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Schedule of Classes

 

Spring Semester 2019

 

Industrial & Manufacturing Engineering
Joseph Chen • BECC 4236 • 309-677-2740
IME103Computer Aided Graphics (2 hours)
 01 MW9:00 AM -10:15 AM MOR305 Gangjian George Guo  
IME110Introduction to Computers & Computational Analysis (3 hours)
Corequisite: MTH 115 or IMT 212 or consent of instructor
 01 MW3:00 PM -4:15 PM MOR305 John Yoo  
IME200Engineering Co-Op (0 hours)
Prerequisite: Sophomore standing in the College of Engineering and Technology, 2.0 overall grade point average at Bradley, approval of Engineering and Technology Co-op coordinator and Co-op advisor.
 01 *R* Arr     Julie Reyer  
IME241Manufacturing Fundamentals (3 hours)
Prerequisite: IME 103 or consent of instructor
 01 *R* TT1:30 PM -2:20 PM MOR306 Gangjian George Guo  
 A *R* Tu2:30 PM -4:15 PM MOR001 Gangjian George Guo  
 B *R* Th2:30 PM -4:15 PM MOR001 Gangjian George Guo  
IME301Engineering Economy I (3 hours)
Prerequisite: MTH 121 or IMT 212
 01 MW1:30 PM -2:45 PM MOR411 Fariborz Fred Tayyari  
 02 TT3:00 PM -4:15 PM MOR306 Saeed Saboury  
 03 MW3:00 PM -4:15 PM MOR108 Regina Pope-Ford  
IME302Introduction to Quality Engineering (3 hours)
Prerequisite: One semester college calculus.
 01 MW10:30 AM -11:45 AM MOR108 Regina Pope-Ford  
IME305Engineering Economy II (2 hours)
Prerequisite: IME 301.
 01 MW12:00 PM -1:15 PM MOR108 Fariborz Fred Tayyari  
IME311Introduction to Engineering Statistical Methods (3 hours)
Prerequisite: MTH 122.
 01 MW10:30 AM -11:45 AM MOR305 John Yoo  
IME314Operations Research II (3 hours)
Prerequisite: Minimum grade of C in IME 311, 313
 01 Canceled
IME331Fundamentals of Materials Science (3 hours)
Prerequisite: CHM 110, 111; PHY 110 or PHY 107
 01 MW9:00 AM -10:15 AM MOR306 Saeed Saboury  
IME333Materials Science Laboratory (2 hours)
Prerequisite: IMT 232 or IME 331
 01 *R* W2:00 PM -4:00 PM MOR206 Saeed SabouryCore: WI 
IME341Introduction to Manufacturing Processes (3 hours)
Prerequisite: IME 103
 01 *R* TT1:30 PM -2:20 PM MOR306 Gangjian George Guo  
 A *R* Tu2:30 PM -4:15 PM MOR001 Gangjian George Guo  
 B *R* Th2:30 PM -4:15 PM MOR001 Gangjian George Guo  
IME385Introduction to Logistics and Supply Chain (3 hours)
Prerequisite: IME 302 or equivalent or consent of the instructor
 01 Canceled
IME386Industrial and Managerial Engineering (3 hours)
Prerequisite: MTH 121 or IMT 212 or Equivalent
 01 *R* TT10:30 AM -11:45 AM MOR108 Gary Chensin Lin  
IME395Solid Modeling & Rapid Prototyping (3 hours)
Prerequisite: IME 103, 110, 341
 01 MW12:00 PM -1:15 PM MOR305 Ye Li  
IME410Selected Topics in Industrial & Manufacturing Eng (1 to 6 hours)
Prerequisite: Consent of instructor.
 01 Canceled
 Data Mining
 02 *R* Arr     John Yoo  
 "Trend of Indust Eng"
IME412Design and Analysis of Experiments (3 hours)
Prerequisite: Two semesters of statistics or consent of instructor.
 01 TT9:00 AM -10:15 AM MOR305 Gangjian George Guo  
IME422Manufacturing Quality Control (3 hours)
Prerequisite: IME 311 with C or better or consent of instructor
 01 Canceled
IME441Manufacturing Processes I (3 hours)
Prerequisite: IME 331, IME 341, or Consent of the Instructor
 01 TT4:30 PM -5:45 PM MOR306 Iqbal Shareef  
IME461Simulation of Manufacturing and Service Systems (3 hours)
Prerequisite: IME 361; or consent of instructor.
 01 MW1:30 PM -2:45 PM MOR305 Gary Chensin Lin  
IME466Facilities Planning (3 hours)
Prerequisite: IME 386 or consent of instructor
 01 TT12:00 PM -1:15 PM MOR305 Gary Chensin Lin  
IME468Introduction to Expert Systems and Artificial Intelligence (3 hours)
Prerequisite: IME 110
 01 TT10:30 AM -11:45 AM MOR305 John Yoo  
IME481Lean Production Systems (3 hours)
Prerequisite: IME 301, IME 341, and IME 386, or consent of instructor
 01 *R* TT1:30 PM -2:45 PM MOR108 Joseph Chen  
IME485Occupational Ergonomics (3 hours)
Prerequisite: IME 302 or IME 311, and CE 150 or IMT 222, or consent of instructor.
Crosslisted with IME 585.
 01 TT3:00 PM -4:15 PM MOR108 Regina Pope-FordCore: WI 
IME487Occupational Safety and Health (3 hours)
Prerequisite: Prerequisites: Junior Standing.
 01 MW3:00 PM -4:15 PM MOR306 Fariborz Fred Tayyari  
IME499Senior Industrial Project (4 hours)
Prerequisite: 30 hours of IMET Department courses with a minimum 2.25 GPA; COM 103; consent of course coordinator.
 01 *R* MWF10:30 AM -12:20 PM MOR306 Iqbal ShareefCore: WI 
IME512Design and Analysis of Experiments (3 hours)
Prerequisite: Two semesters of statistics or consent of instructor. Not open to students with credit in IME 412
 01 TT9:00 AM -10:15 AM MOR305 Gangjian George Guo  
IME522Manufacturing Quality Control (3 hours)
Prerequisite: One semester of statistics or consent of instructor. Not open to students with credit in IME 422
 01 Canceled
IME543Advanced Material Removal Processes (3 hours)
Prerequisite: IME 441
 01 *R* Arr     Iqbal Shareef  
IME561Simulation of Manufacturing & Service Systems (3 hours)
Prerequisite: IME 511, IME 514; or consent of instructor. Not open to students with credit in IME 461.
 01 MW1:30 PM -2:45 PM MOR305 Gary Chensin Lin  
IME566Advanced Facility Planning (3 hours)
Prerequisite: IME 386 or IME 500 or consent of instructor
 01 *R* TT12:00 PM -1:15 PM MOR305 Gary Chensin Lin  
IME568Introduction to Expert Systems and Artificial Intelligence (3 hours)
Prerequisite: One semester of computer programming and one semester of statistics, or consent of instructor.
 01 *R* TT10:30 AM -11:45 AM MOR305 John Yoo  
IME570Selected Topics in Industrial & Manufacturing Engineering (1 to 3 hours)
Prerequisite: Consent of instructor.
 01 Canceled
 Data Mining
 02 *R* Arr     Ye Li  
 "Additive Manufacturin"
IME585Occupational Ergonomics (3 hours)
Prerequisite: Graduate Standing and Consent of instructor. Not open to students with credit in IME 485.
Cross Listed with IME 485.
 01 TT3:00 PM -4:15 PM MOR108 Regina Pope-Ford  
IME587Occupational Safety and Health (3 hours)
Prerequisite: Graduate Standing and Consent of instructor. Not open to students with credit in IME 487.
 01 MW3:00 PM -4:15 PM MOR306 Fariborz Fred Tayyari  
IME691Research (0 to 3 hours)
Prerequisite: Unconditional graduate status, minimum GPA of 3.2 after 15 hours of graduate work, and consent of instructor
 01 *R* Arr     Joseph Chen  
 02 *R* Arr     Gangjian George Guo  
IME699Thesis (0 to 6 hours)
Prerequisite: Unconditional status, 3.25 GPA with at least 15 hours earned, and consent of graduate coordinator
 01 *R* Arr     John Yoo  
 
Computer aided drafting, theory of orthographic projection, sections, auxiliaries, and basic dimensioning.
Use of various modern computing technologies, including numerical analysis software and Internet-based applications. Coding of numerical algorithms as applied to engineering functions.
Full-time cooperative education assignment for manufacturing engineering and industrial engineering students who alternate periods of full-time school with periods of full-time academic or career-related work in industry. Satisfactory/Unsatisfactory.
Fundamental knowledge and skills to work in the manufacturing field. The role, function and constraints of product design and process planning within a manufacturing system, and the basic principles of different manufacturing processes. The elements of physical manufacturing environment and the basic properties of different types of production materials. Not open to students with credits in any 300- or 400-level IME or IMT course.
Analysis of economic aspects of engineering decisions. Effect of interest and other cost factors on evaluation of engineering alternatives. Roles of mathematical models and other techniques in economical design and test of products. Introduction to value engineering.
Definition of quality, need for quality in products and services, methods of assuring quality, fundamentals of probability and statistics, process control methods, acceptance sampling, designing experiments, a system for quality. Not open to IME majors.
Continuation of IME 301. Economic aspects of engineering decisions including techniques of obtaining cost data, product costing, and break-even analysis. Industrial practices.
Engineering data collection and analysis; discrete and continuous probability models; confidence intervals; tests of hypotheses; regression analysis; essentials of statistically designed experiments; engineering application of statistical methods. Extensive use of statistical computer software.
Probabilistic models of operations research: inventory theory, Markov chains, queuing theory, and simulation.
Materials science in engineering. Structure of perfect solids: metals, plastics, composites, and ceramics. Structure of imperfect solids: phase equilibria; diffusion, mechanical properties, and plastic deformation; strengthening mechanisms; relation between mechanical properties and microstructural control; organic polymers; electrical conduction in materials; semi-conductors; magnetic materials.
Laboratory practices and experience for basic materials science investigations. Mechanical testing, metallographic examination and thermal treatment of metals, non-destructive and destructive testing of non-metallic materials.
A laboratory-intensive introduction to manufacturing machinery and processes, tooling, and safety. Product specification interpretation and associated planning for tooling and methods. Material removal; forming operations; casting and molding of metals and plastics; joining techniques.
Logistics terms and definitions; logistics demand forecast; transportation decision models; supply chain concepts, analyzing, designing, and implementing logistics systems.
Principles of IME applied to design of an organization's physical facilities and operating systems. Analysis and measurement of human work applied to work system design. Laboratory and interdisciplinary community projects.
Principles of solid modeling and 3D drafting. Solids, surfaces, wire frames, pictorial representation, advance dimensioning, tolerancing, geometric dimensioning and tolerancing, drafting for production, techniques of rapid prototyping.
Topics of special interest which may vary each time course is offered. Topic stated in current Schedule of Classes. Course may be repeated under different topics for maximum of six hours credit.
Design and analysis of experiments in research, development, and production activities. Experimental designs for evaluating significance of main effects and interactions of several variables. Treatment of problems of measurement, planning, and evaluating programs. Cross listed with IME 512
Analysis of factors affecting product quality during manufacturing; process control charts; process capability studies; error of measurement; sampling plans; motivation programs; quality audit; organization. Cross listed with IME 522.
Principles, techniques, limitations, and applications of metal cutting and forming processes. Phenomena of tool life, tool wear, surface integrity, resultant properties, and tolerances of these operations. Traditional forging, rolling, drawing, and extrusion processes; processing limits and resultant effects on material and component properties. Non-traditional methods and processing economics.
Procedures and rationale for planning, designing, and implementing computer simulation experiments used to analyze manufacturing and service systems in engineering, business, and social sciences. Use of a 3D state-of-art simulation software tool. Cross-listed with IME 561.
Physical organization of work places and departments to optimize objectives such as material movement, safety, and worker satisfaction. Review of IME methods for work place design and productivity measurement and economic decision making. Computer solutions for layout problems and mathematical models for location problems. Cross listed with IME 566.
Knowledge-based systems design and implementation; expert system shells and programming environments; validation and implementation of expert systems; case studies/laboratories. Cross listed as IME 568 and CIS 588.
This course reviews the principles and concepts required for integrated production System in order to meet customer demand in production, quality, on-time delivery, and continuously reducing manufacturing cost. Emphasis is placed on applying lean manufacturing principles, simulation techniques, and Kaizen methodologies through hands-on projects. Cross listed as IME 581.
Functional anatomy and physiology of muscle and skeletal systems and their relationship to work design. Work physiology, kinesiology, and anthropometry in relation to their application in work-place design and hand-tool design. Utilization of physical work capacity and job demands for job design, personnel assignment, and assessment of work-rest scheduling. Cross listed as IME 585.
Occupational safety and health standards and regulations. Injury and illness statistics. Employer's responsibilities and bookkeeping requirements. Hazard analysis and systems safety, occupational and environmental hazards and controls. Cross listed with IME 587.
Application of engineering principles to solve a real-world problem. Student works as member of a team assigned to a problem in a manufacturing, processing, service, or governmental organization. Requires a professional written and oral report. Cross-listed with IMT 498
Design and analysis of experiments in research, development, and production activities. Experimental designs for evaluating significance of main effects and interactions of several variables. Treatment of problems of measurement, planning, and evaluating programs.
Analysis of factors affecting product quality during manufacturing; process control charts; process capability studies; error of measurement; sampling plans; motivation programs; quality audit; organization. A research paper required. Cross listed with IME 422
Current and future trends in: mechanics of chip generation; forces and energies in cutting and dynamometry; thermal aspects of machining; cutting tool materials; friction, wear, vibrations and tool life; applications of engineering fundamentals to design and analysis of machining operations with emphasis on computer control.
Procedures and rationale for planning, designing, and implementing computer simulation experiments used to analyze manufacturing and service systems in engineering, business, and social sciences. Use of a 3D state-of-art simulation software tool. Research projects required. Cross listed with IME 461.
Physical organization of work places and departments to optimize objectives such as material movement, safety, and worker satisfaction. Review of IE methods of work place design and productivity measurement and economic decision making. Computer solutions for layout problems and mathematical models for location problems. A research project is required. Cross listed with IME 466.
Knowledge-based systems design and implementation; expert system shells and programming environments; validation and implementation of expert systems; case studies/laboratories. Cross listed as CIS 588.
Topics of special interest which may vary each time course is offered. Topic stated in current Schedule of Classes. May be repeated up to a maximum of 6 hrs. Combined credit for IE 590 and IME 570 may not exceed six hours.
Functional anatomy and physiology of muscle and skeletal systems and their relationship to work design. Work physiology, kinesiology, and anthropometry in relation to their application in work-place design and hand-tool design. Utilization of physical work capacity and job demands for job design, personnel assignment, and assessment of work-rest scheduling. Research projects required. Cross listed as IME 485.
Occupational safety and health standards and regulations. Injury and illness statistics. Employer's responsibilities and bookkeeping requirements. Hazard analysis and systems safety, occupational and environmental hazards and controls. Research projects required. Cross listed with IME 487.
Research project or professional problem to be selected by student and advisor. May be repeated to a maximum of 3 hours credit. Beyond initial enrollment the student must register for 0 hours.
Required of students choosing thesis option. Total of six hours to be taken; any semester after six hours, the student must register for zero hours to maintain progress.
This course meets a Core Curriculum requirement.
OC - Communication - Oral Communication
W1 - Communication - Writing 1
W2 - Communication - Writing 2
FA - Fine Arts
GS - Global Perspective - Global Systems
WC - Global Perspective - World Cultures
HU - Humanities
NS - Knowledge and Reasoning in the Natural Sciences
SB - Knowledge and Reasoning in the Social and Behavioral Sciences
MI - Multidisciplinary Integration
QR - Quantitative Reasoning
This section meets a Core Curriculum requirement.
EL - Experiential Learning
IL - Integrative Learning
WI - Writing Intensive
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