Engin Tech/Industrial Courses
Manufacturing Processes I
A study of methods and materials used in industrial production of non chip producing processes, including casting, forging, welding, stamping, shearing, brake, powder, metallurgy, electrical discharge machining, high energy rate forming.
Credit hours: 3
Lecture hours: 3
Manufacturing Processes II
A study of methods, materials, and machines used in industrial production of chip producing processes, including turning, milling, grinding, drilling, reaming, boring, broaching, sawing.
Credit hours: 3
Lecture hours: 3
Industrial Safety
This course focuses on the theories and principles of occupational safety and health in a practical and useful real world job related setting. The major topics include the Occupational Safety and Health Administration (OSHA) compliance, safety standards, code enforcement, ergonomic hazards, mechanical hazards, falling, lifting, electrical hazards, fire hazards, industrial hygiene, radiation, noise, emergencies, and environmental safety.
Credit hours: 3
Lecture hours: 3
Applied Mechanics
This course takes a hands-on approach to the identification, use, care of tools, equipment, blueprint reading, geometric dimensioning, and tolerances used in all aspects of operations and manufacturing.
Credit hours: 3
Lecture hours: 1
Lab hours: 3
Introduction to Quality Assurance
This course defines the role of quality in an industrial environment. Topics include the use of quality management techniques and quality philosophies, process development, techniques used for evaluation, approaches used on continuous operations, methods used to control quality, and the International Organization for Standardization (ISO) series of standards. The method of analyzing data through statistical process control (SPC) charts is also covered.
Credit hours: 3
Lecture hours: 3
Computer Numerical Control Systems
Corequisite: MAN3303 or permission of department chair. Theory of methods and concepts for machining, computer numerical controls/programs, types of operations, cutting tools, machine tools, and electrical discharge machines.
Credit hours: 3
Lecture hours: 3
Techniques in Lean Manufacturing
Corequisite: MAN3303 or permission of department chair. This course presents the basic principles, techniques, and benefits of lean manufacturing for a world-class manufacturing environment. Lean manufacturing involves identifying and eliminating non-value-adding activities in design, production, supply chain management, and customer relations. The coverage includes topics related to manufacturing improvement, value stream mapping, total productive maintenance (TPM), modular manufacturing, continual improvement, overall equipment effectiveness (OEE), and process capability.
Credit hours: 3
Lecture hours: 3
Applied Robotics
Prerequisite: ETS2606C. MAN3303. The students will learn robotics programming for multifunction part manipulation and motions with stepper and servo-motor robot application. The students will become familiar with advanced control schemes and sensors and actuators used in industrial robots. Lab experiences will be developed with the adept scara robot, including a vision system for assembly application.
Credit hours: 3
Lecture hours: 3
Occupational Safety
Corequisite: MAN3303 or permission of department chair. Accident prevention and the operation of an industrial safety program. Basic requirements of the occupational safety and health act standards.
Credit hours: 3
Lecture hours: 3