About the Program
The Certificate in 3D Mechanical Applications covers 3D modeling applications and mechanical print reading. Upon completion, the student will be able to model and assemble models in 3D space, document the models in print format, and be able to correctly interpret documentation in a mechanical and manufacturing environment.
Program Requirements
Program Goal: CTE
GE Pattern(s): None
Program Code: 3DMECHAPPS.CC
Program Learning Outcome(s):
Upon successful completion of this program, the student will be able to:
Use a solid modeling application like Solid Works or Autodesk Inventor to develop parts, assemblies and output annotated drawings.
Interpret and differentiate technical information provided on a manufacturing or fabrication print, including dimensions, tolerances, and specifications and other precision detail.
Explain and demonstrate the use of added tools for 3D modeling including simulation, conversion from CAD (computer aided drafting) and specialty tools like sheet metal development, weldment development as well as animation and motion.
Unit(s): 3.00
Transfer Status: CSU/UC
Contact Hours:
34.00 hours Lecture
/ 51.00 hours Lab
Out of Class Hours: 68.00
Total Course Hours: 153.00
This is a computer-based engineering graphics course that introduces students to graphical design and problem solving using freehand sketching and a solid modeling application. Topics include sketching and modeling using extrudes, sweeps, and lofts. Additional topics include assemblies development and detail drawing output. Graphics standards including American National Standards Institute (ANSI) Y14.5 and international standards application will be introduced and practiced.
Prerequisite(s): DFT 2
Unit(s): 3.00
Transfer Status: CSU
Contact Hours:
34.00 hours Lecture
/ 51.00 hours Lab
Out of Class Hours: 68.00
Total Course Hours: 153.00
In this computer-based engineering graphics course students who have already completed the learning objectives of DFT-2: Engineering Graphics I will be introduced to the use of a solid modeling application for simulation of parts and assemblies using Finite Element Analysis (FEA) methodology. Students will model parts and assemblies and will test them using simulation and engineering analysis. Topics include static, frequency, thermal, vibration and drop test analysis methods. The use of simulation to generate engineering reports will be introduced and reports will be generated.
Unit(s): 3.00
Transfer Status: CSU
Contact Hours:
51.00 hours Lecture
Out of Class Hours: 102.00
Total Course Hours: 153.00
This course introduces students to drawings, symbols and standards used in manufacturing and industrial applications. Topics include line types, views, dimensions, symbols, sketching, geometric dimensioning and tolerancing, version and revision systems and specialty drawings by manufacturing process. Manufacturing prints, drawings and specifications from both manufacturing and industrial applications will be used in the course.
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Contacts
Thomas Williams, Chair
(530) 895-2496
Department Office: WM 105
(530) 895-2551
Counseling and Advising:
(530) 895-2378
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