Award-Winning Program

De Anza's Design and Manufacturing Technologies Department has been recognized by the state Chancellor's "Workforce Stars" initiative for strong performance in these areas:
  • Students in the CNC Machinist program increased their earnings by 71%
  • More than 80% of CNC Machinist students earned at or above the regional living wage

Careers in Design and Manufacturing Technologies

Every manufactured object, from a rubber shoe sole to the gears in a car, requires technical drawings or computer models that describe its physical shape.

Designers and engineers create models and, with the help of computer-aided design (CAD) software, develop the plans for manufacturing individual components and the final assembled product.

Production engineers, computer numerical control (CNC) machinists, CNC programmers, mold makers and other skilled workers use those plans to configure and operate CNC machines, 3D printers and other equipment used to manufacture the products.

Employment Outlook: 2020-2030

  • The number of jobs for industrial engineering technicians are expected to increase 10%
  • There will be more than 16,000 openings for computer numerically controlled (CNC) operators during the 10-year period

These ten-year projections for California employment are calculated by the state Employment Development Department, which collects data about the state's workforce and economic trends.

Design and Manufacturing Technologies Programs at De Anza

two students at CNC machineThe Design and Manufacturing Technologies Department offers courses, certificates and degrees for both entry-level students and professionals seeking to increase their skills.

The department has accreditation from the National Institute for Metal Working Skills (NIMS) and is a Haas Technical Education Center and authorized Mastercam Training Center. 

Programs include Computer Aided Design (CAD), Computer Aided Manufacturing (CAM), Computer Numerical Controlled (CNC) Machining, Coordinate Measuring Machining (CMM), Geometric Dimensioning and Tolerance (GD&T) and 3D Printing and Additive Manufacturing.

Design and Manufacturing Technologies

  • Additive Manufacturing Technology: 3D Design and Production - Certificate of AchievementDetails for Certificate of Achievement - Additive Manufacturing Technology: 3D Design and Production

    The Certificate of Achievement in Additive Manufacturing Technology: 3D Design and Production provides knowledge of the fundamentals of computer-aided design (CAD), design for additive manufacturing (DfAM), reverse engineering principles, rapid 3D printing prototyping, and the required knowledge, skills, and abilities for additive manufacturing lab technicians. Students learn industry-standard practices for the most commonly utilized 3D printing materials and technologies, including fused deposition modeling (FDM), stereolithography (SLA), material jetting, selective laser sintering (SLS), and direct metal laser sintering (DMLS). In addition, students in this program will master the fundamental of 3D printing systems operation, maintenance and service. The certificate curriculum focuses on considerations and rapid prototyping applications of Additive Manufacturing (AM) through a combination of lecture, demonstration and project-based learning. Students will explore the design and material considerations within AM, configure systems, build prototypes and create functional parts. The certificate prepares individuals for a range of existing and emerging occupations in the advanced manufacturing sector, including CAD designers, additive manufacturing technicians, and applications engineering technicians.

    Requirements

  • CNC Machinist - Certificate of AchievementDetails for Certificate of Achievement - CNC Machinist

    The Computer Numerical Control (CNC) Machinist Certificate of Achievement teaches students the fundamentals of conventional and CNC machine tools. Students learn how to set up safely and operate manual mills and lathes and construct word address programs for the setup and operation of CNC mills. Upon completion, students are prepared for employment in manufacturing facilities as setup persons, machine operators and production workers. This certificate is part of a career ladder. Students may also choose to complete a Certificate of Achievement-Advanced or A.S. degree.

    Requirements

    Certificate/Degree Map

  • CNC Machinist - Certificate of Achievement-AdvancedDetails for Certificate of Achievement-Advanced - CNC Machinist

    The CNC Machinist Certificate of Achievement-Advanced teaches students the fundamentals of CNC machine tools. Students learn safe setup, editing and operation of CNC equipment, including vertical and horizontal mills, lathes and rotary multi-axis components. Students are taught to dimension and inspect parts using various inspection methods and to analyze materials and processes used in manufacturing. Upon completion, students are prepared for employment in manufacturing facilities as CNC setup persons and machine operators.

    Requirements

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  • CNC Machinist - Associate in ScienceDetails for Associate in Science - CNC Machinist

    The CNC Machinist A.S. degree teaches students the fundamentals of CNC machine tools. Students learn safe setup, editing and operation of CNC equipment, including vertical and horizontal mills, lathes and rotary multi-axis components. Students are taught to dimension and inspect parts using various inspection methods and to analyze materials and processes used in manufacturing. Upon completion, students are prepared for employment in manufacturing facilities as CNC setup persons and machine operators.

    Requirements

    Certificate/Degree Map

  • CNC Programming - CAD/CAM - Certificate of AchievementDetails for Certificate of Achievement - CNC Programming - CAD/CAM

    The CNC Programming - CAD/CAM Certificate of Achievement teaches students 2D, 3D, lathe and multi-axis machine tool programming. Students learn to construct geometry, select tools and produce and verify tool paths. Upon completion, students are prepared for employment as entry-level programmers in prototype and production manufacturing facilities. This certificate is part of a career ladder. Students may also choose to complete a Certificate of Achievement-Advanced or A.S. degree in CNC Machinist.

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  • CNC Research and Development Machinist - Certificate of Achievement-AdvancedDetails for Certificate of Achievement-Advanced - CNC Research and Development Machinist

    The Certificate of Achievement-Advanced teaches students the fundamentals of conventional and CNC machine tools. Students learn to set up safely and operate manual mills, lathes, surface grinders and CNC equipment, including vertical and horizontal mills, lathes and rotary multi-axis components. They also learn to produce word address programs with CAD/CAM software. Students are taught to dimension and inspect parts using various inspection methods and to analyze materials and processes used in manufacturing. Upon completion, students are prepared for employment working closely with engineers in a research and development environment.

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  • CNC Research and Development Machinist - Associate in ScienceDetails for Associate in Science - CNC Research and Development Machinist

    The A.S. degree teaches students the fundamentals of conventional and CNC machine tools. Students learn to set up safely and operate manual mills, lathes, surface grinders and CNC equipment, including vertical and horizontal mills, lathes and rotary multi-axis components. They also learn to produce word address programs with CAD/CAM software. Students are taught to dimension and inspect parts using various inspection methods and to analyze materials and processes used in manufacturing. Upon completion, students are prepared for employment working closely with engineers in a research and development environment.

    Requirements

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  • Computer Aided Design - Mechanical - Certificate of AchievementDetails for Certificate of Achievement - Computer Aided Design - Mechanical

    Students pursuing De Anza College’s Computer Aided Design - Mechanical Certificate of Achievement will receive an education in the fundamentals of CAD that combines the use of two types of design graphic software packages. Students will learn substantive job skills in Creo and SolidWorks CAD systems that will make them employable in industrial and mechanical engineering and design.

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  • Product Model Making - Certificate of Achievement-AdvancedDetails for Certificate of Achievement-Advanced - Product Model Making

    Students in the Certificate of Achievement-Advanced are taught the fundamentals of Product Model Making. Students learn the safe setup of CNC equipment, how to design and construct three-dimensional objects using CAD/CAM software and how to analyze materials and processes used in prototype model making. Upon completion, students are prepared for employment working in design-stage product development and prototype and model making environments.

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  • Product Model Making - Associate in ScienceDetails for Associate in Science - Product Model Making

    Students in the A.S. degree are taught the fundamentals of Product Model Making. Students learn the safe setup of CNC equipment, how to design and construct three-dimensional objects using CAD/CAM software and how to analyze materials and processes used in prototype model making. Upon completion, students are prepared for employment working in design-stage product development and prototype and model making environments.

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  • Quality Control Technician - Certificate of AchievementDetails for Certificate of Achievement - Quality Control Technician

    The Quality Control Technician Certificate of Achievement prepares students in the fundamentals of machining techniques, dimensional metrology, interpretation of multi-view engineering prints and applied geometric inspection dimensioning and tolerancing (ASME Y14.5m). Students also learn the correct operation of coordinate measuring machines (CMM) and the principles of manufacturing quality control and associated standards. Students in the Quality Control Technician program are instructed on how to inspect parts using various inspection methods; interpret drawings used in manufacturing; and record, analyze and document findings using various quality assurance procedures. Program students also learn the safe setup and operation of CMM and related measuring instruments. Upon completion of the certificate requirements, students are prepared for employment in manufacturing facilities as quality control inspectors and technicians.

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    Certificate/Degree Map


In addition to the programs listed above, you may be able to apply courses in this department toward General Education requirements.

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