implants2
Department of Biomaterials and Medical Devices Engineering
Spine Stabilizers
Intramedullary nailPlate for limited contact
Double-threaded
screws
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Examples of designed implants2
Department of Biomaterials and Medical Devices Engineering
Plate for treatment of deformations of the frontal wall of chest
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• Technical drawings
Numerical simulations
➢ AutoCad
➢ Inventor
• Finite Element Analyses
➢ Ansys
Plate for treatment of deformations
of the frontal wall of chest
Surgical drills
DHS Screw
Stent
Endoprostheses of hip joint
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Robotic systems for interactive neurophysiological
rehabilitation and limbs diagnostics
MECHATRONIC REHABILITATION
DEVICES
Mechatronic device for conducting a
multi-plane passive and active
movement of lower limbs using
neurophysiological methods
Systems for interactive neurophysiological
rehabilitation and diagnostics of upper
limbs dysfunctionsRobotic rehabilitation device for conducting
a multi-faceted passive
and active movement of upper limbs using
neurophysiological methods
Cooperation with Institute of Medical Technology and Equipment
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Within the frames of the Assist Med Sport Silesia
project the following laboratories are planned to
be established
Department of Biomaterials and Medical Devices Engineering
3
Laboratory of testing implants structures
Laboratory of rapid prototyping
Laboratory of implants surface functionalization
Laboratory of engineering support in dentistry
Laboratory of testing mechanical properties
of medical devices
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Modeling and improvement of osteosynthesis
techniques for treatment of osteoporotic
fractures
Department of Biomaterials and Medical Devices Engineering
4
support systems to diagnose injury and dysfunction of musculoskeletal system
selection of osteosynthesis and stabilization techniques of osteoporotic fractures and surgical instruments
development of new implants with modified surfaces and high biocompatibility
COOPERATION WITH CLINICAL HOSPITAL
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Robotic systems for diagnostics and interactive
neurophysiological and cardiac rehabilitation
Department of Biomaterials and Medical Devices Engineering
4
methods and devices to conduct controlled limb rehabilitation using a multi-plane active and passive movement
robotic devices for diagnosis and neurophysiological and cardiac rehabilitation
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Programming and design of health care
facilities and rehabilitation in particular zones for
the diagnosis and treatment of elderly patients
Department of Biomaterials and Medical Devices Engineering
4
architecture supporting processes of diagnosis and medical procedures a patient's stay in space, also in the context of an elderly patient's specific needs.
parameterization methods in programming the size of the hospital functional areas, including the diagnostic using modern medical devices and taking
into account changes in technology and methods of patient care.
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Thank you for
your attention
Department of Biomaterials and Medical Devices Engineering