Computer-Integrated Machining Diploma

Specific Requirements

Courses requiring a grade of “C” or better: BPR, EGR, ISC, MAC, and WLD

Course Code	Course	Credit Hours	Link to course details
BPR-111		2
This course introduces the basic principles of print reading. Topics include line types, orthographic projections, dimensioning methods, and notes. Upon completion, students should be able to interpret basic prints and visualize the features of a part or system. View course details for Print Reading ‌‌
EGR-110		2
This course introduces general topics relevant to engineering technology. Skills developed include goal setting and career assessment, professional ethics, critical thinking and problem solving, using college resources for study and research, and using tools for engineering computations. Upon completion, students should be able to choose a career option in engineering technology and utilize college resources to meet their educational goals. View course details for Introduction to Engineering Tech ‌‌
ISC-121		3
This course covers workplace environmental health and safety concepts. Emphasis is placed on managing the implementation and enforcement of environmental health and safety regulations and on preventing accidents, injuries, and illnesses. Upon completion, students should be able to demonstrate an understanding of the basic concepts of environmental health and safety. View course details for Environmental Health and Safety ‌‌
MAC-121		2
This course introduces the concepts and capabilities of computer numerical control machine tools. Topics include setup, operation, and basic applications. Students will learn computer skills necessary for machinists. Upon completion, students should be able to explain operator safety, machine protection, data input, program preparation, and program storage. View course details for Introduction to CNC ‌‌
MAC-141		4
This course provides an introduction to a variety of material-working processes that are common to the machining industry. Topics include safety, process-specific machining equipment, measurement devices, set-up and layout instruments, and common shop practices. Upon completion, students should be able to safely demonstrate basic machining operations, accurately measure components, and effectively use layout instruments. View course details for Machining Applications I ‌‌
MAC-151		2
This course introduces basic calculations as they relate to machining occupations. Emphasis is placed on basic calculations and their applications in the machine shop. Upon completion, students should be able to perform basic shop calculations. View course details for Machining Calculations ‌‌
WLD-112		2
This course introduces basic welding and cutting. Emphasis is placed on beads applied with gases, mild steel fillers, and electrodes and the capillary action of solder. Upon completion, students should be able to set up welding and oxy-fuel equipment and perform welding, brazing, and soldering processes. View course details for Basic Welding Processes ‌‌

Course Code	Course	Credit Hours	Link to course details
BPR-121		2
This course covers the interpretation of intermediate blueprints. Topics include tolerancing, auxiliary views, sectional views, and assembly drawings. Upon completion, students should be able to read and interpret a mechanical working drawing. View course details for Blueprint Reading: Mechanical ‌‌
ENG-110		3
This course is designed to develop informative and business writing skills. Emphasis is placed on the logical organization of writing, including effective introductions and conclusions, precise use of grammar, and appropriate selection and use of sources. Upon completion, students should be able to produce clear, concise, well-organized short papers. View course details for Freshman Composition ‌‌
MAC-122		2
This course introduces the programming, setup, and operation of CNC turning centers. Topics include programming formats, control functions, program editing, part production, and inspection. Upon completion, students should be able to manufacture simple parts using CNC turning centers. View course details for CNC Turning ‌‌
MAC-124		2
This course introduces the manual programming, setup, and operation of CNC machining centers. Topics include programming formats, control functions, program editing, part production, and inspection. Upon completion, students should be able to manufacture simple parts using CNC machining centers. View course details for CNC Milling ‌‌
MAC-142		4
This course provides instruction in the wide variety of processes associated with machining. Topics include safety, equipment set-up, holding fixtures, tooling, cutting speeds and depths, metal properties, and proper finishes. Upon completion, students should be able to safely demonstrate advanced machining operations, accurately measure components, and produce accurate components with a proper finish. View course details for Machining Applications II ‌‌
MAC-142A		2
This course provides laboratory instruction in the wide variety of processes associated with machining. Topics include safety, equipment setup, holding fixtures, tooling, cutting speeds and depths, metal properties, and proper finishes. Upon completion, students should be able to safely demonstrate advanced machining operations, accurately measure components, and produce accurate components with a proper finish. View course details for Machining Applications II Lab ‌‌
MAC-152		2
This course combines mathematical functions with practical machine shop applications and problems. Emphasis is placed on gear ratios, lead screws, indexing problems, and their applications in the machine shop. Upon completion, students should be able to calculate solutions to machining problems. View course details for Advanced Machining Calculations ‌‌

Course Code	Course	Credit Hours	Link to course details
MAC-143		4
This course provides instruction in the field of advanced machining. Emphasis is placed on creating complex components, close-tolerance machining, precise measurement, and proper equipment usage. Upon completion, students should be able to demonstrate the ability to produce an accurately machined component with a quality finish using the proper machining process. View course details for Machining Applications III ‌‌
MAC-248		2
This course covers product planning and control and scheduling and routing of operations. Topics include cost-effective production methods, dimensional and statistical quality control, and the tooling and machines required for production. Upon completion, students should be able to plan, set up, and produce cost-effective quality machined parts. View course details for Production Procedures ‌‌
PSY-150		3
This course provides an overview of the scientific study of human behavior. Topics include history, methodology, biopsychology, sensation, perception, learning, motivation, cognition, abnormal behavior, personality theory, social psychology, and other relevant topics. Upon completion, students should be able to demonstrate a basic knowledge of the science of psychology. This is a Universal General Education Transfer Component (UGETC) course that satisfies Social/Behavioral Sciences. View course details for General Psychology ‌‌

Total Credit Hours Required:

See your advisor for General Education substitutes.

Curriculum is based on the 2023-24 catalog.

Why General Education?

You may be asking yourself, “Why do I have to take (course name) when it is not directly related to my major?”

General Education courses will help you develop skills necessary to be successful in your major and in life. General Education can teach you how to talk to your employer, write a paper in a major course, understand interest rates on your car, and much more. General Education can also give you the skills to be a better member of society and a more informed citizen. Critical thinking, global understanding, and appreciation for the human experience are hallmarks of a well-rounded education.

How many hours of General Education do I have to take?

If you are enrolled in an Associate of Applied Science Degree program, a minimum of 15 general education hours are required in the following categories:

Six hours from Communication
Three hours from Humanities & Fine Arts
Three hours from Social & Behavioral Science
Three hours from Natural Science & Mathematics

General Education courses have been pre-selected for you by your faculty from the following list:

Communication	Humanities & Fine Arts	Social & Behavioral Science	Natural Science & Mathematics
COM-110	ART-111	ECO-251	BIO-161
COM-120	ART-114	ECO-252	BIO-163
COM-231	ART-115	HIS-111	BIO-168
ENG-110	HUM-110	HIS-112	MAT-110
ENG-111	HUM-115	HIS-131	MAT-121
ENG-112	MUS-110	HIS-132	MAT-143
ENG-114	MUS-112	POL-120	MAT-152
	PHI-215	PSY-150	MAT-171
	PHI-240	SOC-210	PHY-110/110A
		SOC-225	PHY-121

Degrees designed to transfer to universities require more general education hours. If you are enrolled in the Associate in Arts or Associate in Science, you are required to take 45 hours of General Education from the following categories:

Six hours in English Composition
Six to nine hours in Communication / Humanities & Fine Arts
Six to nine hours in Social & Behavioral Sciences
Three to eight hours in Mathematics
Four to eight hours in Natural Sciences
11 to 14 additional General Education hours

If you are enrolled in the Associate in Engineering, you are required to take 42 general education hours from the following:

Six hours in English Composition
Six hours in Communication / Humanities & Fine Arts
Six work hours in Social & Behavioral Sciences
12 hours in Mathematics
12 hours in Natural Sciences

If you are enrolled in the Associate in Fine Arts in Visual Arts, you are required to take 25 general education hours from the following:

Six hours in English Composition
Six hours in Communication / Humanities & Fine Arts
Six hours in Social & Behavioral Sciences
Three to four hours in Mathematics
Four hours in Natural Sciences

Additional information about General Education for transfer degrees, including courses that satisfy each category, may be found in the current College Catalog.

What will I learn in General Education?

At A-B Tech, our faculty have designed a general education core so that A-B Tech graduates will
learn the following:

Students will critically evaluate information:

Students will demonstrate information literacy.
Students will critique works of human expression.
Students will analyze scientific literature.

Students will solve problems:

Students will identify processes.
Students will analyze problems.
Students will interpret the results.
Students will recommend appropriate strategies or solutions.

Students will effectively communicate.

Students will communicate appropriately about the subject.
Students will communicate appropriately with the audience.
Students will communicate appropriately for the medium.

Ever wonder how A-B Tech awards credit for a certain course?

A-B Tech complies with the North Carolina State Board of Community Colleges Code, so your courses are assigned the course level and receive the same amount of credit as courses at all 58 North Carolina Community Colleges.

If you want to read more about this, see the A-B Tech Policy and Procedure for the Assignment of Course Level Credit.