Advanced Applications of Smart Materials
( 25 Modules )

Module #1
Introduction to Smart Materials
Overview of smart materials, their properties, and applications

Module #2
Shape Memory Alloys (SMAs):Fundamentals
Principles of SMAs, phase transformations, and applications

Module #3
SMAs:Advanced Applications
Implantable devices, medical instrumentation, and aerospace applications

Module #4
Electro-Active Polymers (EAPs):Fundamentals
Principles of EAPs, dielectric elastomers, and ionic polymer-metal composites

Module #5
EAPs:Advanced Applications
Robotics, prosthetics, and aerospace applications

Module #6
Thermoelectric Materials:Fundamentals
Principles of thermoelectricity, Seebeck effect, and Peltier effect

Module #7
Thermoelectric Materials:Advanced Applications
Energy harvesting, cooling systems, and aerospace applications

Module #8
Self-Healing Materials:Fundamentals
Principles of self-healing, autonomic materials, and biomimetic approaches

Module #9
Self-Healing Materials:Advanced Applications
Coatings, composites, and structural health monitoring

Module #10
Metamaterials:Fundamentals
Principles of metamaterials, negative refractive index, and cloaking

Module #11
Metamaterials:Advanced Applications
cloaking, sensing, and energy harvesting applications

Module #12
Soft Robotics:Fundamentals
Principles of soft robotics, flexible kinematics, and control systems

Module #13
Soft Robotics:Advanced Applications
Search and rescue, medical robotics, and wearable devices

Module #14
Smart Composites:Fundamentals
Principles of smart composites, fiber-reinforced polymers, and self-sensing materials

Module #15
Smart Composites:Advanced Applications
Aerospace, energy, and infrastructure applications

Module #16
Biodegradable Materials:Fundamentals
Principles of biodegradable materials, bioplastics, and polymeric biomaterials

Module #17
Biodegradable Materials:Advanced Applications
Medical implants, tissue engineering, and environmental applications

Module #18
4D Printing:Fundamentals
Principles of 4D printing, shape-shifting materials, and self-transforming structures

Module #19
4D Printing:Advanced Applications
Soft robotics, biomedical devices, and aerospace applications

Module #20
Advanced Characterization Techniques
Microscopy, spectroscopy, and mechanical testing of smart materials

Module #21
Computational Modeling and Simulation
Finite element methods, molecular dynamics, and machine learning for smart materials

Module #22
Scalability and Commercialization
Challenges and opportunities in scaling up smart material production

Module #23
Energy Applications of Smart Materials
Energy harvesting, storage, and conversion using smart materials

Module #24
Biomedical Applications of Smart Materials
Tissue engineering, implantable devices, and medical instrumentation

Module #25
Course Wrap-Up & Conclusion
Planning next steps in Advanced Applications of Smart Materials career

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Advanced Applications of Smart Materials ( 25 Modules )

Advanced Applications of Smart Materials
( 25 Modules )