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Course Criteria
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1.00 - 2.00 Credits
Prerequisites: CAD 1101 plus additional course(s) based on special topic content as needed. Students will be introduced to and complete computer-based assignments in, new software and/or applications in the field of computeraided design, computer-aided engineering, and design/manufacturing simulations. Refer to current Schedule of Classes for topics, prerequisites, and, software version(s). Course/lab fees
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4.00 Credits
Pre or Corequisite: CAD 1201 or consent of instructor The student will learn the principles and techniques of creating parts in three dimensions. Emphasis is also placed on basic surface generation techniques for design and manufacturing. Some of the topics include three-dimensional part design, various types of surfaces, analysis, layers and filter, use of sets, volume creation, two-dimensional and three-dimensional space integration, intersection and development of flat surface objects and double-curved surfaces, etc. The student will use computer hardware and software to solve threedimensional engineering and drafting problems using Computer Aided Engineering (CAE) techniques. Refer to current Schedule of Classes for software version(s). Course/lab fees
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4.00 Credits
Pre or Corequisite: CAD 1201 or consent of instructor This course will cover the principles and techniques of creating parts in three dimensions and the basics of generative surface design. Emphasis is also placed on generation of views, text, dimensions and assembly techniques. Some of the topics include: sketcher, part design, drafting, complex and multiple sketch parts, assembly design and generative surface design. The student will use computer hardware and software to solve engineering-related problems using Computer Aided Engineering techniques (CAE). Refer to current Schedule of Classes for software version(s). Course/lab fees
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3.00 Credits
Prerequisites: CAD 2102 or consent of instructor This course provides the foundation to digitally define and simulate manufacturing processes using DELMIA (Digital Enterprise Leans Manufacturing Interactive Applications), DPM (Digital Process Manufacturing), and 3D data from CATIA vs or any major CAD system. Heavy emphasis on building assembly simulation, conceptual process plans, and process verification within the new CATIA/DELMIA vs paradigm is a common thread throughout the course. This course will present how to use the DPM Assembly Process Simulation tools to create assembly build sequences, simulations, and conceptual process plans for visualization, validation, and verification of manufacturing processes. Refer to current Schedule of Classes for software version(s). Course/lab fees
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3.00 Credits
Pre or Corequisite: CAD 1201 or consent of instructor Using CAD/CAE software package, the student will develop skills and abilities to create twoand three-dimensional designs and the extraction of multiview drawings from three-dimensional model. Some of the topics include, 2-D and 3-D part creation, image manipulation, layer control, surfacing, analysis, menu structure, dimensions and drafting symbols, plotting and section cuts from 3-D models. The student will use a CAD/ CAE system to complete design and drafting projects. Refer to current Schedule of Classes for software version(s). Course/lab fees
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4.00 Credits
Prerequisite: CAD 2102 or consent of instructor Using a computer aided design and engineering (CAD/CAE) software package, students will be presented with the principles and techniques of advanced part design for product development. Practical applications of parametric modeling are incorporated into this product oriented class. Students will use a CAD/CAE system to complete projects dealing with metals, plastics and composites. The course also includes knowledgeware, use of reference elements, assembly, relational formulas, reverse engineering and rapid prototyping. Refer to current Schedule of Classes for software version(s). Course/lab fees
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3.00 Credits
Prerequisite: CAD 2102 or consent of instructor The students will learn the techniques and concepts of two-dimensional and threedimensional kinematics. The course involves geometric modeling, kinematic modeling and simulation of kinematic mechanisms, generation of traces and numerical outputs. The course also includes the study of multitude of joints and their limitations, analysis, modification and management of kinematic mechanisms. Refer to current Schedule of Classes for software version(s). Course/lab fees
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4.00 Credits
Prerequisite: CAD 2102 or consent of instructor Using a three-dimensional Computer Aided Design and Engineering System, students will be introduced to the concepts and techniques of creating curves and surfaces for product design and manufacturing. Topics included in the course are: simple and complex surfaces, wire frame features, swept and blend surfaces, surface fillets, analysis and repair, laws, and surfacesolid integration. Students will solve threedimensional engineering design and surfacing problems dealing with metals, plastics and composites. Refer to current Schedule of Classes for software version(s). Course/lab fees
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3.00 Credits
Prerequisites: CAD 2102 and either PHY 1610 (or higher) or APP 2170, or consent of instructor The student will learn the techniques and concepts of finite element modeling. The focus of the course is the preprocessing stage of preparing geometric models for analysis. The student will design geometry of parts, define mesh, properties, loads, restraints and constraints. An overview of finite element solver and post processor to visualize the model will be presented. The student will use CAD/CAE hardware and software to prepare finite element models. Refer to current Schedule of Classes for software version(s). Course/lab fees
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3.00 Credits
Prerequisite: CAD 2110 or consent of instructor Pre or Corequisite: DDT 1150 This course introduces students to a wide range of intermediate and advanced modeling techniques. Topics include construction of parametric models utilizing the Sketcher module, working with reference features, using expressions, proper organization of the part files, creation of complex solids, learning to use "best modeling practices" for design, and utilizing the drafting module to create views, cut sections, and dimension parts. All design concepts are applicable to tool/machine, product, and body design industries. Refer to current Schedule of Classes for software version(s). Course/lab fees
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