Description: The course focuses on the study and interpretation of the graphic language used in manufacturing and engineering. This will include principles of: shape description, axonometric projection, specifications, symbology and spatial relationships.The student will apply problem solving and critical thinking skills using both standard and automated communication methods. Two classroom, two lab hours per week.

Description: An introduction to the manufacturing processes used in the tooling and machining industry. Safety, mechanical hardware, hand tools, metrology, drill press, vertical mill, lathe, and the surface grinder will be the major focus of this course. Two classroom, two lab hours per week.

Description: This course will cover machine safety, setup and operation of computer numerical control (CNC) milling machines and lathes. Adjusting tool and work offsets to hold part tolerances on both types of equipment. Calculation of spindle speeds and feed rates. Introduction to basic programming codes and development of CNC programs for three axis mills and two axis lathes. Two classroom, two lab hours per week.

Description: Use ratio and proportion to solve applications in technology; convert within and between metric and customary systems of measurement; read and interpret measurement tools and gauges; simplify algebraic expressions; solve linear equations; apply the geometry of lines, angles, and circles to technology applications. Traditional testing (proctored or in Testing Center) is used in all online sections.

Prerequisites: MAT 0050 or Other (Satisfactory score on math placement test)

Description: This is an intermediate course covering the development of Computer Numerical Control (CNC) programs for three axis milling machines including spindle controls, tool changes, linear and circular interpolation, drilling and tapping, subroutines, and G&M codes. Setup and operation of milling machines. Adjusting tool and work offsets to hold part tolerance. Two classroom, two lab hours per week.

Prerequisites: CAM 1109 or CAM 1161 and CAM 1116

Description: Student will learn and be able to apply the various measurement techniques involving basic measuring instruments and tools such as calipers, micrometers, height and depth gauges, dial and test indicators, and gauge blocks; correct use and care of basic inspection instruments. Drawing or blueprint reading including an introduction to GD&T inspection techniques will be presented. Coordinate Measuring Machines (CMM) and other precision measuring equipment will be introduced. Two classroom, two lab hours per week.

Description:

Operation and programming of conversational controlled lathe and milling machines. Includes programming and manufacturing a variety of machined parts utilizing ProtoTRAK two-axis and three-axis conversational CNC controls. Two classroom, two lab hours per week.

Prerequisites: CAM 1109 or CAM 1161

Description:

Development of Computer Numerical Control (CNC) programs for two axis CNC lathes including linear and circular interpolation, turning,grooving and threading cycles; drilling and tapping; G & M codes. Review setup and operation of CNC lathe; adjusting tool offsets to hold part tolerance. Two classroom, two lab hours per week.

Prerequisites: CAM 1109 or CAM 1161 and CAM 1116