| IND 101-102 Quality Assurance Technology I-II |
3 credits each |
| Studies principles and techniques of quality engineering for the management, design, engineering, economics, production, and assurance of quality. Emphasizes fundamentals of total quality assurance for product and process control. May include design review, fundamentals of statistics, procurement control, sampling and control chart systems, quality reporting, process capability analysis, tool and gauge control, document control, or troubleshooting quality control. Lecture 3 hours per week. |
| IND
105 Nondestructive Inspection (NDI) and Testing |
3 credits |
| Studies nondestructive inspection and testing methods as they relate to industry. May include radiographic (RT), ultrasonic (UT), eddy current (ET), magnetic particle (MT), and liquid penetrant (PT) or other methods of testing. Lecture 3 hours per week. |
| IND
106 Industrial Engineering Technology |
3 credits |
| Introduces basic skills required for a career in industrial engineering technology. Includes basic statistics for engineering technicians, the SI system, graphic analysis, and careers as an industrial engineering technician. Lecture 3 hours per week. |
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109 Force, Mass, & Torque Measurement |
2 credits |
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Introduces the basic concepts, theories, and applications of Force, Mass, and Torque measurement. Includes a history of Force, Mass, and Torque measurement and the concepts of the transducers and measuring systems used to make such measurements. Incorporates traceability, documentation, and uncertainty analysis into the measurement process as required for laboratory accreditation to ISO 17025. Prerequisite: MTH 115 or equivalent. Lecture 1 hour. Laboratory 3 hours. Total 4 hours per week. |
| IND
115 Materials and Processes of Industry |
4 credits |
| Studies materials and processes for the manufacture of products. Investigates the nature of various materials. Examines the manufacturing processes of industry and their effects on materials. Lecture 4 hours per week. |
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121 Industrial Supervision I |
3 credits |
| Introduces the concept of the supervisor as a leader. Discusses the role of the Industrial Supervisor in the face of technology advances. Discusses the role of the industrial supervisor in leading organizational change and helping employees through transitions. Defines leadership styles and the selection of the appropriate style. Introduces the Industrial Supervisor as a motivator in terms of job satisfaction, morale, job design, competition, communication, and promotions. Presents ethical behavior and dilemmas in organizations. Lecture 3 hours per week. |
| IND
122 Industrial Supervision II |
3 credits |
| Introduces the concept of the supervisor as a manager. Discusses the primary management functions and the differences between supervision and management. Discusses the planning process and scheduling techniques. Introduces concepts in organizing both formally and informally, accountability, span of control and delegation. Discusses the staffing process including legal considerations, forecasting, job analysis techniques, recruiting, interviewing and selection. Introduces the control process including what the Industrial Supervisor should control, control strategies, and how to control costs. Defines the decision making process and how to use employees, information and creativity in decision making. Lecture 3 hours per week. |
| IND
135 Standards of Quality and Auditing |
3 credits |
| Presents general requirements of industrial, military and international quality standards. Reviews quality audit principles relative to products, processes and systems. Includes the design of an approach to the audit and audit standards, procedures, methods, facilities control, personnel, and reporting methods. Includes case studies and in-plant audits. Lecture 2 hours. Laboratory 2 hours. Total 4 hours per week. |
| IND
137 Team Concepts and Problem Solving |
3 credits |
| Studies team concepts and problem solving techniques to assist project teams in improving quality and productivity. Provides knowledge of how to work as a team, plan and conduct good meetings, manage logistics and details, gather useful data, communicate the results and implement changes. Lecture 3 hours per week. |
| IND
145 Introduction to Metrology |
3 credits |
| Studies principles of measurement and calibration control, application of statistics to measurement processes, and standards of measurements in calibration. May include the use of gauges and instruments in modern production and dimensional control concepts. Lecture 2 hours. Laboratory 2 hours. Total 4 hours per week. |
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IND 146 Statistical Quality Control |
3 credits |
| Studies essentials and application of statistics in quality control function. May include definitions and uses of averages, standard deviations, ranges, and sampling plans. May discuss dependent and independent variables and distribution probabilities. Lecture 2 hours. Laboratory 2 hours. Total 4 hours per week. |
| IND
150 Industrial Management |
3 credits |
| Studies planning, organizing, directing, and influencing industrial activities. May include research, product design, methods and time management, quality assurance and current manufacturing methodologies. Lecture 3 hours per week. |
| IND
159 Precision Dimensional Measurement |
3 credits |
| Introduces the basic concepts, theories, and applications of Precision Dimensional measurement. Includes a history of Precision Dimensional measurement and the concepts of the transducers and measuring systems used to make such measurements. Incorporates traceability, documentation, and uncertainty analysis into the measurement process as required for laboratory accreditation to ISO 17025. Prerequisite: MTH 115 or equivalent. Lecture 2 hours. Laboratory 3 hours. Total 5 hours per week. |
| IND
160 Introduction to Robotics |
3 credits |
| Studies evolution and history of robotics with an emphasis on automated and flexible manufacturing. Presents advantages and limitations of present robot systems. Lecture 3 hours per week. |
| IND
165 Principles of Industrial Technology I |
4 credits |
| Introduces principle concepts of technology involving mechanical, fluid, electrical, and thermal power as they relate to force, work, and rate. Lecture 3 hours. Laboratory 2 hours. Total 5 hours per week. |
| IND
166 Principles of Industrial Technology II |
4 credits |
| Introduces principle concepts of technology involving mechanical, fluid, electrical, and thermal power as they relate to resistance, energy, power, and force transformers. Places an emphasis on mechanical and advantage systems. Prerequisite: IND 165. Lecture 3 hours. Laboratory 2 hours. Total 5 hours per week. |
| IND
175 Pressure Measurement |
2 credits |
| Introduces the basic concepts, theories, and applications of Pressure measurement. Includes a history of Pressure measurement and the concepts of the transducers and measuring systems used to make such measurements. Incorporates traceability, documentation and uncertainty analysis into the measurement process as required for laboratory accreditation to ISO 17025. Prerequisite: MTH 115 or equivalent. Lecture 1 hour. Laboratory 3 hours. Total 4 hours per week. |
| IND
203 Temperature and Humidity Measurement |
2 credits |
| Introduces the basic concepts, theories, and applications of Temperature and Humidity measurement. Includes a history of Temperature and Humidity measurement and the concepts of transducers and measuring systems used to make such measurements. Incorporates traceability, documentation, and uncertainty analysis into the measurement process as required for laboratory accreditation to ISO 17025. Prerequisite: MTH 115 or equivalent. Lecture 1 hour. Laboratory 3 hours. Total 4 hours per week. |
| IND
204 Opto-Mechanical Measurement of Angles and Surfaces |
2 credits |
| Introduces the basic concepts, theories, and applications of Optical and Mechanical measurement of angles and surfaces. Includes a history of angle and surface measurement and the concepts of the transducers and measuring systems used to make angles and surface measurements. Incorporates traceability, documentation, and uncertainty analysis into the measurement process as required for laboratory accreditation to ISO 17025. Prerequisite: MTH 115 or equivalent. Lecture 1 hour. Laboratory 3 hours. Total 4 hours per week. |
| IND
205 Flow, Viscosity, and Specific Gravity Measurement |
2 credits |
| Introduces the basic concepts, theories, and applications of Flow, Viscosity, and Specific Gravity measurement. Includes a history of Flow, Viscosity, and Specific Gravity measurements and the concepts of the transducers and measuring systems used to make such measurements. Incorporates traceability, documentation, and uncertainty analysis into the measurement process as required for laboratory accreditation to ISO 17025. Prerequisite: MTH 115 or equivalent. Lecture 1 hour. Laboratory 3 hours. Total 4 hours per week. |
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IND 216 Plant Layout and Materials Handling |
3 credits |
| Examines arrangement and layout of physical facilities. Explains material handling and modern techniques for efficient utilization of space. Lecture 2 hours. Laboratory 2 hours. Total 4 hours per week. |
| IND
236 Total Quality Concepts |
3 credits |
| Discusses the fundamentals of Total Quality. Compares and contrasts the philosophies of the recognized experts on the subject. Discusses cultural change, continuous process improvement, and strategic planning. Introduces team skills and concepts. Emphasizes the systems approach to Total Quality philosophy. Lecture 3 hours per week. |
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IND 237 Fundamentals of ISO 9000 |
3 credits |
| Presents the basics of ISO 9000 standards. Focuses on the latest improvements of the standards and redesigned quality concepts set forth by the International Organization for Standardization (ISO). Includes an historical overview of the evolution of quality systems and explains the purpose of ISO quality systems certification. Discusses implementation approaches. Lecture 3 hours per week. |
| IND
245 Time and Motion Study |
3 credits |
| Studies principles and applications of motion analysis, process, operations, and micro-motion study; methods of improvement, work simplification, standardization, rating, allowance and analysis of time data. Lecture 2 hours. Laboratory 2 hours. Total 4 hours per week. |
| IND
251 Automated Manufacturing Systems I |
3 credits |
| Presents basic principles used in the design and implementation of manufacturing work cells. Includes selection of the robot system, worksite, application cell sensors, development of cycle times, and economic analysis. Prerequisite: Divisional approval. Lecture 2 hours. Laboratory 2 hours. Total 4 hours per week. |
