
Applied Nanotechnology in Automotive
This course explores the applications of nanotechnology in the automotive sector, focusing on how nanomaterials and nanotechnology-driven innovations enhance vehicle performance, safety, fuel efficiency, and sustainability. Students will learn about fundamental nanotechnology concepts, key materials, manufacturing processes, and real-world applications in modern and future automobiles.
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Course Duration:
24 hours
Level:
Intermediate

Course Objectives
Understand the principles of nanotechnology and its significance in the automotive industry.
Identify and analyze key nanomaterials used in vehicle manufacturing.
Evaluate the impact of nanotechnology on fuel efficiency, emissions control, and safety.
Explore smart surfaces, self-healing materials, and next-generation coatings.
Assess challenges related to large-scale production, costs, and environmental sustainability.
Prerequisites
Basic knowledge of materials science or engineering.
Understanding of automotive components and manufacturing processes.
Fundamental chemistry and physics concepts (recommended but not mandatory).
