400
This seminar format will be used to prepare students to take the Certified Industrial Technologist (CIT) Exam and for graduation. Open to graduating seniors only. CR/NC Only. Prerequisites: Final Semester of Program of Study of ITM Majors.
Credits
1(1-0)
Engineering and technology applications, issues, and perspectives in international settings. Travel abroad required. May be repeated once. Any interested students should contact the IET Department. Prerequisites: 12 hours of IET credit; permission of E&T advisor.
Credits
1-6(Spec)
The study of methods and tools used in the fields of human factors and ergonomics to design and improve jobs, tasks, and products. Prerequisite: IET 324. Recommended:
IET 327; permission of E&T advisor.
Credits
3(3-0)
Supervised work experiences in industry. CR/NC only. Prerequisite: departmental permission.
Credits
2-8(Spec)
Study of plant layout through the development of overall layout including location, planning, detailing, diagrams, and design of manufacturing and service facilities for efficient flow. Prerequisite:
IET 326; permission of E&T advisor.
Credits
3(3-0)
A study of product reliability and safety factors affecting the design, production, distribution, sales, and use. Prerequisite: 12 hours of IET coursework; permission of E&T advisor.
Credits
3(3-0)
Study of specific quality techniques used by production departments to monitor processes, products, and reliability so quality can be improved. Prerequisites: STA 282 or 382; junior standing; permission of E&T advisor.
Credits
3(3-0)
Credit by examination for work experience of background in a given technical area for which no transferable credit has been earned. Prerequisites: certified record of work experience; approval of the department chairperson.
Credits
1-30(Spec)
Principles of curriculum development and facility planning. Prerequisite: Open only to seniors; permission of E&T advisor.
Credits
3(3-0)
Individual investigation and research to increase ones technical competency. Prerequisite: departmental pre-registration.
Credits
2-5(Spec)
Mechanical components design, structural analysis, and mechanism analysis by using computer aided design system and simulation tools. Prerequisites:
IET 226, 350, 379; permission of E&T advisor.
Credits
3(2-2)
Fundamentals of Geometric Dimensioning and Tolerancing concepts as interpreted in ASME standard Y14.5. This course may be offered in an online or hybrid format. Prerequisite:
IET 226; permission of E&T advisor.
Credits
3(2-2)
Experiments utilizing a variety of mechanical devices and systems to demonstrate fundamental concepts in mechanics, fluid mechanics, thermodynamics and heat transfer. Prerequisites: IET 351,
IET 352,
IET 356,
IET 379; permission of E&T advisor.
Credits
3(1-4)
Fundamental laws of heat transfer by mechanism of conduction, convection and radiation, and boundary layer concepts. Prerequisites:
IET 352, 356; permission of E&T advisor.
Credits
3(3-0)
Theory and application of machine element fundamentals in design and analysis of mechanical systems for safe operation. Prerequisites:
IET 350;
IET 379 or
EGR 255; permission of E&T advisor.
Credits
3(2-2)
Covers the process of planning and developing tools, fixtures, and devices for efficient and economical manufacture of a product. Prerequisites:
IET 170,
IET 226; permission of E&T advisor.
Credits
3(2-2)
Development and production of computer generated graphical images for solid-based models and basic system assemblies utilizing mass properties and boolean operations. Recommended:
IET 226; permission of E&T advisor.
Credits
3(2-2)
Development and production of industrial and engineering designs with conceptual and parametric surface modeling tools. Utilization of curve and surface functions to interpret engineering designs. Prerequisites:
IET 226,
MTH 132; permission of E&T advisor. Recommended: IET 324.
Credits
3(2-2)
Development and production of computer-generated graphical images for advanced finite element models, setting of load and thermal constraints; introduction to mechanism analysis. Recommended:
IET 458; permission of E&T advisor.
Credits
3(2-2)
The techniques of quantity survey for material, labor, and equipment to enable the students to organize data essential for estimating cost and time duration of projects. Prerequisite:
IET 361; permission of E&T advisor.
Credits
3(3-0)
Design, installation and performance of mechanical systems (heating, air conditioning, and plumbing) in buildings. Prerequisites:
PHY 170,
MTH 130,
IET 361; permission of E&T advisor.
Credits
3(3-0)
Advanced surface modeling with a focus on the definition of freeform surfaces. Topics include freeform surface modeling, computer graphics, Bezier curves, B-splines, and NURBS. Prerequisites:
EGR 200;
IET 458;
MTH 223 or 232; permission of E&T advisor; cumulative GPA of 2.5 or higher.
Credits
3(2-2)
A study of instrumentation and control technology including process control fundamentals, signal conditioning, sensor measurements, control components and feedback control characteristics. Prerequisites:
IET 352, 356, 375; permission of E&T advisor.
Credits
3(2-2)
Advanced CNC programming techniques including advanced GM codes, 3D surface machining, and multi-axis programming in CNC vertical milling center and turning center. Prerequisites:
IET 226, 377; permission of E&T advisor.
Credits
3(2-2)
This course provides an opportunity for students to apply skills of engineering and design to development and design in a nationally competitive setting. Prerequisites:
IET 170, 226; permission of E&T advisor.
Credits
3(Spec)
Integration of design processes, techniques, systems, and technologies toward the solving of a product design problem. Prerequisite: IET 324. Pre/Co-requisites:
IET 458 and Senior Standing.
Credits
3(1-4)
Individual investigation and research to increase ones technical competency.
Credits
1-6(Spec)
The integration of appropriate methods, procedures, and techniques for the analysis of industrial projects and implementation of solutions via a team approach. Labs to be arranged. Prerequisites:
IET 450, 454 with a signed Mechanical Engineering Technology Major or IET 324, 458 with a signed Product Design Engineering Technology Major or
IET 377, 500 with a signed Industrial Engineering Technology Major.
Credits
3(Spec)