2021-2022 Catalog [ARCHIVED CATALOG]
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ADMF 102 - Technology in Advanced Manufacturing
PREREQUISITES/COREQUISITE: ADMF 101 - Key Principles of Advanced Manufacturing .
PROGRAM: Advanced Automation and Robotics Technology
CREDIT HOURS: 3
LECTURE HOURS: 2
LAB HOURS: 2
DATE OF LAST REVISION: Fall, 2019
Introduces manufacturing processes and basic mechanical, electrical, and fluid power principles and practices used in manufacturing environments. Topics include; types of production, production materials, machining and tooling, manufacturing planning, production control, and product distribution will be covered. Students will be expected to understand the product life cycle from conception through distribution. This course also focuses on technologies used in production processes. Basic power systems, energy transfer systems, machine operation and control will be explored. This course will use lecture, lab, online simulation and programming to prepare students for Certified Production Technician Testing through Manufacturing Skill Standards Council (MSSC).
MAJOR COURSE LEARNING OBJECTIVES: Upon successful completion of this course the student will be expected to:
- Conduct assigned tasks in a safe and professional manner while working either independently or in small groups. [c, d]
- Identify basic manufacturing processes and major types of production systems. [e, f]
- Define common properties of industrial materials, their application, testing and enhancement [f].
- Describe the design, tooling and production aspects of manufacturing. [e, f]
- Demonstrate a general knowledge of non-traditional manufacturing processes and automation. [e, f]
- Explain the basic concepts of electrical, hydraulic and pneumatic power systems. [b, f]
- Describe and solve for basic electrical quantities such as voltage, amperage, resistance, and power.
- Describe the types of basic fluid power systems used in manufacturing.
- Determine fluid system properties such as pressure, flow, viscosity, and pressure drop.
- Identify the common types and operation of bearing, coupling, belt, and chain systems. [e]
- Identify physical principles including: force, torque, simple machines, and mechanical drives. [b, e]
- Describe the basic concepts of machine control, machine automation, and electrical control. [b, f]
- Communicate effectively using listening, speaking, reading, and writing skills. [f]
- Use quantitative analytical skills to evaluate and process numerical data. [f]
- Solve problems using critical and creative thinking skills. [e]
- Utilizing and applying software where appropriate to the course. [a]
- Attain readiness to take MSSC Production and Maintenance Awareness Certification exams. [h]
- Demonstrate ability to read and interpret technical documents. [b, e]
- Demonstrate ability to use various types of software applicable to course. [a]
Note: Letters following objectives correspond to ATMAE Outcomes
COURSE CONTENT: Topical areas of study include - Methods of material removal
Mechanical methods of material removal
Properties of materials
Measurement in manufacturing
Change of condition
Electrical methods of material removal
Material addition
Chemical methods of material removal
Adhesives
Thermal methods of change of form
Welding
Powder Methods of change of form
Production control
Electrical systems
Manufacturing with plastics
Mechanical systems
Fluid power systems
GRADING POLICY
| A |
90-100 |
| B |
80-89 |
| C |
70-79 |
| D |
60-69 |
| F |
0-59 |
Course Addendum - Syllabus (Click to expand)
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