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Front Page > Archived Education > Mechanical and Production Engineering (I-KT) > 2010V > Year 2 > Computer Aided Mechanical Design (Inventor) (IKTA0305)

Computer Aided Mechanical Design (Inventor)

Structure Type: Study unit
Code: IKTA0305
Type: Compulsory / Professional Studies
Curriculum: I-KT 2010V
Level: Bachelor of Engineering
Year of Study: 2 (2011-2012)
Credits: 3 cr
Responsible Teacher: Hantula, Juha
Language of Instruction: Finnish

Courses During the Academic Year 2011-2012

Impl.Group(s)Study TimeTeacher(s)LanguageEnrolment
1I-KT-2N2011-08-29 – 2011-12-23Juha HantulaFinnish2011-08-19 – 2011-09-04
2I-KT-2V2011-08-29 – 2011-12-23Juha HantulaFinnish2011-08-19 – 2011-09-04

Learning Outcomes

The student will be able to create 3D- models of simple objects and join them together in assemblies. He/she is able to produce dimensioned manufacturing drawings, assembly drawings, exploded assembly drawings, rendered pictures and animations with 3D- modelling software. The student knows the principles of sheet metal part design and is able to create a simple sheet metal part model and unfold it.

Student's Workload

Total work load of the course: 81 h, of which
- scheduled studies: 42 h
- autonomous studies: 39 h

Prerequisites / Recommended Optional Courses

Basics of Engineering Drawing

Contents

3D- Part modeling: The principles of Feature- based modelling, sketching, parametric dimensions and geometric constraints, editing part models. Sheet metal parts, unfolding.
Assembly modelling: Defining components and constraints, Bill of Materials, welding assembly model.
Drafting: Creating drawings, Drawing views, dimensioning and annotation.
Assembly drawings: Part numbers and part list, exploded views, animations.
Drawing data exchange, document management, projects.

Recommended or Required Reading and Other Learning Resources/Tools

1. 3D-mallinnus , Luentomoniste, Juha Hantula, 2010
2. Handouts given by the lecturer.

Mode of Delivery / Planned Learning Activities and Teaching Methods

Lectures, exercises, assignments, examination.

Assessment Criteria

5: Student is able to apply course content on his/her own initiative and develop new solutions.
3: Student is able to apply course content independently.
1: Student is able to use course content to limited extent.

Assessment Methods

Numerical assessment, examination and assignments. Examination includes practical tasks at workstations.


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