Undergraduate Course
Momentum, Heat, and Mass Transfer - 315039
This course introduces key principles of fluid mechanics, heat transfer, and mass transfer. It is divided into two main parts:
Part One – Fluid Mechanics:
Covers fluid properties, hydrostatics, conservation equations (mass, momentum, energy), internal and external viscous flows, and boundary layer concepts.
Part Two – Heat and Mass Transfer:
Focuses on heat transfer modes (conduction, convection, radiation), one-dimensional steady-state and transient conduction, convective heat transfer in internal and external flows, and specialized topics like free convection, boiling, and condensation.
The course provides essential knowledge for analyzing and designing systems involving fluid flow and thermal transport.
Graphical Design for Materials Engineering - 314016
This course provides materials engineers with essential skills in engineering drawings using SolidWorks software. It focuses on both fundamental and advanced CAD techniques, covering 2D and 3D modeling, creating assemblies, and generating detailed drawings. Students will learn to use SolidWorks to design and communicate technical ideas effectively, applying tools for sketching, geometric constraints, feature creation, and part assembly.
Graduate Courses
Biofabrication and 3D Bioprinting - 03180127
This graduate course explores biofabrication technologies and 3D bioprinting principles, equipping students with the skills to innovate in developing bioartificial organs and advanced therapeutic solutions. Tailored for graduate students in Materials Science, Biomedical, Mechanical, and Chemical Engineering, the course bridges knowledge of material properties and engineering principles with biological applications.
Through theoretical lectures and hands-on workshops, students will delve into foundational concepts, recent advancements, and the practical aspects of designing complex biological structures. Key topics include 3D bioprinting techniques, biomaterial selection, and scaffold and tissue design.