117
Courses
EverettCC.edu
ENGR 220 Mechanics Breaking Lab
2
(TE) Mechanical behavior of materials and application to engineering structures. Hands-on experience in various material testing and experimental stress analysis methods. Introduction to engineering data analysis and report writing. Investigate various types of mechanical behavior in response to loading conditions. Topics will include tension, impact, fatigue, and torsion testing, stress wave experimentation, strain gages, and combined stress analysis.
5
(NS) Thermodynamic properties of matter. First and second law analysis of engineering systems. Energy interactions, performance and efficiency of engineering devices, power cycles, and refrigeration cycles. Prerequisites: CHEM& 162 AND MATH& 152 AND PHYS& 241; OR instructor permission. ENGR& 225 Mechanics of Materials
5
(NS) Introduction to mechanics of solids; stress, strain and their relationships; torsion; and bending. Prerequisites: MATH& 152 AND ENGR& 214 with grade of C or higher; OR instructor permission. ENGR 240 Applied Numerical Methods
5
Introduction to solving technical problems in various manufactured assemblies for manufacturing technology students. Use of engineering and mechanical scales and precision measuring instruments to measure sizes, lengths and locations of shapes and features. Algebraic, geometric and trigonometric concepts will be applied at an introductory level to solve technical problems such as determining volumes and weights. Scientific calculator required. Prerequisites: Eligibility for MATH 76 or higher
Prerequisites: ENGR& 225 or concurrent enrollment, OR instructor permission. ENGR& 224 Thermodynamics
ENG T 101 Introduction to Graphics and Measurement
5
ENG T 102 Technical Problem Analysis
5
This course is designed to apply basic algebra, geometry and trigonometry to practical problems encountered in technical design and the manufacturing industry. The course includes problems focusing on composites, technical design, welding, precision machining and CNC topics. Students will be introduced to an electronic spreadsheet to perform their calculations. Prerequisites: ENG T 101 or MATH 76 or placement into MATH 86 or higher ENG T 103 Introduction to Revit
4
Introduction to Revit architectural design and documentation software tools and features. The course will explore the Building Information Modeling interface and focus on the basics of building creation, view controls navigation and the settings for controlling graphic properties, constrain the building designs with dimensions and relationships between elements, practice key editing and manipulating tools.
(NS) Numerical solutions to problems in engineering and science using modern scientific computing tools. Application of mathematical judgment in selecting computational algorithms and communicating results. Introduction to MATLAB programming for numerical computation.
Prerequisites: ENG T 100
Prerequisites: MATH& 163 with grade of C or higher; OR instructor permission.
Instruction in interpreting mechanical/manufacturing blueprints per ASME Y14.5. Emphasis on practical applications of this standard as applied to reading, interpreting, and trouble-shooting engineering production drawings.
ENGINEERING TECHNOLOGY See also Manufacturing Technology/Precision Machining, Engineering The Engineering Technology program is designed to provide skills and knowledge in a variety of technical design subjects, including computer aided design (CAD) software such as CATIA version 5, Solid Works and AutoCAD. Skills learned in this program are taught using applied methods where training is practical and hands-on. In addition to the Student Core Learning Outcomes, the Program Specific Outcomes include: • Solve technical mathematical problems • Utilize basic engineering graphics with 2D CAD • Create multi-view drawings using 2D and 3D CAD • Create assembly drawings from 3D models • Create complex surfaced part models using 3D CAD • Design for producability and manufacturing ease • Document technical activities in written and verbal reports • Be prepared for successful employment Faculty Advisor: S. Auger D. Primacio
425-388-9534 425-267-0160
sauger@everettcc.edu dprimacio@everettcc.edu
ENG T 100 Introduction to Engineering Graphics and 2D AutoCAD
4
Introductory level course that uses a two-dimensional (2D) computer-aided design (CAD) software to aid in the theory and application of creating, modifying, analyzing, or optimizing a design. Apply standard borders, orthographic views, auxiliary views, and other standard drafting views and practices to create engineering drawings using computer-aided design and drafting (CADD). Prerequisites: DEVED 96 or CL 101
ENG T 104 Mechanical Blueprint Reading
3
ENG T 105 Precision, Fits, Tolerancing and GD&T 4
Theory and application of dimensioning and tolerancing using Solid Works per American Society of Mechanical Engineers (ASME) Y14.5. Use of standard tolerances with a further emphasis on precision fits and geometric dimensioning and tolerancing on engineering production drawings. Prerequisites: ENG T 108 or ENG T 185 or ENGR& 114 and instructor permission. ENG T 108 Engineering Graphics: 3D CAD
4
Fundamentals of engineering graphics for preparation of designs and working drawings, using parametric solid modeling software as a design tool. Includes generation of detail and assembly drawings. Freehand sketching used to develop visualization skills and as an instrument for design conceptualization and communication. Prerequisites: DEVED 96 or CL 101 ENG T 112 Pneumatic, Hydraulic, and Electrical Circuits
5
Introductory course examining practical applications using pneumatic, hydraulic and electrical components. Basic theories are discussed and typical hardware used in manufacturing is evaluated. Prerequisites: ENG T 100 or MATH 76 or eligibility for MATH 86 via a MATH assessment; OR instructor permission. ENG T 185 Introduction to CATIA 3D Experience
4
Introduction to parametric, three-dimensional modeling using CATIA 3D Experience. Focus on how to navigate within this software, how to create three-dimensional solid models using industry best practices, and then how to create and manipulate assemblies made from these parts. Prerequisites: DEVED 96 or CL 101
