Class Descriptions
Click here to view the AAS Degree grid
Click here to view the 2-year Technical Certificate grid
MTT 3512—Intro to Lathe Technology (3 Credit Hours)
Fundamental machine shop instruction involving safety, use and care of hand and measuring tools, basic lathe operations, and single point tool grinding. Screw threads and their application, classes of fits, and tolerances are stressed.
MTT 3513—Intro to Conventional Milling Machines (3 Credit Hours)
Fundamental machine shop instruction involves the safety, use, and care of hand and measuring tools, drill press operation, basic lathe operations, and single point tool grinding. Screw threads and their application, classes of fits, and tolerances are stressed.
MTT 3514—Machine Tool Processes (3 Credit Hours)
This course provides experience in the setup operation of milling machines, grinders, lathes, drill press, and an understanding of the heat-treatment of steel.
MTT 3522—Conventional Milling Machines/Set-Ups (3 Credit Hours)
Students will become familiar with the operation of milling machines, grinders, types of metals, and the heat-treatment of metals. Skill is developed in the use of attachments involved with all the basic machine tools.
MTT 3523—Conventional Lathe Turning/Set-Ups (3 Credit Hours)
Students will become familiar with the operation of milling machines, grinders, types of metals, and the heat-treatment of metals. Skill is developed in the use of attachments involved with all the basic machine tools.
MTT 3532—Advanced Milling Machine Operations (3 Credit Hours)
This course is designed to acquaint the student with the construction principles as related to the manufacture of tools, jigs, and fixtures, including indexing leads, and rotary tables.
MTT 3533—Advanced Lathe Operations (3 Credit Hours)
This course is designed to acquaint the student with the construction principles as related to the manufacture of tools, dies, jigs, and fixtures used in the process of mass production.
MTT 3534—Computerized Numerical Control Programming (3 Credit Hours)
This is a basic course in CNC programming using the HAAS, Cincinnati 850, O’Kuma L518, and the General Numeric (Fanur) GN6 control. Instruction will cover basic CNC programming of a lathe and milling machine.
MTT 3537—Advanced CNC Programming (3 Credit Hours)
This is an advanced course in CNC programming using the HAAS control, O’Kuma L518, Cincinnati 850, and the General Numeric (Fanur) GN6 control. Instruction will cover CNC programming of a lathe and milling machine.
MTT 3542—Introduction to CNC (3 Credit Hours)
An introduction to the machinery as used in the metalworking industry of today. Includes job planning, assembly and tooling for production. Skill in the operation of such machines as CNC lathes, and CNC mills.
MTT 3544—Computer-Aided Manufacturing (CAM) I (3 Credit Hours)
This is a basic introductory course in computer aided manufacturing (CAM). Instruction will cover graphic construction and basic parts program for the CNC Milling machine.
MTT 3547—Advanced Computer-Aided Manufacturing (3 Credit Hours)
This is an advanced course in CAM. Instruction will cover in greater detail the CNC Milling Machine, the CNC Lathe, and a complex 3-D profile program for a machining
MTT 3550—Advanced Mastercam Training (3 Credit Hours)
Advanced training in the use of the lathe versions of Mastercam programming.
Numerical Control Programming Classes
MTT 3553—3D Wireframe Drawing and Surfaces (3)
This is an advanced course designed to give the student an understanding on surface creation. It will build on information from the beginning classes. The student will need to have completed both MTT3544 and MTT3547.
MTT 3557—Introduction to AutoCAD (3)
This is an introductory course designed to give the student an understanding on how AutoCAD is used to great simple 2d drawings, different types of lines, and the dimensioning of industrial drawings.
MTT 3555—Mastercam Lathe (3)
This is an introductory course designed to give the student understanding lathe geometry and machining. It will build on information from the beginning classes. The student will need to have completed MTT3544 and MTT3547.
MTT 3551—Mastercam Toolpaths (3)
This is an advanced course designed to build on the knowledge of 2D and 3D geometry and learn to manipulate these drawings to achieve a desired toolpath/nc program.
MTT 3556—Multi-Axis Milling (3)
This is an advanced course designed to give the student an understanding of multi axis machining. This class deals with complex machining methods and will require knowledge from all previous Machine Programming course.
MTT 3552—Solids (3)
This is an advanced design class used to take the students from the wireframe construction to a solid model. The student will learn to take wireframe drawings and turn them into a solid model, and to create toolpaths from solid models.
MTT 3558—Introduction to Solid Works (3)
This is an introductory course designed to give the student an understanding on how Solid Works is used to great simple 2d drawings, different types of lines, and the dimensioning of industrial drawings.
MTT 3554—Surface Toolpaths (3)
This is an advanced course designed to give the student an understanding on surface machining. It will build on information from the beginning classes and on wireframe/surface creation. The student will need to have completed MTT3544, MTT3547, and wireframe/surface creation.
Open the original version of this page.
Usablenet Assistive is a UsableNet product. Usablenet Assistive Main Page.