KERN COMMUNITY COLLEGE DISTRICT – CERRO COSO COLLEGE

MCTL C211 COURSE OUTLINE OF RECORD

  1. DISCIPLINE AND COURSE NUMBER:
    MCTL C211
  2. COURSE TITLE:
    Advanced Machine Shop
  3. SHORT BANWEB TITLE:
    Adv. Machine Shop
  4. COURSE AUTHOR:
    Ama, Ron
  5. COURSE SEATS:
    -
  6. COURSE TERMS:
    70 = Fall; 30 = Spring
  7. CROSS-LISTED COURSES:
  8. PROPOSAL TYPE:
    CC Course Revision
  9. START TERM:
    70 = Fall, 2012
  10. C-ID:
  11. CATALOG COURSE DESCRIPTION:
    This course provides students with skills in the safe and proper use of precision grinders and band machines. Students also use computer numerical control systems, and gain an understanding of automated manufacturing.

  12. GRADING METHOD

    Default:
    S = Standard Letter Grade
    Optional:
    P = Pass/No Pass;A = Audit
  13. TOTAL UNITS:
    3

  14. INSTRUCTIONAL METHODS / UNITS & HOURS:

    Method
    Min Units
    Min Hours
    Lecture
    2
    36
    Lab
    1
    54
    Activity
    0
    0
    Open Entry/Open Exit
    0
    0
    Volunteer Work Experience
    0
    0
    Paid Work Experience
    0
    0
    Non Standard
    0
    0
    Non-Standard Hours Justification:

  15. REPEATABILITY

    Type:
    Non-Repeatable Credit
  16. MATERIALS FEE:
    Yes
  17. CREDIT BY EXAM:
    No
  18. CORE MISSION APPLICABILITY:
    Associate Degree Applicable (AA/AS);Certificate of Achievement (COA);Career Technical Education (CTE)
  19. STAND-ALONE:
    No

  20. PROGRAM APPLICABILITY

    Required:
    Machine Tool Technology AS (AS Degree Program)
    Machine Tool Technology Cert (Certificate)
    Elective:
    Engineering Technology AS (AS Degree Program)
    Engineering Technology AS (AS Degree Program)
    Engineering Technology Cert (Certificate of Achievement)
    Engineering Technology Cert (Certificate of Achievement)
    Trades Practices AA (AA Degree Program)
    Trades Practices AA (AA Degree Program)

  21. GENERAL EDUCATION APPLICABILITY

    Local:
    IGETC:
    CSU:
    UC Transfer Course:
    CSU Transfer Course:

  22. STUDENT LEARNING OUTCOMES Upon completion of the course, the student will be able to

    1. Select and use an appropriate grinding device for a particular manufacturing problem.
    2. Use, maintain, and troubleshoot a band machine.
    3. Use a computer numerical control system for a particular manufacturing problem.
    4. Discuss issues in automated manufacturing, including flexible manufacturing, robotics, rapid prototyping, safety, and future developments.

  23. REQUISITES

    Prerequisite:

    MCTL C112

  24. DETAILED TOPICAL OUTLINE:

    Lecture:

    A       Precision Grinding

    1       Types of Surface Grinders

    2       Work-holding Devices

    3       Grinding Wheels

    4       Cutting Fluids (Coolants)

    5       Grinding Applications

    6       Grinding Problems

    7       Grinding Safety

    8       Universal Tool and Cutter Grinder

    9       Tool and Cutter Grinding Wheels

    10    Cylindrical Grinding

    11    Internal Grinding

    12    Centerless Grinding

    13    Form Grinding

    14    Other Grinding Techniques

    B       Band Machining

    1       Band Machining Advantages

    2       Band Blade Selection

    3       Welding Blades

    4       Band Machine Preparation

    5       Band Machining Operations

    6       Band Machine Power Feed

    7       Other Band Machining Applications

    8       Troubleshooting Band Machines

    9       Band Machining Safety

    C        Computer Numerical Control

    1        Computer-aided Machining Technology

    2        Positioning with Numerical Control

    3        NC Movement Systems

    4        Programming NC Machines

    5        Computer Languages

    6        Adaptive Control

    7        NC and the Future

    8        Advantages and Disadvantages of NC

    D        Automated Manufacturing

    1        Flexible Manufacturing System

    2        Robotics

    3        Safety In Automated Manufacturing

    4        Rapid Prototyping Techniques

    5        The Future of Automated Manufacturing

    Lab:

    A       Precision Grinding

    1       Types of Surface Grinders

    2       Work-holding Devices

    3       Grinding Wheels

    4       Cutting Fluids (Coolants)

    5       Grinding Applications

    6       Grinding Problems

    7       Grinding Safety

    8       Universal Tool and Cutter Grinder

    9       Tool and Cutter Grinding Wheels

    10    Cylindrical Grinding

    11    Internal Grinding

    12    Centerless Grinding

    13    Form Grinding

    14    Other Grinding Techniques

    B       Band Machining

    1       Band Machining Advantages

    2       Band Blade Selection

    3       Welding Blades

    4       Band Machine Preparation

    5       Band Machining Operations

    6       Band Machine Power Feed

    7       Other Band Machining Applications

    8       Troubleshooting Band Machines

    9       Band Machining Safety

    C        Computer Numerical Control

    1        Computer-aided Machining Technology

    2        Positioning with Numerical Control

    3        NC Movement Systems

    4        Programming NC Machines

    5        Computer Languages

    6        Adaptive Control

     

  25. METHODS OF INSTRUCTION--Course instructional methods may include but are not limited to

    1. Audiovisual;
    2. Demonstration;
    3. Laboratory;
    4. Lecture;
    5. Outside reading;
    6. Performance;
    7. Problem Solving;
    8. Project-based learning;
    9. Skills Development and Performance;
    10. Written work;

  26. OUT OF CLASS ASSIGNMENTS: Out of class assignments may include but are not limited to

    Textbook readings: Students read chapters relevant to weekly topics. Written assignments: Student write one-page reports on topics such as describing how the Cartesian Coordinate System is used to set up Computer Numerical Control (CNC) machinery.

  27. METHODS OF EVALUATION: Assessment of student performance may include but is not limited to

    A. Quizzes and exams
    Example: A quiz will assess students' ability to identify features and parts of a precision grinder.

    B. Written assignments
    Example: Students will discuss forcasted trends in automated manufacturing.

    C. Projects
    Example: Students will be select and use appropriate machining tools to manufacture a simple product.

  28. TEXTS, READINGS, AND MATERIALS: Instructional materials may include but are not limited to

    Textbooks
    Kibbe, R., Neely, J., White, W., Meyer, R.. (2009) Machine Tool Practices, 9th, Pearson
    -
    Manuals
    Periodicals
    Software
    Other
    Machinery Handbook and Supplement
    Student's shop reference handbook
    Machine Tool practices
  29. METHOD OF DELIVERY:
    Face to face;
  30. MINIMUM QUALIFICATIONS:
    Industrial Technology;Machine Tool Technology;

  31. APPROVALS:

    Origination Date
    08/18/2010
    Last Outline Revision
    04/01/1997
    Curriculum Committee Approval
    11/18/2011
    Board of Trustees
    01/12/2012
    State Approval
    02/16/2011
    UC Approval
    UC Approval Status
    CSU Approval
    50 = Summer 2000
    CSU Approval Status
    Approved
    IGETC Approval
    IGETC Approval Status
    CSU GE Approval
    CSU GE Approval Status