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Nov 23, 2024
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Catalog 2024-2025
Advanced Industrial Design and Technology
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This program was formerly known as Design, Fabrication, and Advanced Manufacturing.
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Short Description
The Advanced Industrial Design and Technology program is designed to prepare students for employment or advancement in the fields of fabrication, manufacturing, industrial design, and fabrication, with an emphasis on emerging technologies and strategies. Students will be equipped to compete in today’s job market, as the program combines traditional fabrication tools with modern design and fabrication processes including laser cutting, 3D printing, 3D scanning, and Computer-Numerically Controlled (CNC) machining.
Type of Credential
Associate of Applied Science (A.A.S.) Degree
Contacts and Additional Information
Program Coordinator:
Steve Cosby
443-840-4401 or scosby@ccbcmd.edu
Additional Information:
Curriculum Maps
Curriculum Maps are a tool to provide students with a clear understanding of which courses to take and the order in which to complete them. Curriculum Maps help define a student’s individual path towards graduation, ensuring their time and efforts are not spent on credits that fall outside their program of study.
Each map identifies critical courses that must be completed in order to progress through the program and graduate. Curriculum Maps come complete with helpful hints for students - like recommended course electives and a reminder to apply to graduate.
Select the link(s) below to view the Curriculum Map(s) for this program:
Semester Sequence
This is a suggested full-time schedule for a student who has completed any developmental course work and has no transfer credits. Refer to the College catalog for specific requirements in selecting General Education Courses .
Courses Needed for This Program*
General Education Requirements and Electives - 18-19 Credits
General Education Requirements:
General Education Electives:
Choose a course in this category from the list of approved General Education Courses . One course must be a Diversity course.
- Biological and Physical Sciences (CHEM 107 or PHYS 101 recommended) 3-4 Credit(s).
- Information Technology (CSIT 111 recommended) 3 Credit(s).
- Social and Behavioral Sciences (HUSC 104 recommended to fulfill Diversity) 3 Credit(s).
Program Requirements and Electives - 42 Credits
Total Number of Credits Required for Degree: 60-61*
Note
*Credit students who are new to college (no successfully completed transferable college credits from other institutions) are required to take ACDV 101 - Academic Development 101 . This 1-credit course is designed to be taken in the first semester at CCBC. Students must provide an official transcript(s) from an accredited institution to document successful completion of college coursework for the ACDV 101 requirement to be waived.
Program Description
The Advanced Industrial Design and Technology program offers an Associate in Applied Science Degree. It is designed to prepare students for employment or advancement in the fields of fabrication, manufacturing, and industrial design, with an emphasis on emerging technologies and strategies. Students will be equipped to compete in today’s job market, as the program combines traditional fabrication tools with modern design and fabrication processes including laser cutting, 3D printing, 3D scanning, and Computer-Numerically Controlled (CNC) machining.
This program is designed for individuals who have a career interest in manufacturing, industrial engineering, or design. Students must meet standard requirements of admission. An AAS degree is awarded to students who have a GPA of 2.0 or higher and complete the listed course pattern.
Program Outcomes
Upon completion of this program, students will be able to produce and/or demonstrate utilizing the following proficiencies:
- Follow all safety procedures;
- Use computer-aided design techniques;
- Manually create a precision working machined part;
- Demonstrate CNC programming techniques;
- Operate mills and grinders;
- Operate laser cutters, 3D printers, and CNC routers;
- Demonstrate 3D scanning, molding and casting, and basic electronics design;
- Use the problem-solving process to design a part to meet a specific requirement;
- Design and fabricate a comprehensive project that strategically utilizes complementary features of traditional and digital fabrication tools and processes;
- Incorporate next-generation manufacturing strategies into a finished product, including tool-free assembly, lean and green production, zero-waste, and flat-pack systems; and
- Describe and discuss the impact of next generation manufacturing strategies and principles in today’s job market.
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