I. TEACHING:
1. Additive Manufacturing, MFGE 551 (Winter 2017-current):
This course is a 3-credit graduate NEW course developed by Dr. Pasebani. The course covers fundamental of additive manufacturing (AM) technologies:
1. Basic principles and process physics for additive manufacturing in compared with subtractive manufacturing
2. Various processes in AM (extrusion, jetting, photopolymerization, powder bed fusion, direct energy deposition and sheet lamination) and laser AM
3. Materials selection in AM (metals, polymers, ceramics and composites), powder metallurgy and metallurgical phenomena in additive manufacturing
4. Applications of AM for industries and commercial AM manufacturing systems
Students contest on the car designed and built using FORMLAB Stereolithographic 3D printing. Students designed and additively manufactured a car via SLA
Formlabs From 2 used in this class (Available at Rogers 106)
2. Mechanical Properties of Materials and Lab, MAT322 (Fall 2017-current)
This course is a 4-credit undergraduate course with laboratory on rolled and annealed copper and heat treated and quenched steels. This course covers mechanical behavior of materials, relating laboratory test results to material structure and elements of mechanical analysis.
https://mime.oregonstate.edu/cd/mats-322-mechanical-properties-materials
In this class, useful teaching aid is utilized for better visual learning. For example, this video demonstrates the crystal lattice of a material and how dislocations move, combine, form and annihilate.
Educational Video:
https://www.youtube.com/watch?v=UEB39-jlmdw&feature=youtu.be
3. Physical Metallurgy, MATS 441 (Spring 2017-current)
This course is a 3-credit undergraduate NEW course developed by Dr. Pasebani for Mechanical Engineering students. This course covers introductory chapters on metals and alloys including, structure of metals, solidification, deformation mechanism, dislocations and twinning, vacancies, grain boundaries, annealing, solid solution, phase diagrams, diffusion, nucleation and growth, precipitation hardening, Fe-C phase diagram, hardening of steels, heat treatment of steels, alloy steels, nonferrous alloys (Al, Cu, Ni, and Ti).
4. Materials and Manufacturing, MFGE337 (Spring 2020-current)
This is a 4 credit course with laboratory and introduces mechanical manufacturing methods by which materials are economically shaped into valuable products. The overall goal is to develop an understanding of how the functionality, shape, materials, cost and sustainability of a product influence manufacturing process selection and design.
II. TRAINING:
Students are getting trained on our new ProX DMP 300 3D Systems Selective Laser Melting 3D Metal Printer.