13. Amity School of Engineering & Technology
•Elasticity
•Viscoelasticity
•Brittle fracture
•Fatigue
14. Amity School of Engineering & Technology
Biocompatibility Host Response Toxicology
Corrosion
Resistance
Wear Resistance Long Fatigue life
Adequate Strength
Design &
Manufacturability
Biofunctionality
15. Amity School of Engineering & Technology
NATURAL
BIOMATERIALS
ARTIFICIAL
BIOMATERIALS
BIOMATERIAL
DEVICES
16. Amity School of Engineering & Technology
PMMA MACHINES
INTRAOCULAR LENSES
17. Amity School of Engineering & Technology
APPLICATION
Medical
Solid Semisolid
Engineering
Biochips Biosensors
Bio
robotics
18. Amity School of Engineering & Technology
MEDICAL
FIELD
BONE REPLACEMENT
DENTAL IMPLANT
ARTIFICIAL TISSUE
IOL LENS
MECHANICAL HEART VALVE
VASCULAR GRAFT
ENGINEERING
FIELD
BIOCHIPS
BIOSENSORS
BIO-ROBOTICS
24. Amity School of Engineering & Technology
PALM-ROBOT
INSECT ROBOT
25. Amity School of Engineering & Technology
• Risk of infection.
• Complex surgeries.
• Displacement of implants.
• Compatibility issues.
• Long lasting
26. Amity School of Engineering & Technology
•Interdisciplinary approach
•More advancement in medical
•Significant industrial growth
•Potential of a multi-billion dollar industry.
27. Amity School of Engineering & Technology
WEBSITES :-
Wikipedia
Google
Yahoo
MIT,USA
BOOKS:-
An Introduction to Biomaterials
Jeffrey O. Hollinger
Guidance:-
Dr. D.L.Sapra
Dr. P.K.Mishra
Dr. Manisha Singh