Precision Manufacturing Program Conventional Precision Manufacturing (CPM) Certificate Program During this program, students learn about subjects that form a solid foundation for a career in manufacturing. The CPM program centers on the operation of conventional (manual) machinery used in today's manufacturing workplace. During this noncredit certificate program, students learn: Safety in the Work Environment Engineering Drawing Interpretations (Blueprint Reading) Measurement for Manufacturing Manufacturing Math Conventional Machining (lathe and mill). During the program's 90 hours of shop time, students gain hands-on experience operating manual lathes and mills. In their measurement classes, students learn about and gain experience using a variety of tools utilized in precision manufacturing. Students who successfully complete the CPM program receive a non-credit certificate and are eligible to advance to the next level, the Computer-Aided Manufacturing (CAM) Certificate Program. This program prepares students for high-demand positions. Computer Aided Manufacturing (CAM) Certificate Program During this credit certificate program, students take coursework that prepares them to become Computer Numerical Control (CNC) machine operators. The courses in the CAM Certificate Program include: Manufacturing Materials and Processes I and II CNC Machining I and II Introduction to Lean Manufacturing Principles of CNC with Mastercam Geometric Dimension and Tolerancing Introduction to Quality Control Classes begin January 11, 2016 For more information, contact Ed Dombroski: edombroski@mcc.commnet.edu: 860-512-2814 This program is funded in part by the Connecticut Advanced Manufacturing Initiative (CAMI), a Trade Adjustment Assistance Community College and Career Training grant, as implemented by the Employment and Training Administration, U.S. Department of Labor. CAMI is an equal opportunity program. Auxiliary aids and services are available upon request to individuals with disabilities.
Non-Credit Certificate Program Conventional Precision Manufacturing Certificate Program MFT 85981 Conventional Machining Lab (90 hours) Students are introduced to a variety of conventional machine tools such as: mills, drills, and lathes. Topics include: cutting tool and tool holder selection; work holding methods, spindles and arbors, utilized to set up these machine tools for production. (Prerequisite: MFG 115 Safety in the Work Environment) Course Descriptions EGR* 112 Engineering Drawing Interpretations (Blueprint Reading) (3 credits) An introduction to the interpretation of engineering drawings beginning with the basics of orthographic projection. Topics include: working drawings, lines, linear and angular dimensioning, sectional views, tolerances and allowances, thread representation, arrowless and tabular dimensioning, steel specifications, auxiliary views, point-to point and datum dimensioning conforming to ANSI Y14.5M and ISO standards MFG 115 Safety in the Work Environment (1 credit) This course is an introduction to safety and health issues encountered in manufacturing environments. This module introduces students to the concepts of personal and work environment safety requirements of manufacturers and introduces students to governmental oversight agencies such as OSHA. Upon completion, students will be able to demonstrate an ability to: Identify the major components of 2 axis lathes and 3 axis vertical mills Identify and select cutting tools and holders Perform setups for conventional machines Inspect parts with common inspection tools Tram the head of a vertical mill Square a block in preparation for production Identify and compensate for backlash Function safely in a manufacturing environment MFT 85045 Manufacturing Math (60 hours) This is a foundation module in manufacturing math. Topics include: a review of: common fractions, mixed numbers, decimal fractions, ratios, proportions, percentages, algebraic expressions. Geometric entities including the circle, right and oblique triangles and angular arithmetic including angle decimal conversion, the Pythagorean Theorem, Sine, Cosine and Tangent functions will be covered. MFT 85035 Measurement for Manufacturing (30 hours) This course provides students with the basics in measurement for manufacturing, incorporating an introduction to the construction and usage of inspection tools, as well as a comprehensive set of hands-on exercises. These tools will be utilized to discover the dimensional characteristics of a variety of sample parts. 1
Credit Certificate Program Computer Aided Manufacturing Certificate Program MFG* 171 Introduction to Lean Manufacturing (3 Credits) Course Descriptions First 8 weeks: MFG* 111 Mfg. Materials/Processes I (3 Credits) An introduction to the basic principles on which manufacturing processes are based, and to the basic materials produced by or used in these Processes. Topics include: the basic processes in manufacturing metals, testing or engineering materials; ferrous and non-ferrous metals and alloys; fundamental metalcasting, molding and heat treating processes; nonmetallic materials; metal cutting, forming, welding and joining; metal machining processes; and quality control measurement and inspection. This course provides the student with the fundamental knowledge of current continuous process improvement methodologies in use today within competitive manufacturing environments. This introductory course will expose the student to the basic concepts of Lean Manufacturing theory and the various tools and techniques involved with a lean implementation. This course will be presented following the lean-six sigma process methodology of DMAIC (Define, Measure, Analyze, Improve, Control) to ensure that at the completion of the course, the student will be competent to participate effectively as a team member in lean implementation projects. MFG* 244 CNC MACHINING I (3 Credits) Students will receive instruction in CNC control commands (G&M code) through the extensive use of in-class CNC control simulators enhanced with Hands-on lab experience. Basic M&G code will be utilized to identify and correct programming errors. The benefits of working from a CAD file will also be explained. MFG* 239 Geometric Dimension and Tolerancing (3 Credits) An intermediate course in the interpretation of engineering drawing beginning with the basics of dimensional tolerances and tolerance systems. Topics include: the mathematics of interpreting and specifying tolerances on dimensions, the system of geometric tolerancing, the basic nomenclature and standard symbols conforming to ANSI Y14.5M 2
CAM Course Descriptions Second 8 weeks: MFG* 245 CNC MACHINING II Lab Projects (4 credits) Students will be introduced to Computer Numerical Control (CNC) topics including: setup and tooling, programming simple parts, modification of programs to compensate for process variation, utilization of canned drilling cycles, circular interpolation, special milling cycles, looping and special features. Upon completion, students will be able to: set up CNC 3 axis mills; locate, load and proof the CNC program: execute the program; inspect parts: and modify program instructions via M&G code. MFG* 114 Quality Control (3 credits) The students will learn how to utilize a broad array of QC tools such as: process plans, inspection plans, control charts, sampling plans, and run charts to analyze, control and improve the manufacturing process. MFG 112 Materials/Processes II (3 credits) A continuation of MFG 111: Manufacturing Materials and Processes I with emphasis on metal machining and fabrication technologies, numerical control machining, tooling and fixture design and manufacture, and advanced metals machining technologies and concepts. MFG 205 Principles of CNC with Mastercam (3 credits) This course is an introduction to computer numerical control (CNC) programming of 2- and 3-axis machine tools by generating 20 and 30 geometries using Mastercam software. Topics include an introduction to CNC programming coding, set-up tooling, operation, and troubleshooting based on industry print standards. Students learn the basic principles and applications of numerically controlled software and hardware and experience the set up and operation of CNC milling machines and lathes. 3
ReR Precision Manufacturing Programs Projected Tuition & Expenses Revised: Oct. 2015* Semester Credit Extension Fees (Tuition) Application Fee (1st Time Student) College Services Fee Student Activity Fee CPM 1 $648.00 $20.00 $92.00 $5.00 $765.00 CAM A 1 $1,944.00 $216.00 $10.00 $2,170.00 CAM B 1 $2,106.00 $216.00 $10.00 $2,332.00 $5,267.00 * Tuition rate is subject to change at the discretion of the Board of Regents Total Non-Credit Certificate Program Conventional Precision Manufacturing Certificate Program PLACEMENT TEST (CASAS) INFORMATION The placement test (CASAS) is required to gain entrance into the Conventional Precision Manufacturing Certificate program. To take this test, you will need to set up an appointment with the coordinator of CASAS testing. Coordinator: Daryn Kjellquist Phone: 860-512-3594 (leave message) Location: Lowe Building, Room 131A Days on which you can reach Daryn: Monday & Wednesday You will be notified of your test results approximately one week after the test. Your reading score must be at least 223 and your math score must be at least 228. 4