All courses with CAD, ELE, IMT, LOM, and MFG prefixes. |
Various |
CAD Electives |
Details |
3 |
All courses with CAD prefix. |
CAD 101 |
Introduction to Drafting and Blueprint Reading for CAD |
Details |
3 |
Introduces the student to basic tools and techniques needed in the drafting and blueprint reading profession as applied to CAD. 1.5 lecture hours, 3 lab hours |
Prerequisites: |
(none) |
|
CAD 102 |
Drafting Terminology for CAD |
Details |
3 |
Introduces the student to the terminology used in the drafting field as related to computer-aided design. This course is not intended to be a drafting course. 2.5 lecture hours, 1 lab hour |
Prerequisites: |
CAD 101 |
|
CAD 104 |
Introduction to Computer-Aided Design |
Details |
3 |
An introduction to the use of CAD using AutoCAD. Students are introduced to the capabilities of various hardware and software systems by creating, editing, copying, moving and/or deleting entities. 1.5 lecture hours, 3 lab hours |
Prerequisites: |
CAD 101 or concurrent, or consent of department |
|
CAD 106 |
CAD Applications I |
Details |
3 |
The first of three courses in CAD applications. The focus of this course will include parametric modeling, layouts, notes and dimensions, tolerances, and plotting drawings. 1.5 lecture hours, 3 lab hours; IAI: IND 911 |
Prerequisites: |
(none) |
|
CAD 114 |
Introduction to Parametric Modeling |
Details |
3 |
This course is an introduction to engineering design and graphics, including design problems, sketching, dimensioning, tolerancing, multi-view orthographic representations, auxiliary views, section views, and working drawings using SolidWorks. 1.5 lecture hours, 3 lab hours |
Prerequisites: |
(none) |
|
CAD 195 |
Special Topics in Computer-Aided Design |
Details |
1-4 (Varies) |
Deals with current topics in CAD not covered in other courses. Topics will vary at discretion of the instructor. No topic will be offered more than twice within three years. May be repeated three times with different topics. Topic to be listed on student's permanent academic record. |
Prerequisites: |
Consent of department |
|
CAD 200 |
CAD Applications II |
Details |
3 |
A continuation of CAD 106 using Inventor. Items include assembly of parametric models, working drawings, dimensioning and notes. 1.5 lecture hours, 3 lab hours. |
Prerequisites: |
CAD 106 or consent of department |
|
CAD 202 |
CAD Applications III |
Details |
3 |
A continuation of CAD 200 using Inventor. Items covered include advanced 3D drawings, reverse engineering of parts and assemblies. 1.5 lecture hours, 3 lab hours |
Prerequisites: |
CAD 200 or consent of department |
|
CAD 204 |
Three-Dimensional Applications |
Details |
3 |
Expands upon the area of 3D; covers drawing enhancements available, translation of drawing files (3D) into compatible file formats for other operations such as mass property calculations, centers of gravity calculations using SolidWorks. 1.5 lecture hours, 3 lab hours. |
Prerequisites: |
CAD 114 or consent of department |
|
CAD 210 |
Design and Prototyping |
Details |
3 |
Engineering and technology research, design, and development strategies are emphasized to develop the creativity, critical thinking, and innovation skills necessary to generate new products, identify product ideas, and design, develop, test, analyze, and successfully fabricate a prototype. Prototypes will often be created using 3D filament and 3D resin printers, but other processes may be used. 1.5 lecture hours, 3 lab hours. |
Prerequisites: |
CAD 114 or CAD 106 |
|
CAD 214 |
Advanced 3-D Applications-Solid Works |
Details |
3 |
This course is a continuation of CAD 204. This project-based course focuses on 3-D sheet metal design techniques and advanced assembly modeling using the current version of SolidWorks. 1.5 lecture hours, 3 lab hours |
Prerequisites: |
CAD 204 or consent of department |
|
CAD 230 |
Introduction to the Manufacturing Processes |
Details |
3 |
Acquaints the student with the following areas of manufacturing processes: material control, production control, material handling, quality and cost controls, purchasing procedures, and the J-I-T process. Students will qualify to sit for the MSSC-M3 - Manufacturing Processes and Production Certification. |
Prerequisites: |
(none) |
|
CAD 231 |
Tool Design I |
Details |
3 |
Exposes the student to the field of tool design; includes the basics of the design of tools, fixtures and jigs. 2 lecture hours, 2 lab hours |
Prerequisites: |
CAD 200 or concurrent |
|
CAD 233 |
Architectural Design I |
Details |
3 |
Introduces the student to the architectural drafting and design field and its interface to CAD. Covers the drafting techniques that are commonly used in the architectural drafting field and familiarizes the student with building and construction codes. 1.5 lecture hours, 3 lab hours. |
Prerequisites: |
CAD 200 or concurrent |
|
CAD 299 |
CAD Internship |
Details |
1-5 (Varies) |
Students are placed in selected areas of manufacturing and production using CAD/CAM (Computer-Aided Design/Computer-Aided Manufacturing) to learn and become acquainted with the many different aspects of the working environment. Dual supervision provided by College staff and the operating business. Course requires 80 hours of work experience for each credit hour. |
Prerequisites: |
Consent of department |
|
|
Various |
ELE Electives |
Details |
3 |
All courses with the ELE prefix. |
ELE 100 |
Survey of the Electrical Trade |
Details |
2 |
The course is designed to provide career information for an electrician. The type of work performed by an electrician, including working conditions, physical requirements, necessary mechanical aptitude, safety considerations, and other aspects, will be explained. Students will develop skills in the use of basic instruments, equipment, techniques, and hand tools. Electrical codes, blueprints, and electrical systems will be covered. 1 lecture hour, 2 lab hours. |
Prerequisites: |
(none) |
|
ELE 101 |
Blueprint Reading for Electricians |
Details |
3 |
This course is designed to help students understand prints and diagrams used by electricians. Drawings of residences and commercial buildings will be studied. The National Electrician Code will be studied along with the exercises. |
Prerequisites: |
(none) |
|
ELE 105 |
Electrical Safety in Workshop |
Details |
1 |
This course is designed to educate students about NFPA 70E, a National Fire Protection Association (NFPA) standard designed to protect workers from the dangers of electricity. Students will learn about various types of electrical hazards and how to conduct a thorough risk assessment before starting electrical work. They will also learn the hierarchy of risk controls and safe work practices. |
Prerequisites: |
(none) |
|
ELE 110 |
Introduction to Electricity |
Details |
3 |
Course provides a comprehensive study of electronic theory, practices and fundamentals. Laboratory activities explore the underlying principles of DC and AC circuitry through measurement analysis and problem solving strategies. 2 lecture hours, 2 lab hours. |
Prerequisites: |
(none) |
|
ELE 115 |
Electrical Troubleshooting |
Details |
2 |
Working with real-world components, students in this Electrical Troubleshooting course will learn how to fix electrical problems quickly and safely. The course was created to bring students up to speed in their electrical troubleshooting skills as efficiently as possible, and to cover the most commonly performed electrical troubleshooting tasks a maintenance technician faces in their job every day. For the novice or experienced electrician, this training course provides a no-nonsense, practical and real-world systematic approach to electrical troubleshooting. This course can also be adopted as part of a company’s regular Qualified Electrical Worker program. 2 credits (1.25 lecture and 1.5 lab) |
Prerequisites: |
(none) |
|
ELE 120 |
Introduction to National Electrical Code |
Details |
3 |
An introduction to the national electrical code that will provide the student with a working knowledge of the requirements set forth nationally for practicing electricians. |
Prerequisites: |
(none) |
|
ELE 125 |
Electrical Applications I |
Details |
3 |
This course provides the basic skills and knowledge that the electrician uses in the day-to-day routine. Students develop skills in applying electrical blueprint reading, wiring diagrams, and schematic drawings to problem situations. In addition, students develop material lists, cite appropriate codes, and identify potential safety hazards associated with specific jobs. Practical laboratory activities are provided. 1.5 lecture hours, 3 lab hours. |
Prerequisites: |
ELE 120, or consent of department |
|
ELE 130 |
Residential Electricity |
Details |
3 |
An introduction to residential wiring, plans, specifications, and codes. Students are provided theory and lab assignments in the use of wiring diagrams, hooking up single-phase systems, wiring basic lighting and receptacle circuits, and installing low-voltage switching and control circuits. 1.5 lecture hours, 3 lab hours. |
Prerequisites: |
ELE 100 and ELE 110, or consent of department |
|
ELE 135 |
Programmable Control |
Details |
3 |
A practical and theoretical approach to the installation, programming, and maintenance of programmable control (PC) equipment. The course develops skills in the application of PC equipment and computers in manufacturing processes. Practical laboratory activities are provided. 1.5 lecture hours, 3 lab hours. |
Prerequisites: |
IMT 120 or consent of department |
|
ELE 195 |
Special Topics in Electrical Technology |
Details |
1-4 (Varies) |
Deals with current topics in electricity not covered in other courses. Topics will vary at discretion of the instructor. No topic will be offered more than twice within three years. May be repeated three times with different topics. Topic to be listed on student's permanent academic record. |
Prerequisites: |
Consent of department |
|
ELE 199 |
Electrical Technology Internship |
Details |
1-5 (Varies) |
This course offers electrical technology students several options for acquiring work-based education in the electrical work site environment. Students may elect to participate in an approved apprenticeship, internship, job shadowing, or mentoring activity as it pertains to their career goals. The course provides the opportunity to apply classroom theory and experience the dynamics of modern industry. Students complete 80 hours of on-the-job training per semester for each enrolled credit hour. Course requires 80 hours of work experience for each credit hour. |
Prerequisites: |
Successful completion of at least 24 credit hours of course work and a minimum of a 2.0 GPA |
|
ELE 205 |
Commercial Electricity |
Details |
3 |
Theory and laboratory assignments in commercial wiring, conduit, blueprint reading, safety, and the National Electrical Code as they apply to commercial circuits. Students will plan, lay out, install, and troubleshoot high- and low-voltage circuits and devices used in commercial buildings. 1.5 lecture hours, 3 lab hours. |
Prerequisites: |
ELE 125 or consent of department |
|
ELE 220 |
Electrical Applications II |
Details |
3 |
Provides the advanced skills and knowledge that the electrician uses in solving electrical problems found in day-to-day situations. Students develop skills in applying electrical theory to the solution of these problems. In addition, students develop material lists, cite appropriate codes and identify potential safety hazards associated with specific jobs. Practical laboratory activities are provided. 1.5 lecture hours, 3 lab hours. |
Prerequisites: |
ELE 125 or consent of department |
|
ELE 225 |
Industrial Electricity |
Details |
3 |
An introduction to industrial wiring, blueprint reading, troubleshooting, and the National Electric Code. Theory and lab assignments in bus systems, unity substations, panelboards, sub feeders, conduit, and special equipment. 1.5 lecture hours, 3 lab hours. |
Prerequisites: |
ELE 205 or consent of department |
|
ELE 230 |
Specialized Electrical Circuits |
Details |
3 |
The introduction of specialized electrical circuits, such as emergency lighting, security, communications, fire alarm, and data processing systems. Students will apply knowledge of blueprints, codes and safety precautions in the solution of installation problems. 1.5 lecture hours, 3 lab hours. |
Prerequisites: |
ELE 205 and ELE 220, or consent of department |
|
ELE 235 |
Electrical Systems Analysis |
Details |
3 |
A comprehensive program of laboratory experiments and report writing to master the principles and operation of machines and devices that generate, transform, and use electrical power. Emphasis is placed on the analysis and assessment of complex electrical circuits. 1.5 lecture hours, 3 lab hours. |
Prerequisites: |
ELE 135 or consent of department |
|
ELE 240 |
Instrumentation |
Details |
3 |
This course is designed to introduce the student to various types of instrumentation and control systems and devices. Topics of study include principles of control systems, methods of measurement, and control elements. This course will primarily cover pressure, temperature, level and flow detection instrumentation. 2 lecture hours, 2 lab hours. |
Prerequisites: |
IMT 120 or consent of department |
|
ELE 295 |
Advanced Special Topics in Electrical Technology |
Details |
1-4 (Varies) |
Deals with current topics in electricity not covered in other courses. Topics will vary at discretion of the instructor. No topic will be offered more than twice within three years. May be repeated three times with different topics. Topic to be listed on student's permanent academic record. |
Prerequisites: |
Consent of department |
|
Various |
Electives |
Details |
3 |
Any credit-based course may be taken to fulfill this requirement. Students should always discuss with their advisor which electives would be best for them to take to best achieve his or her particular goals. |
Prerequisites: |
Varies by course |
|
|
Various |
IMT Electives |
Details |
3 |
All courses with the IMT prefix. |
IMT 110 |
Industrial Wiring |
Details |
2 |
This course is designed to provide a theoretical framework for the understanding of industrial wiring and its applications with hands-on activities to reinforce the concepts introduced. Students will learn about the electrical power distribution and the installation and wiring of industrial electrical equipment. 1 lecture hour, 2 lab hours |
Prerequisites: |
(none) |
|
IMT 120 |
Industrial Motors & Controls |
Details |
3 |
This course is designed to provide a theoretical framework for the understanding of motors and controls and its applications with hands-on activities to reinforce the concepts introduced. Students will learn about motor control systems, devices, circuits and troubleshooting. 1.5 lecture hours, 3 lab hours |
Prerequisites: |
(none) |
|
IMT 140 |
Pumps/Piping |
Details |
2 |
This course is designed to provide a theoretical framework for the understanding of pump and piping operation and its applications with hands-on activities to reinforce the concepts introduced. Students will learn about maintenance tasks such as pump installation, shaft alignment, wiring, operation, inspection, piping schematics, calculation or pipe lengths, fabrication, installation, and testing of piping circuits, maintenance, troubleshooting and component replacement. 1 lecture hour, 2 lab hours. |
Prerequisites: |
(none) |
|
IMT 150 |
Fluid Power I (Hydraulics) |
Details |
3 |
This course is designed to provide a theoretical framework for the understanding of hydraulics and its applications with hands-on activities to reinforce the concepts introduced. Students will learn about hydraulic fundamentals, electrical control of hydraulic systems, hydraulic applications, sensors, and troubleshooting hydraulic circuits. 1.5 lecture hours, 3 lab hours. |
Prerequisites: |
(none) |
|
IMT 155 |
Fluid Power II (Pneumatics) |
Details |
2 |
This course is designed to provide a theoretical framework for the understanding of pneumatics and its applications with hands-on activities to reinforce the concepts introduced. Students will learn about pneumatic fundamentals, electrical control of pneumatic systems, pneumatic applications, sensors, and troubleshooting pneumatic circuits. 1 lecture hour, 2 lab hours. |
Prerequisites: |
(none) |
|
IMT 195 |
Special Topics in Industrial Maintenance |
Details |
1-4 (Varies) |
Deals with current topics in industrial maintenance not covered in other courses. Topics will vary at discretion of the instructor. No topic will be offered more than twice within three years. May be repeated with different topics to maximum of four credit hours. Topics to be listed on student's permanent academic record. |
Prerequisites: |
Consent of department |
|
IMT 199 |
Industrial Maintenance Internship |
Details |
1-5 (Varies) |
Students are placed in selected areas of an industrial maintenance department to learn about and become acquainted with the many different aspects of the working environment. Dual supervision is provided by college staff and the operating business. Course requires 80 hours of work experience for each credit hour. |
Prerequisites: |
Successful completion of 16 credit hours of course work or consent of department |
|
IMT 200 |
Mechanical Systems |
Details |
3 |
This course is designed to provide a theoretical framework for the understanding of mechanical systems and predictive maintenance and its applications with hands-on activities to reinforce the concepts introduced. Students will learn about the installation, use, predictive maintenance, and troubleshooting of mechanical drive components. 1 lecture hour, 4 lab hours. |
Prerequisites: |
(none) |
|
IMT 235 |
Mechatronics |
Details |
4 |
This course introduces the student to industrial robots, programmable logic controllers (PLCs), and troubleshooting integrated systems. The student will learn ladder logic operation of PLCs, programming industrial robots, and troubleshooting methods/practices. 2 lecture hours, 4 lab hours. |
Prerequisites: |
ELE 135 |
|
IMT 290 |
Rigging |
Details |
2 |
This course is designed to provide a theoretical framework for the understanding of rigging systems and its applications with hands-on activities to reinforce the concepts introduced. Students will learn about the fundamentals of rigging practices and the techniques to move, lift and install machines. 1 lecture hour, 2 lab hours. |
Prerequisites: |
(none) |
|
|
Various |
LOM Electives |
Details |
3 |
All courses with the LOM prefix. |
LOM 100 |
Introduction to Logistics Management |
Details |
3 |
This course presents an overview of logistics and supply chain management, customer service, and inventory management for personnel working in retail, wholesale and the manufacturing sectors. Course content is based on the Manufacturing Skill Standards Council Certified Logistic Technician (MSSCCLT) curriculum. When taking this class online, students are required to take the MSSC-CLA exam and the MSSC-CLT exam at JWCC or any authorized MSSC testing facility. |
Prerequisites: |
(none) |
|
LOM 101 |
Transportation |
Details |
3 |
This course presents an overview of transportation, the transportation environment, the basic modes of transportation, the regulatory and public policy frameworks, and emerging transportation management issues. |
Prerequisites: |
(none) |
|
LOM 104 |
Introduction to Warehouse Management |
Details |
3 |
An examination of warehouse management related to physical layout, personnel, strategies, safety and performance and its involvement with inventory and transportation management within the supply chain. |
Prerequisites: |
(none) |
|
LOM 180 |
Project Management |
Details |
3 |
This course introduces a practical approach to managing essential resources, people and deadlines. It will address real-world challenges required to bring any project in on time, on target and on budget. Students will learn skills and concepts of essential project management processes, defining requirements, schedules, risk management assessment, change control and project management software applications. This course provides a practical approach to developing projects with opportunities to apply skills and elements by completing activities based upon real-time projects and case studies. |
Prerequisites: |
CSC 104 and CSC 107 or consent of department |
|
LOM 195 |
Special Topics in Logistics |
Details |
1-4 (Varies) |
Deals with current topics in logistics and supply chain management not covered in other courses. Topics will vary at discretion of the instructor. No topic will be offered more than twice within three years. May be repeated with different topics to maximum of four credit hours. Topics to be listed on student's permanent academic record. |
Prerequisites: |
Consent of department |
|
LOM 199 |
Logistics Internship |
Details |
1-5 (Varies) |
Students are placed in selected areas of Logistics, Operations Management or Supply Chain Management department to learn about and become acquainted with the many different aspects of the working environment. Dual supervision is provided by college staff and the operating business. Course requires 80 hours of work experience for each credit hour. |
Prerequisites: |
Consent of department |
|
|
Various |
MFG Electives |
Details |
3 |
All courses with the MFG prefix |
MFG 103 |
Introduction to Manufacturing Maintenance |
Details |
2 |
This course provides a basic understanding of tools and equipment used in manufacturing and knowledge of how to improve productivity through predictive and preventive maintenance. Course content is based on the Manufacturing Skill Standards Council (MSSC) Certified Production Technician curriculum. Students will qualify to sit for MSSC-M4 - Maintenance Awareness Certification through the MSSC. |
Prerequisites: |
(none) |
|
MFG 104 |
Quality/Continuous Improvement |
Details |
3 |
This course provides an introduction to controlling and improving quality in a manufacturing setting. It explores ways that manufacturers use data and analysis to improve quality and introduces students to lean manufacturing techniques. Course content is based on the Manufacturing Skill Standards Council (MSSC) Certified Production Technician curriculum. Students will qualify to sit for MSSC-M2 - Quality and Continuous Improvement Certification through the MSSC. |
Prerequisites: |
(none) |
|
MFG 106 |
CNC Turning |
Details |
3 |
Students will be provided with a blueprint and will be responsible for programming, editing, and choosing cutting tools to create a finished part on a Computer Numerical Control (CNC) turning center. Students will program, set-up and produce finished parts. The course includes programming for producing fast finished parts along with all documentations needed for the parts produced. The course is designed to meet the National Institute of Metalworking Skills (NIMS) Level 1 CNC milling certification. 2 lecture hours, 2 lab hours. |
Prerequisites: |
MFG 111 or consent of department |
|
MFG 110 |
Introduction to CAD/CAM |
Details |
3 |
A continuation of the study of Computer Numerical Control (CNC) programming with emphasis on advanced milling and turning machine techniques, program set-up, carbide tooling, program input, program editing, and introductory 3-D machining techniques. Trains machine tool qualified individuals in the operation and programming of CNC machining centers interfaced with CAD/CAM software. CNC applications will be applied to the development of projects through secondary laboratory experiences. 1.5 lecture hours, 3 lab hours. |
Prerequisites: |
CAD 114 and MFG 105 or consent of department |
|
MFG 111 |
CNC Milling |
Details |
4 |
Students will learn to program, edit, and produce a finished part using a Computer Numerical Control (CNC) machining center. The course will start with basic programming methods and advance to more complex programming codes. Students will be responsible for setting-up and producing finished parts within the tolerances that are specified. The course is designed to meet the National Institute of Metalworking Skills (NIMS) Level 1 CNC milling certification. 3 lecture hours, 2 lab hours. |
Prerequisites: |
MFG 135 or consent of department |
|
MFG 113 |
Introduction to Manufacturing & Industrial Safety |
Details |
3 |
This course provides students with an introduction to the manufacturing world and provides specific instruction to facilitate safe work practices in industrial environments. It introduces manufacturing specializations such as mechatronics, precision machining and welding and covers fire safety, pressurized gases, electrical hazards, safe machine usage, and lock out tag out. Students learn concepts of industrial noise, machine guarding, electrical safety, chemical exposure, hazardous waste, Worker's Compensation laws, liability, and general safety precautions for the workplace. Course content is based on the Manufacturing Skill Standards Council (MSSC) Certified Production Technician curriculum and OSHA standards. Students will qualify to sit for MSSC-M1-Safety Certification through the MSSC. |
Prerequisites: |
(none) |
|
MFG 120 |
Industrial Robots |
Details |
3 |
This course introduces students to industrial robots and Programmable Logic Controllers (PLCs). Included is the operation of PLCs. Students will learn ladder diagram programming of PLCs and point-to-point programming for industrial robots. 2 lecture hours, 2 lab hours. |
Prerequisites: |
(none) |
|
MFG 121 |
Advanced Manufacturing Safety Culture |
Details |
1 |
Introduces the importance of cultivating daily safe work habits and the predictable negative results of not being safety conscious in the workplace. Instructs the students in basic safety culture and prepares them to participate in, conduct, and lead safety walk-throughs. Introduces the student to Safety Discussions. Prepares the student to conduct risk assessment activities, construct safety boards, and formulate individual safety commitments. |
Prerequisites: |
(none) |
|
MFG 122 |
Advanced Manufacturing 5S Principles |
Details |
1 |
Introduces the fundamental 5S process involving the five-step progression described by the Japanese words Seiri, Seiton, Seiso, Seiketsu, and Shitsuke. Instructs the students in the sequence involving classifying and sorting, ordering, and aligning, cleaning, and sweeping up, standardizing, and developing a process of sustainable practice in the workplace. Fosters the development of a workplace organization in which safety and efficiency are always paramount. |
Prerequisites: |
(none) |
|
MFG 123 |
Total Management Production |
Details |
1 |
Instructs the student in the concepts of value-added product, maintenance value-added product, value-added work, and necessary work. Explains the process of how employers earn profit. Demonstrates the Lean Production System for Maintenance using the TPS House framework. Describes and explains the three Ms and the seven Mudas and their relationship to maintenance and production. |
Prerequisites: |
(none) |
|
MFG 126 |
Problem Solving in Advanced Manufacturing |
Details |
1 |
Introduces the 8 step Problem Solving method and the 10-part Drive and Dedication model. Instructs the students to clarify the problem, break it down to analyze it, set achievable targets, analyze the root cause, develop countermeasures, evaluate results and the process, standardize the results, and learn from failures. Fosters the development of a customer first philosophy involving all the stakeholders. |
Prerequisites: |
(none) |
|
MFG 127 |
Machine Reliability Advanced Manufacturing |
Details |
1 |
Introduces Maintenance Reliability training. Describes the difference between corrective maintenance and preventive maintenance. Breaks down proactive maintenance and the underlying tools and constituent processes. Instructs the students in the various individual units in a system and the steps in evaluating failure mode risks and countermeasures. |
Prerequisites: |
(none) |
|
MFG 131 |
Maintenance Machinist Fundamentals |
Details |
2 |
This course provides an overview of machining processes. The course introduces a wide variety of skills in the planning, machining, and finishing of metal products. Students develop basic skills in the use of measurement devices, hand tools, hardware types, locating holes, drill press, band saw, engine lathe, key mills, bearings, and shaft seals. 2 credits (1 lecture/2 lab) |
Prerequisites: |
(none) |
|
MFG 135 |
Precision Machining I |
Details |
3 |
This course provides an overview of machining processes. The course introduces a wide variety of skills in the planning, machining and finishing of metal products. Students develop basic skills in the use of hand tools, drill press, band saw, engine lathe, vertical milling machine and related equipment. 1.5 lecture hours, 3 lab hours. |
Prerequisites: |
Prerequisite/Corequisite: MFG 113 |
|
MFG 145 |
Introduction to Robotics Operations |
Details |
3 |
This course covers the evolution of robotics and how they are used in a manufacturing or distribution facility. Students will learn the various classifications of robots, understand work-cell sensors, end-of-arm tooling, and the various types of robotics programming. 2 lecture hours, 2 lab hours. |
Prerequisites: |
(none) |
|
MFG 150 |
Handling Tool Operations/Programming |
Details |
3 |
This course is intended for an operator, technician, engineer or programmer who must setup and record programs on a robot. The course covers the tasks required to set up the specific application, test, run and refine the program and production setup. The course consists of lectures, demonstrations and lab exercises. 1.5 lecture hours, 3 lab hours. |
Prerequisites: |
(none) |
|
MFG 195 |
Special Topics in Manufacturing |
Details |
1-4 (Varies) |
Deals with current topics in manufacturing not covered in other courses. Topics will vary at discretion of the instructor. No topic will be offered more than twice within three years. May be repeated three times with different topics. Topics to be listed on student's permanent academic record. Possible topics include case studies, simulations, special problems or problem-solving techniques. |
Prerequisites: |
Consent of department |
|
MFG 199 |
Manufacturing Internship |
Details |
1-5 (Varies) |
Students are placed in selected areas of a manufacturing facility to learn about and become acquainted with the many different aspects of the working environment. Dual supervision is provided by college staff and the operating business. Course requires 80 hours of work experience for each credit hour. |
Prerequisites: |
Successful completion of 14 credit hours of course work or consent of department |
|
MFG 235 |
Precision Machining II |
Details |
3 |
This course provides a working, hands-on of machining processes. The course introduces a wide variety of skills in the machining and finishing of metal products. Students develop basic skills in the use of hand tools, drill press, band saw, engine lathe, vertical milling machine and related equipment. Not everyone will pass the NIMS testing; this does not mean you will fail the class. 1.5 lecture hours, 3 lab hours |
Prerequisites: |
MFG 135 or consent of department |
|
MFG 250 |
Physical Metallurgy |
Details |
3 |
Introduction to the properties of metals, effects of metals in various forms and shapes, thermal treatments, phase diagrams, and principles concerning material science including atomic and crystal arrangements and their effect on mechanical properties. Lab work will include testing ferrous and nonferrous metals through hands-on examination. |
Prerequisites: |
(none) |
|
MFG 295 |
Advanced Special Topics in Manufacturing |
Details |
1-4 (Varies) |
Deals with current topics in manufacturing not covered in other courses. Topics will vary at discretion of the instructor. No topic will be offered more than twice within three years. May be repeated with different topics to maximum of four credit hours. Topics to be listed on student's permanent academic record. Possible topics include case studies, simulations, special problems or problem solving techniques. |
Prerequisites: |
Consent of department |
|
|
|