3D-CADLaajuus (3 cr)
Code: AE00CM87
Objective
Students will learn to create 3D part models, sheet metal models, sub-assembly and assembly models. They will also learn to create assembly and component drawings by using CAD software. They will also learn basic knowledge of the theory of technical drawing and understand the symbols used in mechanical drawing.
Content
-Theory of technical drawing
-3D modelling and general theory of modelling systems
-3D modelling of products and assembly models
-Drawing planes and sheet metal designing
-Diagrams and their standardised symbols
Qualifications
No previous studies are required
Assessment criteria, satisfactory (1)
Satisfactory (2-1)
Students are familiar with the standard machine drawing symbols and be able to model 3D workpieces.
Assessment criteria, good (3)
Students are able to model the 3D workpieces, create drawings and small assemblies.
Assessment criteria, excellent (5)
Students can do a demanding product design.
Enrollment
22.04.2024 - 04.09.2024
Timing
26.08.2024 - 13.10.2024
Credits
3 op
Teaching languages
- English
Degree programmes
- Professional Studies in Technology
- Bachelor of Engineering, Automation Engineering
Teachers
- Jorma Mettälä
Student groups
-
AE23Bachelor of Engineering, Automation Engineering
-
IEPIP24International Professional Studies
Objective
Students will learn to create 3D part models, sheet metal models, sub-assembly and assembly models. They will also learn to create assembly and component drawings by using CAD software. They will also learn basic knowledge of the theory of technical drawing and understand the symbols used in mechanical drawing.
Content
-Theory of technical drawing
-3D modelling and general theory of modelling systems
-3D modelling of products and assembly models
-Drawing planes and sheet metal designing
-Diagrams and their standardised symbols
Materials
Recommended or Required Reading
Hand-outs and the following literature as assigned by the lecturer:
Cesil Jensen et al. 2008. Engineering Drawing & Design, Seventh Edition, McGraW-Hill International Edition, ISBN 978-0-07-128420-2
Teaching methods
Mode of Delivery / Planned Learning Activities and Teaching Methods
- Lectures
- Supervised computer work
- Assignments
Student workload
32h lectures, exercises
28h assignments, preparing for exams
Evaluation scale
1-5
Assessment criteria, satisfactory (1)
Satisfactory (2-1)
Students are familiar with the standard machine drawing symbols and be able to model 3D workpieces.
Assessment criteria, good (3)
Students are able to model the 3D workpieces, create drawings and small assemblies.
Assessment criteria, excellent (5)
Students can do a demanding product design.
Assessment methods and criteria
Assessment Methods
Assignments and an examination
Assessment criteria, good (3)
Student can model a basic workpiece and make a technical drawing for it
Assessment criteria, excellent (5)
Student can model a basic workpiece and make a good technical drawing for it. In addition, student can make an assembly drawing and parts list.
Assessment criteria, approved/failed
Student can utilize cad system very versatile. Student can model a basic workpiece and make a good technical drawing for it. In addition, student can make an assembly drawing and parts list, exploded views and sheet metal models.
Qualifications
No previous studies are required
Enrollment
17.04.2023 - 06.09.2023
Timing
28.08.2023 - 15.10.2023
Credits
3 op
Teaching languages
- English
Degree programmes
- Bachelor of Engineering, Automation Engineering
Teachers
- Jorma Mettälä
Student groups
-
AE22Bachelor of Engineering, Automation Engineering
Objective
Students will learn to create 3D part models, sheet metal models, sub-assembly and assembly models. They will also learn to create assembly and component drawings by using CAD software. They will also learn basic knowledge of the theory of technical drawing and understand the symbols used in mechanical drawing.
Content
-Theory of technical drawing
-3D modelling and general theory of modelling systems
-3D modelling of products and assembly models
-Drawing planes and sheet metal designing
-Diagrams and their standardised symbols
Materials
Recommended or Required Reading
Hand-outs and the following literature as assigned by the lecturer:
Cesil Jensen et al. 2008. Engineering Drawing & Design, Seventh Edition, McGraW-Hill International Edition, ISBN 978-0-07-128420-2
Teaching methods
Mode of Delivery / Planned Learning Activities and Teaching Methods
- Lectures
- Supervised computer work
- Assignments
Student workload
32h lectures, exercises
28h assignments, preparing for exams
Evaluation scale
1-5
Assessment criteria, satisfactory (1)
Satisfactory (2-1)
Students are familiar with the standard machine drawing symbols and be able to model 3D workpieces.
Assessment criteria, good (3)
Students are able to model the 3D workpieces, create drawings and small assemblies.
Assessment criteria, excellent (5)
Students can do a demanding product design.
Assessment methods and criteria
Assessment Methods
Assignments and an examination
Assessment criteria, good (3)
Student can model a basic workpiece and make a technical drawing for it
Assessment criteria, excellent (5)
Student can model a basic workpiece and make a good technical drawing for it. In addition, student can make an assembly drawing and parts list.
Assessment criteria, approved/failed
Student can utilize cad system very versatile. Student can model a basic workpiece and make a good technical drawing for it. In addition, student can make an assembly drawing and parts list, exploded views and sheet metal models.
Qualifications
No previous studies are required
Enrollment
16.04.2022 - 07.09.2022
Timing
29.08.2022 - 16.10.2022
Credits
3 op
Virtual proportion (cr)
1 op
RD proportion (cr)
1 op
Teaching languages
- English
Degree programmes
- Bachelor of Engineering, Automation Engineering
Teachers
- Jorma Mettälä
Student groups
-
AE21Bachelor of Engineering, Automation Engineering
Objective
Students will learn to create 3D part models, sheet metal models, sub-assembly and assembly models. They will also learn to create assembly and component drawings by using CAD software. They will also learn basic knowledge of the theory of technical drawing and understand the symbols used in mechanical drawing.
Content
-Theory of technical drawing
-3D modelling and general theory of modelling systems
-3D modelling of products and assembly models
-Drawing planes and sheet metal designing
-Diagrams and their standardised symbols
Materials
Recommended or Required Reading
Hand-outs and the following literature as assigned by the lecturer:
Cesil Jensen et al. 2008. Engineering Drawing & Design, Seventh Edition, McGraW-Hill International Edition, ISBN 978-0-07-128420-2
Teaching methods
Mode of Delivery / Planned Learning Activities and Teaching Methods
- Lectures
- Supervised computer work
- Assignments
Student workload
32h lectures, exercises
28h assignments, preparing for exams
Evaluation scale
1-5
Assessment criteria, satisfactory (1)
Satisfactory (2-1)
Students are familiar with the standard machine drawing symbols and be able to model 3D workpieces.
Assessment criteria, good (3)
Students are able to model the 3D workpieces, create drawings and small assemblies.
Assessment criteria, excellent (5)
Students can do a demanding product design.
Assessment methods and criteria
Assessment Methods
Assignments and an examination
Assessment criteria, good (3)
Student can model a basic workpiece and make a technical drawing for it
Assessment criteria, excellent (5)
Student can model a basic workpiece and make a good technical drawing for it. In addition, student can make an assembly drawing and parts list.
Assessment criteria, approved/failed
Student can utilize cad system very versatile. Student can model a basic workpiece and make a good technical drawing for it. In addition, student can make an assembly drawing and parts list, exploded views and sheet metal models.
Qualifications
No previous studies are required