Technology Studies: Advanced Manufacturing Machine Technology Option 1, AS
Program code: AMT1-AS-COT
Locations: Naugatuck Valley, Quinebaug Valley
Program Description
As part of the Connecticut College of Technology (COT), the Technology Studies A.S. degree provides the knowledge and skills within specific high-demand technology fields. The program consists of lecture and lab course work in engineering, technology, industrial technology, mathematics, sciences, and foundational requirements that provide a solid comprehensive background for continuation in a four-year technology degree program or entry into the workforce. Upon completion of a Technology Studies A.S. degree, students can transfer to Central CT State University or the University of Hartford to complete designated B.S. degrees.
These requirements demonstrate the Technology Studies A.S. degree with the Advanced Manufacturing Machine Technology Option 1 specialization.
Learning Outcomes
- Apply mathematical, scientific and technological principles and concepts to identify and formulate solutions to technical problems.
- Apply critical thinking and problem-solving skills to solve technical problems.
- Demonstrate the ability to function on teams.
- Recognize the need to engage in life-long learning.
Specialization Learning Outcomes
- Apply mathematical and technological principles to solve triangles and other geometrical problems
- Understand and follow basic shop safety guidelines and protocol
- Demonstrate the use of all hand tools used in basic layout procedures
- Accurately read and interpret views and information on engineered drawings and blueprints
- Demonstrate the use and understanding of all basic semi-precision and precision measuring tools to determine acceptability of manufactured parts to blueprint specifications
- Demonstrate operations of manual lathe to turn, face, part, groove, drill, bore, tap and single point thread
- Demonstrate operations in a knee mill to square parts, bore holes, drill, tap, countersink and counterbore
- Demonstrate operation of machine tools such as drill press, bench grinders, surface grinders, sawing machines
- Program and operate CNC mills and lathes with conversational, GM code to fabricate parts to blueprint specifications
- Exhibit competency in two- and three-dimensional CAD as it is applied to parts and geometries to create solid models and assemblies
- Understand basic principles in quality management and lean continuous improvement practices
Degree Requirements
| Code | Title | Credits |
|---|---|---|
| Technology Studies General Education Core | ||
| ENG 1010 | Composition | 3 |
| MATH 1610 | Precalculus | 4 |
| ART Elective (course vetted for ARHX) | 3 | |
| CHEM 1110 | Concepts of Chemistry | 4 |
| or CHEM 1210 | General Chemistry I | |
| Elective HISX - Historical Knowledge Course or Elective SBSX course in ECON | 3 | |
| ENG 1080 | Composition II: Technical Writing | 3 |
| or COMM 1301 | Public Speaking | |
| CCS 1001 | College and Career Success | 3 |
| Technology Studies Program Core | ||
| PHYS 1201 | General Physics I | 4 |
| or PHYS 2201 | Calculus-Based Physics I | |
| Elective BHEL - Behavioral Science Elective - choose an ANTH, PSY or SOC course | 3 | |
| MATH 1200 | Statistics I | 3-4 |
| or MATH 1201 | Statistics I with Computer Applications | |
| Machine Technology Option #1 Courses | ||
| MFG 1405 | Manufacturing Math | 3 |
| MFG 1415 | Safety in the Workplace | 1 |
| MFG 1424 | Blueprint Reading 1 | 3 |
| or EGR 1120 | Engineering Drawing Specs | |
| MFG 1453 | Benchwork | 2 |
| MFG 1477 | Machine Technology Fundamentals | 4 |
| MFG 1478 | CNC Fundamentals | 3 |
| MFG 2456 | Advanced CNC | 3 |
| MFG 2477 | Advanced Machine Technology | 4 |
| Choose three of the following Directed Electives: | 9 | |
| Parametric Design (SolidWorks) | ||
| Quality and Lean Principles | ||
| Metrology | ||
| Blueprint Reading 2 with Geometric Dimensioning & Tolerancing | ||
| Principles of CNC w/Mastercam | ||
| Advanced Metrology with CMM (Coordinate Measuring Machines) | ||
| Introduction to MasterCAM | ||
| Geometric Dimension and Tolerancing (G, D, and T) | ||
| Total Credits | 65-66 | |