technology and engineering - charles h. mccann … · web viewthe machine technology department’s...
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Machine TechnologyGrade 11
Northern Berkshire Vocational Regional School DistrictCharles H. McCann Technical School
70 Hodges Cross RoadNorth Adams, MA 01247
Scott BottoMachine Technology Instructor
Thomas MatuszakMachine Technology Instructor
Gary WoodMachine Technology Instructor
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COURSE PHILOSOPHY
The Machine Technology Department’s philosophy at McCann Technical School is to
provide and educate students in as many aspects of the machine trade as possible and to provide
them the opportunities to become skilled, successful citizens of the global community. The
instructors are committed in providing a safe, industry-standard learning environment that
promotes commitment, teamwork, communication skills, strong work ethic and responsibility.
Students are encouraged to pursue work in a related field, continuous education and industry
related training upon successful graduation from the department. During the junior year
SkillsUSA competitions and championships reward students for excellence and keep training
relevant to employers' needs. The goal of the program is not only to produce skilled CNC
operators and programmers, but to give students the ability to adapt their talents to the ever-
changing technologies in the manufacturing world.
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Grade 11 Course Syllabus
COURSE DESCIPTION:
Introduces two and three axis CNC mill machining and the CNC lathe. Develops the theory of programming with application of the program accomplished on industry-type machines. Studies terminology of coordinates, cutter paths, angle cutting, and linear and circular interpolation. Introduces CAD/CAM and Automated Manufacturing with the use of MasterCAM software.
COURSE OBJECTIVES:
At the completion of this course the student will be able to:
Manually write out basic CNC programs using G and M codes
Manually enter data into a CNC machine (MDI)
Perform CNC machine startup operations
Perform control panel operations
Set datum or part zero points
Set tool and part offsets
Use cutter compensation
Dry run, edit and run a program
Inspect parts to prints and tolerances
Design parts using MasterCAM Design software
Use MasterCAM to create toolpaths from designs
Post and transfer files to CNC equipment
Send and Receive transferred files on CNC equipment
Manufacture and inspect parts
Using state and national standards, project-based learning experiences were developed that:
• Use a method of instruction that actively engages students in solving work-based, real-life problems where knowledge application promotes knowledge acquisition.
• Provide opportunities to work in teams where communication, both verbal and written, is an intrinsic part of the learning process.
• Improves the level of technical engagement and expectation for all students, and allows students to individualize the learning experience to meet their needs.
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The main projects developed include Cavity and Core design and production for plastic injection molding, MasterCAM Innovator of the Future project design and production, and Mini Baja Vehicle design and production.
COURSE ASSESSMENT PLANStudents are assessed in a variety of ways. Each student is assessed on attendance and participation on a daily basis. There is also a weekly assessment based on quantity of work, quality of work, effort and problem solving ability. (Please see grading criteria). Tooling University class assessments are counted as quiz grades. Performance assessments based on MasterCAM and NIMS standards when students have successfully completed the required tasks and projects. Final exams are given to grade 11 students in June of each year. All assessments are based on the grading system guidelines as published in the student/parent handbook.
Report cards are issued quarterly and serve as a guideline for students and parents to measure achievement. Parents are encouraged to contact instructors to ensure a continuing participation in student progress. Progress reports are issued four times a year in the middle of each quarter to provide students and parents a timely update on progress and achievement.
For the Machine Technology students at Charles H. McCann Technical School the following assessment plan will be followed:
GRADING SYSTEM:“Student assessment and grade reporting is considered a positive tool to measure growth, progress, and the development of the student. Report cards are issued four times each year. In addition, progress reports are issued at the mid-point of each quarter.” (2010-2011 McCann Student Handbook)
100-97 A+96-94 A93-90 A-89-87 B+86-84 B83-80 B- 79-77 C+76-74 C73-70 C-69-67 D+66-65 D64-0 FExcused X
Excused” X may be used to denote medical reasons for a student's inability to participate in physical education or complete the recommended curriculum or any portion of the curriculum. In cases where there are long-term illnesses or accidents and students cannot complete the course requirements, an alternative means of grading may be necessary.
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MACHINE TECHNOLOGY GRADING POLICY:
Theory:40% Tests & Quizzes (Tooling U)20% Homework15% Notebook15% SkillsUSA PDP10% Attendance and Participation
Performance:75% Competency and Performance
25% Quantity of Work25% Quality of Work25% Effort and Perseverance25% Problem Solving Ability
10% Attendance and Participation15% SkillsUSA project
FINAL EXAMINATIONS:Final examinations must be taken when scheduled. A grade of “F” will be given for any examination missed unless previously approved by the Principal. No exemptions will be given.
The final examinations will be counted as a fifth marking period in the students’ final grade for the course.
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TIMELINE FOR PROGRAM ACTIVITIES
Machine Technology Grade 11o First Quarter
Getting Started MasterCAM User Interface Intro to CNC Programming
2D Geometry Creation 2D Toolpaths 3D Geometry Creation 3D Surface Creation Solid Modeling Mini BajaVehicle Design Mini BajaVehicle Production Tooling University
o Second Quarter 3D Toolpaths G and M code Programming
Arcs and angles Verify programs on machines
CNC Machine Setup and Operation Cavity and Core Design and Lathe Production MasterCAM IOF Design Mini BajaVehicle Design Mini BajaVehicle Production Tooling University SkillsUSA Competition
o Third Quarter Solid Modeling G and M code programming
Canned Cycles MasterCAM IOF Production Cavity and Core Production Mini BajaVehicle Design Mini BajaVehicle Mill Production Tooling University SkillsUSA practice
o Fourth Quarter Mini BajaVehicle Design Mini BajaVehicle Production Cavity and Core Plastic Part Production Tooling University MasterCAM certification
Students are required to read an industry related article twice each quarter. Collins writing is used to summarize the topics of the articles with one page papers.
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Standards
Massachusetts Vocational Technical Education Curriculum Framework Manufacturing, Engineering and TechnologyMachine Tool Technology (August 2007)
Course Curriculum Topic StandardMasterCAM software 2.W.11 Design a part using computer aided design (CAD)
software 2.W.12 Use computer aided manufacturing (CAM) software to apply machining processes to design (ex. speeds, feeds, cutter compensation, etc)
2D, 3D and Solid Geometry CreationCavity and Core DesignMasterCAM IOF DesignMini Baja Vehicle Design
2.W.11 Design a part using computer aided design (CAD) software
2D and 3D Toolpaths 2.W.12 Use computer aided manufacturing (CAM) software to apply machining processes to design (ex. speeds, feeds, cutter compensation, etc)
G and M Code Programming 2.W.01 Manually write out a basic program using G&M codes
CNC Machine Setup and OperationCavity and Core ProductionMasterCAM IOF ProductionMini Baja Vehicle Production
2.W.01 Manually write out a basic program using G&M codes 2.W.02 Manually enter data into a CNC milling machine (MDI) 2.W.03 Perform sequential start-up operations 2.W.04 Perform control panel operations 2.W.05 Set up datum point 2.W.06 Set tool offsets 2.W.07 Set cutter compensation 2.W.08 Dry run, edit and run program 2.W.09 Inspect part to blueprint and specified tolerances 2.W.10 Perform sequential shut-down operations 2.W.11 Design a part using computer aided design (CAD) software 2.W.12 Use computer aided manufacturing (CAM) software to apply machining processes to design (ex. speeds, feeds, cutter compensation, etc) 2.W.13 Post and transfer files to CNC machine 2.W.14 Receive transferred files at CNC machine 2.W.15 Manufacture and inspect part
2.B.02c Use the design process to identify, problem solve and evaluate a solution.2.B.03c Read and interpret detail blue prints or technical processes.2.C.04c Identify the problem or source of the problem.2.C.05c Implement the correct strategies to remedy the problem.
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Strand 1: Health and Safety 11.A Define health and safety regulations:
1.A.01a Identify and apply OSHA and other health and safety regulations that apply to specific tasks and jobs in the occupational area
11.B Demonstrate health and safety practices: 1.B.03a Identify, describe and demonstrate personal, shop and job site safety practices and procedures 1.B.04a Demonstrate safe dress and use of relevant safety gear and personal protective equipment (PPE), including wrist rests, adjustable workspaces and equipment, gloves, boots, earplugs, eye protection, and breathing apparatus 1.B.05a Illustrate appropriate safe body mechanics, including proper lifting techniques and ergonomics 1.B.06a Locate emergency equipment in your lab, shop, and classroom, including (where appropriate) eyewash stations, shower facilities, sinks, fire extinguishers, fire blankets, telephone, master power switches, and emergency exits 1.B.07a Demonstrate the safe use, storage, and maintenance of every piece of equipment in the lab, shop, and classroom 1.B.10a Demonstrate proper workspace cleaning procedures
11.C Demonstrate responses to situations that threaten health and safety 1.C.01a Illustrate First Aid procedures for potential injuries and other health concerns in the occupational area 1.C.03a Illustrate procedures used to handle emergency situations and accidents, including identification, reporting, response, evacuation plans, and follow-up procedures 1.C.04a Identify practices used to avoid accidents 1.C.05a Identify and describe fire protection, precautions and response procedures
Strand 2: Technical 12.A Apply principles of 'world class' operations (industry quality standard operation)
12.A.01c Explain lean techniques as applied to manufacturing/engineering and technical processes
22.A.02c Identify and apply the concepts of total quality management appropriate to the field
32.A.03c Develop, implement and assess plan for continuous improvement Performance Example: 1. Design and Manufacture Cavity and Core for plastic injection molding2. Design and Manufacture Mini Baja Vehicle
12.B Demonstrate and apply the design process
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12.B.02c Use the design process to identify, problem solve and evaluate a solution 22.B.03c Read and interpret detail blue prints or technical processes Performance Example: 1. Design and Manufacture Mini Baja Vehicle2. Design and Manufacture Cavity and Core for plastic injection molding
3. Design and Manufacture MasterCAM IOF project
12.D Maintain equipment and machinery 12.D.01c Identify appropriate person(s) for maintenance and repair of equipment 22.D.03c Demonstrate ability to maintain equipment Performance Example: 1. Develop a preventative maintenance system and implement it for your shop area
12.F Use of measurement devices
12.F.01c Define attributes, units, and systems of measurement used in MET fields 22.F.02c Apply a variety of techniques, tools, and formulas for determining
measurements 32.F.03c Identify appropriate electronic device/gauge for the task at hand 42.F.04c Calibrate and use electronic devices and/or gauges accurately 52.F.05c Use measurement systems to solve problems Performance Examples: 1. Manufacture Cavity and Core for plastic injection molding2. Design and Manufacture MasterCAM IOF project
12.G Use a precision instrument to accurately measure a finished part
2.G.01 Measure work piece with a scale within a tolerance of +/- 1/64 2.G.02 Measure work piece with an outside micrometer within a tolerance of +/- .001 2.G.03 Measure work piece with an inside micrometer within a tolerance of +/- .001 2.G.04 Measure the depth of a work piece using a depth micrometer within a tolerance of +/- .001 2.G.05 Measure work piece with a vernier caliper within a tolerance of at least +/- .005 2.G.06 Measure radius on a work piece using a radius gage within a tolerance of at least +/- 1/32 Performance Examples:
1. Manufacture Cavity and Core for plastic injection molding 2. Design and Manufacture MasterCAM IOF Project
12.H Use and select appropriate tool to visually measure finished part 2.H.01 Use gage pins to measure location and diameter to a tolerance of at least +/- .001
12.H.02 Measure outside and pitch diameter of a thread to a tolerance of at least +/- .002
22.H.03 Compare surface finish quality of a part using surface finish comparator/gage to print specification
32.H.04 Follow inspection procedures to accurately measure a finished part 42.H.05 Follow procedures to measure inside diameter using a telescope gage and
micrometer to a tolerance of at least +/- .005 52.H.06 Use a height gage and indicator on a surface plate to measure dimension
and/or location on a work piece 62.H.07 Select, wring, and use gage blocks to determine if finished part meets
specifications 72.H.08 Check piece for flatness, parallelism, (within +/- .002) and squareness (within
+/- ½ of degree) 82.H.09 Check concentricity of finished part to a tolerance of at least +/- .001 92.H.10 Check straightness of a part to appropriate tolerance
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Performance Example: 1. Manufacture Cavity and Core for plastic injection molding2. Design and Manufacture MasterCAM IOF project
12.I Prepare materials using hand tools 2.I.01 Layout flat and/or round stock 2.I.02 Cut material using hacksaw to appropriate length and size Performance Examples: 1. Manufacture Cavity and Core for plastic injection molding2. Design and Manufacture MasterCAM IOF project
12.J Form materials by hand 2.J.04 Deburr work piece 2.J.05 Finish workpiece as required 2.J.06 Disassemble and assemble mechanical/machine partsPerformance Examples: 1. Manufacture Cavity and Core for plastic injection molding2. Design and Manufacture MasterCAM IOF project
12.K Operate hand tools 2.K.01 Drill a hole to proper size, depth and location 2.K.02 Hand tap a hole to proper thread size and depth Performance Examples: 1. Manufacture Cavity and Core for plastic injection molding2. Design and Manufacture MasterCAM IOF project
12.L Explain material properties and scientific principles involved in material handling
12.L.01 Identify types of metals and related materials 22.L.02 List properties that affect machinability 32.L.09 Describe the molding process Performance Examples:1. Manufacture Cavity and Core for plastic injection molding
22.M Read blueprints and create basic sketches 12.M.01 Read and interpret detail drawings 22.M.02 Read and interpret assembly drawings 32.M.03 Make a sketch of an existing work piece including detailed measurements to be
machined 42.M.04 Design and sketch a basic work piece based on ‘customer’ needsPerformance Examples:1. Manufacture Cavity and Core for plastic injection molding2. Design and Manufacture MasterCAM IOF project3. Design and Manufacture Mini Baja Vehicle
12.N Plan production process 2.N.01 Select proper materials 2.N.02 Determine size and amount of material needed to complete product(s) 2.N.03 Develop an order of operations 2.N.04 List tools to be used 2.N.05 List fixturing or work holding device(s) to be used 2.N.06 Select appropriate machine toolsPerformance Examples: 1. Manufacture Cavity and Core for plastic injection molding2. Design and Manufacture MasterCAM IOF project
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12.O Identify the functions and uses of emerging and specialized machine equipment
2.O.01 Describe the uses and operations of electrical discharge machines (wire and electrode) 2.O.04 Research and report on new technologies in machining (biological, micro, nano, etc) Performance Examples:1. Manufacture Cavity and Core for plastic injection molding2. Industry related technical publication articles and writing assignments
2.Q Operate a power saw 2.Q.01 Select the appropriate blade for task 2.Q.02 Cut material using horizontal saw to length 2.Q.03 Use a vertical band saw to layout lines 2.Q.04 Measure, cut and weld a band saw blade for specific usePerformance Examples: 1. Manufacture Cavity and Core for plastic injection molding2. Design and Manufacture MasterCAM IOF project
12.T Operate surface grinding machines
2.T.01 Select, change, mount, and balance grinding wheel 2.T.02 Dress, true, ring grinding wheel 2.T.03 Grind a flat surface to a tolerance of +/- .001Performance Examples: 1. Manufacture Cavity and Core for plastic injection molding
2.U Operate an engine lathe 2.U.01 Set up and use lathe accessories 2.U.02 Set up and use a 4-jaw chuck 2.U.03 Face work piece to length specified on blue print within a tolerance of +/- 1/64 2.U.04 Straight turn and shoulder turn the work piece diameters to a tolerance of +/- .002 and length of +/- 1/64 2.U.06 Bore hole to depth (or through) piece 2.U.07 Cut external and internal threads with single point tool 2.U.08 Cut external threads using die 2.U.09 Cut external and internal groves 2.U.10 Cut off work piece with parting tool to specified length for finishing 2.U.11 Center drill to proper depth 2.U.12 Drill hole to specified depth and diameter 2.U.13 Tap a hole to appropriate thread size and depth 2.U.17 File and polish a work piece Performance Examples: 1. Manufacture Cavity and Core for plastic injection molding
12.V Operate Milling Machines 1 2.V.01 Indicate vise within a tolerance of .002 over a 6” span 2 2.V.02 Tram miller head within a tolerance of .001 over a 6” diameter sweep 3 2.V.03 Locate a daturn feature using indicator and edge finder 4 2.V.04 Locate and indicate holes and pins within a tolerance of .0005 5 2.V.05 Mill a flat surface 6 2.V.08 Mill workpiece using climb and conventional methods 7 2.V.11 Drill, ream, and tap holes to specifications
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8 2.V.14 Fly cut a flat surface 9 2.V.15 Mill keyways and keyseats to specifications from handbook Performance Examples: 1. Manufacture Cavity and Core for plastic injection molding
12.W Operate CNC equipment 2.W.01 Manually write out a basic program using G&M codes 2.W.02 Manually enter data into a CNC milling machine (MDI) 2.W.03 Perform sequential start-up operations 2.W.04 Perform control panel operations 2.W.05 Set up datum point 2.W.06 Set tool offsets 2.W.07 Set cutter compensation 2.W.08 Dry run, edit and run program 2.W.09 Inspect part to blueprint and specified tolerances 2.W.10 Perform sequential shut-down operations 2.W.11 Design a part using computer aided design (CAD) software 2.W.12 Use computer aided manufacturing (CAM) software to apply machining processes to design (ex. Speeds, feeds, cutter compensation, etc) 2.W.13 Post and transfer files to CNC machine 2.W.14 Receive transferred files at CNC machine 2.W.15 Manufacture and inspect part Performance Examples: 1. Design and Manufacture Cavity and Core for plastic injection molding2. Design and Manufacture MasterCAM IOF project
Strand 3: Embedded Academics 3.A English Language Arts
3.A.03c Integrate relevant information gathered from group discussions and interviews for reports.
3.A.04c Identify and use knowledge of common graphic features (charts, maps, diagrams).
3.A.09c Use general dictionaries, specialized dictionaries, thesauruses, histories of language, books of quotations, and other related references as needed.
3.A.11c Read technical manuals, guides, resource books and technical literature to gain information and solve problems.
3.A.12c Read, comprehend, and follow written technical directions for repairs, procedures and processes. 3.B Mathematics
3.B.03c Solve linear equations using tables, graphs, models, and algebraic methods.3.B.04c Given the formulas, convert from one system of measurement to another. Use
technology as appropriate.3.B.05c Compare, order, estimate, and translate among integers, fractions and mixed
numbers (i.e., rational numbers), decimals, and percents3.B.06c Recognize and solve problems involving angles formed by transversals of coplanar lines.
Identify and determine the measure of central and inscribed angles and their associated minor and major arcs.
Recognize and solve problems associated with radii, chords, and arcs within or Machine Technology Page 12 5/9/2023
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on the same circle.3.B.07c Apply properties of angles, parallel lines, arcs, radii, chords, tangents, and
secants to solve problems.3.B.09c Demonstrate the ability to visualize solid objects and recognize their projections
and cross sections.3.B.11c Solve everyday problems that can be modeled using systems of linear
equations or inequalities. Apply algebraic and graphical methods to the solution. Use technology when appropriate.
3.C Science and Engineering/Technology 1 3.C.03c Identify and explain the steps of the engineering design process, i.e., identify the
problem, research the problem, develop possible solutions, select the best possible solution(s), construct a prototype, test and evaluate, communicate the solution(s), and redesign.2 3.C.21 Demonstrate knowledge of pictorial and multi-view drawings (e.g., orthographic projection, isometric, oblique, perspective) using proper techniques. 3 3.C.22 Demonstrate the use of drafting techniques with paper and pencil or computer-aided design (CAD) systems when available. 4 3.C.23 Apply scale and proportion to drawings, e.g., 1/4" = 1'0". 5 3.C.24 Interpret plans, diagrams, and working drawings in the construction of a prototype. 6 3.C.36 Differentiate the selection of tools and procedures used in the safe production of products in the manufacturing process, e.g., hand tools, power tools, computer-aided manufacturing, three-dimensional modeling. 7 3.C.46 Explain how mechanical systems such as gears, pulleys, levers, and presses work
Strand 4: Employability 14.A Develop employability skills to secure and keep employment in chosen field
14.A.01a Evaluate industries, organizations, and careers based on multiple sources of research and information
24.A.02a Assess interest areas to determine potential career pathways, including career ladders
34.A.03a Develop a career plan with alternatives 44.A.04a Complete job applications and related employment documents (e.g. W-4) 54.A.05a Create professional cover letters, resumes, and portfolios in a variety of
formats (print and electronic) 64.A.06a Apply job search skills to seek, evaluate, apply for, and accept employment 74.A.07a Demonstrate good interviewing skills 84.A.08a Demonstrate employability skills needed to get and keep a job
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94.A.09a Assess alternative occupational choices (e.g. working conditions, benefits, and opportunities to change)
Performance Examples: 101. Research positions open within a variety of companies and compare/contrast their
descriptions, duties, and expectations 112. Prepare responses to standard interview questions 123. Participate in a mock-interview with industry professionals
24.B Communicate in multiple modes to address needs within the career and technical field 14.B.01a Apply strategies to enhance effectiveness of all types of communications in the
workplace 24.B.02a Apply reading skills and strategies to work-related documents 34.B.03a Locate information from books, journals, magazines, and the Internet 44.B.04a Apply basic writing skills to work-related communication 54.B.05a Write work-related materials 64.B.07a Use writing/publishing/presentation applications 74.B.08a Apply basic skills for work-related oral communication 84.B.10a Lead formal and informal group discussions 94.B.12a Apply active listening skills to obtain and clarify information Performance Examples: 1. Review a professional journal; choose one article to summarize 2. Develop an oral presentation regarding an article in a journal
34.C Solve problems using critical thinking 14.C.01a Demonstrate skills used to define and analyze a given problem 24.C.02a Explain the importance and dynamics of individual and teamwork approaches
of problem solving 34.C.03a Describe methods of researching and validating reliable information relevant to
the problem 44.C.04a Explain strategies used to formulate ideas, proposals and solutions to
problems 54.C.05a Select potential solutions based on reasoned criteria 64.C.06a Implement and evaluate solution(s)
44.D Demonstrate positive work behaviors 14.D.01a Identify time management and task prioritization skills 24.D.02a Explain the importance of following workplace etiquette/protocol 34.D.03a Demonstrate willingness to learn and further develop skills 44.D.04a Demonstrate self-management skills 54.D.06a Describe the importance of having a positive attitude and techniques that
boost morale 64.D.08a Explain the importance of setting goals and demonstrate the ability to set,
reach, and evaluate goals 74.D.09a Explain the importance of taking pride in work accomplished and extrinsic and
intrinsic motivators that can be used to increase pride 84.D.10a Value the importance of professionalism, including reliability, honesty,
responsibility, and ethics
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Instructional Activities
The grade 11 CNC Cad/Cam and programming course was designed to provide students with project-based learning opportunities and laboratory-based experiences in the development of content knowledge. Three projects were developed that utilize Mastercam software and CNC machining competencies: Cavity and Core design and manufacture, MasterCAM IOF design and manufacture, SAE Mini Baja vehicle design and manufacture.
Students may also earn certification in MasterCAM and CNC Programming through NIMS standards and testing.
Cavity and Core design and manufacture projectAfter completing the beginner tutorials of Mastercam, students work individually or in teams to design and manufacture a cavity and core that will produce a plastic part. These cavities and cores are produced on manual and CNC equipment. The students will learn basic injection mold machine setup and operation. A finished plastic part will be produced from the design.
MasterCAM IOF design and manufacture project
After completing MasterCAM training students may enter the MasterCAM Innovator of the Future contest. The MasterCAM Innovator of the Future contest entices students with a real-world manufacturing challenge, celebrity judge, and a chance to win a scholarship. This competition provides the instructor with a powerful motivational tool to get students excited about learning CAD/CAM and the manufacturing process. The 2011 Mastercam Innovator of the Future competition challenges students to design and machine a working capo (a clamp-like device used on the neck of a stringed instrument to shorten the strings, hence raising the pitch) to be judged by the co-founder and current president of CNC Software, Inc., Mark Summers. With his combined interests in machining and guitars he is a great judge of both functionality and manufacturing skills.
SAE Mini Baja design and manufacture project
Students from Machine Tech, CAD and Metal Fabrication collaborate and design three dimensional models of a mini baja vehicle from two dimensional design sketches using Solidworks and Mastercam design. The vehicle is then manufactured and assembled according to those drawings. SAE mini baja collegiate competition technical standards are followed to insure Machine Technology Page 15 5/9/2023
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all safety and technical guidelines are followed. Students who participate in this program may be rewarded with 16 course credits to Berkshire Community College.
NIMS CNC Programming CertificationStudents who pass the timed NIMS performance exam may take the online theory assessment. Successful students will earn NIMS Level Two National CNC Programming certification. This assessment may be taken at any time.
SkillsUSA CompetitionStudents may compete in two occupational related competitions during term two.
CNC Milling and Programming is an individual contest which involves manual programming and CNC mill setup and operation. The problem is based on National SkillsUSA standards.
CNC Turning and Programming is an individual contest which involves manual programming and CNC mill setup and operation. The problem is based on National SkillsUSA standards.
Automated Manufacturing Technology is a team competition. Teams are comprised of one CAD student and two Machine Technology students. The competition is based on National SkillsUSA and NIMS standards. Teams produce a prototype part design, solid part model, CNC toolpath and actual part creation with the use of computer software and bench top CNC machines. A design change is given to the teams once the initial prototype has been completed to test their problem solving skills.
Machine Technology Page 16 5/9/2023
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Resources
Standards, textbook and other resources:
Textbook: Mastercam X4 Mill Level 1 (Copyright 2009 by In-House Solutions)Author: Mariana Lendel
Textbook: Mastercam X4 Mill Level 3 (Copyright 2009 by In-House Solutions)Author: Mariana Lendel
Textbook: Mastercam X4 Lathe(Copyright 2009 by In-House Solutions)Author: Mariana Lendel
Textbook: Mastercam X4 Solids (Copyright 2009 by In-House Solutions)Author: Mariana Lendel
Textbook: Mastercam X4 Art Training Tutorial (Copyright 2009 by In-House Solutions)Machine Technology Page 17 5/9/2023
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Author: Mariana Lendel
Textbook: Mastercam X4 Instructor Mill Guide Level 1(Copyright 2009 by In-House Solutions)Author: Mariana Lendel
Textbook: Mastercam X4 Instructor Mill Guide Level 3(Copyright 2009 by In-House Solutions)Author: Mariana Lendel
Textbook: Mastercam X4 Instructor Guide Level (Copyright 2009 by In-House Solutions)Author: Mariana Lendel
Textbook: Mastercam Projects Workbook (Copyright 2005 by In-House Solutions)
Textbook: CNC Programming Handbook Second Edition (Copyright 2003 Industrial Press Inc.)Author: Peter Smid
Textbook: CNC Certification Tasks (Copyright 2004)Author: Kenneth Wright
Web: www.toolingu.com
Machine Technology Page 18 5/9/2023