2021-2022 Catalog [ARCHIVED CATALOG]
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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: Spring, 2019
Introduces the basic principles and practices of Safety and Quality used in manufacturing environments. Safety instruction covers topics including; Material Safety Data Sheets (MSDS), confined space, lock out/tag out, zero energy state, hazardous materials, storage of flammable materials, storage of fuel gas and high pressure gas cylinders, portable powered tool safety, hand tool safety, record keeping, training, employer enforcement of safety regulations, and right to know This course also covers current quality control concepts and techniques in industry with emphasis on modern manufacturing requirements. Topics of instruction include basic statistical and probability theory, sampling techniques, process control charts, nature of variation, histograms, attributes and variable charts. This course will use lecture, lab, online simulation and programming to prepare students for Certified Production Technician Testing through Manufacturing Skill Standards Council (MSSC). In addition, this course will also include an online OSHA 10 hour certification program in which successful completion results in students earning their OSHA 10 General Industry certification.
MAJOR COURSE LEARNING OBJECTIVES: Upon successful completion of this course the student will be expected to:
- Understand the importance of the manufacturing industry, and introduction tocommon manufacturing concepts through direct interaction with industry(industry visits, guest lectures, and field trips). [g]
- Conduct assigned tasks in a safe and workmanlike manner while working eitherindependently or in small groups. [c,d]
- Discuss the need for workplace safety and workplace safety training programs ascovered by the OSHA 10 hour program: [c,f]
- Introduction to OSHA
- Walking and Working Surfaces
- Electrical Safety
- Hazard Communication
- PPE
- Fire Protection and Prevention
- Machine Guarding
- Hazardous Materials
- Fall Protection
- Discuss quality systems and reference common manufacturing examples [f,i]
- Calculate the mean, range, and control limits.
- Develop X Bar and R charts.
- Use quantitative analytical skills to evaluate and process numerical data. [e]
- Discuss basic blueprint reading fundamentals [b,c]
- Understand and interpret multi-view drawings
- Understand and interpret assembly drawings
- Understand and interpret GD&T concepts
- Discuss basic measurement systems. [f]
- Perform basic measurement using precision measuring tools
- Communicate effectively using listening, speaking, reading, and writing skills. [f]
- Solve problems using critical and creative thinking skills. [e]
- Utilizing and applying software where appropriate to the course. [a]
- Attain readiness to take OSHA 10 Hour General Industry Certification exam. [h]
- Attain readiness to take MSSC Safety and Quality Certification exam. [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 -
MSDS
Confined space
Lock out/tag out
Zero energy state
Hazardous materials
Storage of flammable materials
Portable powered tool safety
Hand tool safety
Right to know
Storage of fuel gas and high-pressure gas cylinders
Quality system elements
Statistical process control
Quality audit procedures
Root cause analysis
Calculation of critical SPC data
Construction of SPC charts
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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