Courses
Fundamentals of Engineering (FE), Fundamentals of Engineering Design (FED), Stress Analysis (ME-315), Engineering Properties of Plastics (ME-470).
Introduction to Polymer Processing Techniques (ME-471), Introduction to Mechanical Design (ME-339), Mechanical Design II (ME 408).
The Mechanical Engineering module of the Fundamentals of Engineering (FE)
Polymer Technology content for Manufacturing Processes and Integration (ENGR 495). This course was approved in the spring of 1995. Engineering Properties of Plastics (ME-470), Introduction to Polymer Processing Techniques (ME-471), Engineering Design of Plastic Products (ME-678).
Graduate Courses
Engineering Design of Plastic Products (ME-678)
Design and Analysis of an F16 Fighter Canopy.
Heat Transfer Analysis of a Plastic Tensile Specimen Mold.
Comparing Computer Predictions of Injection Molding Parameters and Experimental Data for Parts from Purified Carpets and Computer Housings.
Design and Analysis of a Printer Toner Cartridge Housing with Recyclable Plastic Wastes.
Comparing Computer Predictions of Injection Molding Parameters and Experimental Data for a Part Based on ASTM 638D.
Design and Moldability Analysis of an Automobile Armrest
The Effect of Mixing on the Mechanical Properties of Liquid Crystal Polymer/Thermoplastic Blends
The Effect of Heat Transfer on Part Deformation in the Post-filling Phase of
Injection Molding Using a Hybrid Finite Element Analysis/Simulation Technique.
Composites form Commingled Waste Plastics: Prototype Design and Moldability Analysis.
Design and Moldability Analysis of Products from Recycled Plastic Wastes.
The Effect of Thickness Direction Shrinkage on the Thermal Contact Resistance in Injection Molding - Comparison of Analytical Results with Published Experimental Data