DMT 54
3D Printing/Additive Manufacturing:
4 Units
DMT 70A Introduction to Computer Aided 4 Units Design Using AutoCAD
Advisory: EWRT 200 and READ 200 (or LART 200), or ESL 261, 262 and 263; MATH 210 or equivalent.
Two hours lecture, six hours laboratory (96 hours total per quarter). Introduction-level computer-aided design and drafting using AutoCAD software. Emphasis on 2D drawings and dimensioning.
DMT 70B Introduction to Computer Aided 4 Units Design Using AutoCAD
Advisory: EWRT 200 and READ 200 (or LART 200), or ESL 261, 262 and 263; MATH 210 or equivalent.
Two hours lecture, six hours laboratory (96 hours total per quarter). Introduction-level computer-aided design and drafting using AutoCAD software. Emphasis on 2D drawings and dimensioning.
DMT 70C Introduction to Computer Aided 4 Units Design Using AutoCAD
Advisory: EWRT 200 and READ 200 (or LART 200), or ESL 261, 262 and 263; MATH 210 or equivalent.
Two hours lecture, six hours laboratory (96 hours total per quarter). Introduction-level computer-aided design and drafting using AutoCAD software. Emphasis on 2D drawings and dimensioning.
DMT 70D Introduction to Computer Aided 4 Units Design Using AutoCAD
Advisory: EWRT 200 and READ 200 (or LART 200), or ESL 261, 262 and 263; MATH 210 or equivalent.
Two hours lecture, six hours laboratory (96 hours total per quarter). Introduction-level computer-aided design and drafting using AutoCAD software. Emphasis on 2D drawings and dimensioning.
DMT 70E Introduction to Computer Aided 4 Units Design Using AutoCAD
Advisory: EWRT 200 and READ 200 (or LART 200), or ESL 261, 262 and 263; MATH 210 or equivalent.
Two hours lecture, six hours laboratory (96 hours total per quarter). Introduction-level computer-aided design and drafting using AutoCAD software. Emphasis on 2D drawings and dimensioning.
DMT 73A Introduction to Computer Aided 4 Units Design Using Autodesk Inventor
Advisory: EWRT 200 and READ 200 (or LART 200), or ESL 261, 262 and 263; MATH 210 or equivalent.
Two hours lecture, six hours laboratory (96 hours total per quarter). Introduction-level computer-aided design and drafting using AutoDesk Inventor software. Application of AutoDesk Inventor in creating manufacturing models (parts, assemblies and drawings).
DMT 75A Introduction to Computer Aided 4 Units Design Using Siemens NX
Advisory: EWRT 200 and READ 200 (or LART 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 77A Special Projects In Manufacturing 2 Units and CNC/Mastercam Certi cation Level 1
(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 Certi cate from Mastercam.
DMT 77B Special Projects In Manufacturing 2 Units and CNC/Mastercam Certi cation Level 2
(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 Certi cate from Mastercam.
D
Theory and Practice
Prerequisite: DMT 53.
Four hours lecture (48 hours total per quarter).
A focus on design considerations and rapid prototyping applications of Additive Manufacturing (AM), commonly known as 3D Printing. Using a combination of lecture and hands-on projects, students will explore the design and material considerations within AM and will con gure AM systems and build prototypes and functional parts. Guest lecturers from the AM industry will provide key insights and best practices across a wide array of AM technologies. Students are expected to have a fundamental understanding of at least one parametric modeling CAD system to produce functional designs.
DMT 55 Survey of Design and Manufacturing 4 Units Processes/Modern Fabrication
Advisory: EWRT 200 and READ 200 (or LART 200), or ESL 261, 262 and 263. Four hours lecture (48 hours total per quarter).
This survey course is designed to introduce students to both design, manufacturing and modern fabrication, by means of demonstrations, with the following areas of emphasis: manufacturing processes, equipment and systems, design for manufacturing, measurement tools, blueprint reading, rapid prototyping (3D printers), CNC machine set-up, CNC machine programming (lathe and mill), CAD/ CAM and quality control using geometric dimensioning and tolerancing (GD&T). This hands on, team based course is designed to provide students with instruction and skills through applied real world experience to enable insight as to how products are designed and fabricated. Students will be able to identify the terminology of each area, examine each technique and skill requirement, and gain a fundamental understanding of diverse industry processes.
DMT 60A SolidWorks (Beginning) 4 Units
(Formerly CDI 60.)
Advisory: EWRT 200 and READ 200 (or LART 200), or ESL 261, 262 and 263. Two hours lecture, six hours laboratory (96 hours total per quarter). Fundamentals of computer-aided design and drafting using SolidWorks software. Application of SolidWorks in creating manufacturing models (parts, assemblies and drawings).
DMT 61A SolidWorks (Intermediate)
4 Units
(Formerly CDI 61.)
Prerequisite: Any DMT 60A-E course.
Two hours lecture, six hours laboratory (96 hours total per quarter). Intermediate-level application of SolidWorks in creating and maintaining solid models and drawings. Special emphasis is given to creation and development of new drawings based on preexisting solid models.
DMT 62A SolidWorks: Top-Down Design and Advanced System Tools
4 Units
Prerequisite: Any DMT 61A-E course.
Two hours lecture, six hours laboratory (96 hours total per quarter).
Advanced 3D Solid Modeling techniques using SolidWorks. Emphasis is on Advanced Assembly Mates, Large Assembly Management Tools, and Top-Down Design. In addition, time is given to safe and proper development of new Solid Models and Drawing Documents from legacy solid models, using so-called Top- Down Assembly techniques.
DMT 63A SolidWorks: Surface Modeling 4 Units
Prerequisite: Any DMT 60A-E course.
Two hours lecture, six hours laboratory (96 hours total per quarter).
Surface design using SolidWorks software to create organic 3D shapes that follow processed-based (or task-based) approach to modeling. Application of multifaceted surfaces features in designing product models and molds for industry.
DMT 65A Creo Parametric (Beginning)
4 Units
(Formerly CDI 70.)
Advisory: EWRT 200 and READ 200 (or LART 200), or ESL 261, 262 and 263. Two hours lecture, six hours laboratory (96 hours total per quarter). Fundamentals of computer-aided design using Creo Parametric. Application of Creo Parametric software in creating manufacturing models (parts, assemblies, and drawings).
DMT 66A Creo Parametric (Intermediate)
4 Units
(Formerly CDI 71.)
Prerequisite: Any DMT 65A-E course.
Two hours lecture, six hours laboratory (96 hours total per quarter). Intermediate-level application of Creo Parametric in creating solid models and drawings. Special emphasis is given to the creation of parts, assemblies, and drawings which are more complex and technically more di cult than those projects found in the course prerequisite.
DMT 67A Creo Parametric: Top-Down Design and Advanced System Tools
4 Units
Prerequisite: Any DMT 65A-E course.
Two hours lecture, six hours laboratory (96 hours total per quarter).
Advanced 3D Solid Modeling techniques using Creo Parametric. Emphasis is on Advanced Assembly Mates, Large Assembly Management Tools, and Top-Down Design. In addition, time is given to safe and proper development of new Solid Models and Drawing Documents from legacy solid models, using Top-Down Assembly techniques. Exploration of intricate models (parts, assemblies, sheetmetal and complex feature sets).
2O18-2O19 DE ANZA COLLEGE CATALOG
151
All courses are for unit credit and apply to a De Anza associate degree unless otherwise noted.