DMT 75E Introduction to Computer Aided 4 Units Design Using Siemens NX
Advisory: EWRT 200 and READ 200, or ESL 261, 262, and 263; MATH 210 or equivalent.
Two hours lecture, six hours laboratory (96 hours total per quarter). Introduction-level application of Siemens NX in manufacturing models. This course covers solid modeling, assemblies and drawings.
DMT 77G Special Projects in 3D Printing/ 2 Units Additive Manufacturing
Prerequisite: Consent of instructor and division dean.
Six hours laboratory (72 hours total per quarter).
Projects advancing students’ knowledge and experience in a selected area of Additive Manufacturing/3D Printing. Project type and design will be determined through consultation with the instructor based on FDM or PolyJet Process.
DMT 77H Special Projects for Additive 2 Units Manufacturing in the Digital Factories
Prerequisite: Consent of instructor and division dean.
Six hours laboratory (72 hours total per quarter).
Projects advancing students’ knowledge and experience in a selected area of Additive Manufacturing in the Digital Factories. Project type and design will be determined through consultation with the instructor based on FDM, FFF or PolyJet Process.
DMT 77J Special Projects in Additive 2 Units Manufacturing for Rapid Prototyping
Prerequisite: Consent of instructor and division dean.
Six hours laboratory (72 hours total per quarter).
Projects advancing students’ knowledge and experience in a selected area of Additive Manufacturing for Rapid Prototyping. Project type and design will be determined through consultation with the instructor based on Fused Deposition Modeling FDM or Fused filament fabrication FFF, Material Jetting, Stereolithography.
D
DMT 77A Special Projects In Manufacturing
and CNC/Mastercam Certification Level 1
2 Units
(Formerly MCNC 80A.)
Prerequisite: Consent of instructor and division dean.
Six hours laboratory (72 hours total per quarter).
Projects advancing student’s knowledge and experience in computer numerical control machining using Mastercam CAD/CAM software, a selected area of Design and Manufacturing Technology. Project type and design will be determined through consultation with the instructor based on Mill Design and Toolpaths. Upon successful completion of the course the student will have the opportunity to earn an Associate Level Certificate from Mastercam.
DMT 77B Special Projects In Manufacturing
and CNC/Mastercam Certification Level 2
2 Units
(Formerly MCNC 80B.)
Prerequisite: Consent of instructor and division dean.
Six hours laboratory (72 hours total per quarter).
Projects advancing student’s knowledge and experience in computer numerical control machining using Mastercam CAD/CAM software, a selected area of Design and Manufacturing Technologies. Project type and design will be determined through consultation with the instructor based on Advanced Mill Design and Toolpaths. Upon successful completion of the course the student will have the opportunity to earn an Associate Level Certificate from Mastercam.
DMT 77X
DMT 77Y
DMT 77Z
Special Projects in CAD
1 Unit 2 Units 3 Units
DMT 77C Special Projects In Manufacturing
and CNC/Mastercam Certification Level 3
2 Units
Prerequisite: Consent of instructor and division dean.
Three hours laboratory for each unit of credit (36 hours total for each unit of credit per quarter).
This course involves projects advancing students’ knowledge and experience in a selected area of Computer-Aided Design. Students will complete project objectives/ requirements as determined in 3, 4, and 5 of the Special Projects Contract.
DMT 80 Introduction to Machining and CNC 5 Units Processes
(Formerly MCNC 71.)
Advisory: EWRT 200 and READ 200, or ESL 261, 262, and 263; MATH 210 or equivalent.
Three hours lecture, six hours laboratory (108 hours total per quarter). Manufacturing lab safety. Precision measuring tools and practices. Basic manual machine operations: pedestal grinders, drill presses, saws, lathes and milling machines. Threads: types, applications and use of taps and dies. Computer Numerical Control (CNC) mills: axis moves, cutters, tooling, basic setup and controller function. Cutter speed and feed calculations.
DMT 82 Advanced Conventional Machine Tools, 5 Units Tool Design, Abrasive Machining
(Formerly MCNC 77.)
Prerequisite: DMT 80 with a grade of C or better or equivalent.
Three hours lecture, six hours laboratory (108 hours total per quarter).
Advanced machining and abrasive machining practices using conventional machine tools and surface grinders. Introduction to fixture design including location, clamping methods and computation of fits and allowances.
DMT 84A Introduction to CNC Programming and 5 Units Operation; Mill
(Formerly MCNC 75A.)
Advisory: EWRT 200 and READ 200, or ESL 261, 262, and 263; MATH 210 or equivalent; DMT 80 or experience in machining processes.
Three hours lecture, six hours laboratory (108 hours total per quarter). Introduction to mill tool path programming using G & M code format. CNC systems and components including machine controller functions and operations. Program entry, editing, and verification. Calculation for mill cutter compensation. Precision inspection techniques. Basic mill setups, including cutting tool selection, and work holding.
(Formerly MCNC 80C.)
Prerequisite: Consent of instructor and division dean.
Six hours laboratory (72 hours total per quarter).
Projects advancing student’s knowledge and experience in computer numerical control machining using Mastercam CAD/CAM software, a selected area of Design and Manufacturing Technologies. Project type and design will be determined through consultation with the instructor based on Multiaxis Mill, Lathe design and Toolpaths. Upon successful completion of the course the student will have the opportunity to earn an Associate Level Certificate from Mastercam.
DMT 77D Special Projects In Manufacturing 2 Units and CNC/NIMS Level 1
(Formerly MCNC 80D.)
Prerequisite: Consent of instructor and division dean.
Six hours laboratory (72 hours total per quarter).
Projects advancing student’s knowledge and experience in computer numerical control and conventional machining, selected areas of Design and Manufacturing Technologies. Project type and design will be determined through consultation with the instructor based on the National Institute for Metalworking Skills certification program. Upon successful completion of the course the student will have the opportunity to earn multiple Level 1 NIMS certifications.
DMT 77E Special Projects In Manufacturing 2 Units and CNC/NIMS Level 2
(Formerly MCNC 80E.)
Prerequisite: Consent of instructor and division dean.
Six hours laboratory (72 hours total per quarter).
Projects advancing student’s knowledge and experience in computer numerical control and conventional machining, selected areas of Design and Manufacturing Technologies. Project type and design will be determined through consultation with the instructor based on the National Institute for Metalworking Skills certification program. Upon successful completion of the course the student will have the opportunity to earn multiple Level 2 NIMS certifications.
DMT 77F Special Projects In Manufacturing 2 Units and CNC/NIMS Level 3
(Formerly MCNC 80F.)
Prerequisite: Consent of instructor and division dean.
Six hours laboratory (72 hours total per quarter).
Projects advancing student’s knowledge and experience in computer numerical control, a selected area of Design and Manufacturing Technologies. Project type and design will be determined through consultation with the instructor based on the National Institute for Metalworking Skills certification program. Upon successful completion of the course the student will have the opportunity to earn multiple Level 3 NIMS certifications.
DMT 84B
CNC Programming and Operation;
5 Units
2O21-2O22 DE ANZA COLLEGE CATALOG
201
All courses are for unit credit and apply to a De Anza associate degree unless otherwise noted.
Intermediate Mill
(Formerly MCNC 75B.)
Prerequisite: DMT 84A or equivalent with a grade of C or better.
Three hours lecture, six hours laboratory (108 hours total per quarter). Intermediate CNC Mill tool path programming using word address format, including coordinate system, cutter compensation and canned cycles. Intermediate mill programming using sub programs, alternate work coordinate systems and macros. Program entry, editing, and back plotting. Machine controller functions and operations. Single point threading and Unified thread form classes and measurement. Indexable tool insert selection.