Surface modelling and industrial design (3 cr)

Code: TKSU0500-3004

General information

Enrollment: 04.08.2025 - 21.08.2025
Registration for introductions has not started yet.

Timing: 25.08.2025 - 19.12.2025
The implementation has not yet started.

Number of ECTS credits allocated: 3 cr

Local portion: 3 cr

Mode of delivery: Face-to-face

Unit: School of Technology

Campus: Main Campus

Teaching languages: Finnish

Seats: 20 - 23

Degree programmes: Bachelor's Degree Programme in Mechanical Engineering

Teachers: Taina Tossavainen

Groups: TKN23SA
Konetekniikka (AMK)

Course: TKSU0500

No reservations found for realization TKSU0500-3004!

Evaluation scale

0-5

Objective

Design and surface modelling are an important part of product design. After completing the course, you will understand the key concepts of design and the basics of industrial design. You will learn to use the concepts and methods that are adapted in the course at a basic level in your own work. In addition to this, you will learn to recognize the industrial designer's job description and design requirements in machine design. You are able to handle the most common commands of the surface and hybrid modeling and are able to model parts that take into account design requirements.

Knowledge and understanding:
You understand the basics of surface modelling and industrial design.

Engineering practice:
You are able to apply the learned established methods to solve practical problems.

Content

3D surface modelling methods and hybrid modelling. Basics of industrial design. Industrial design as part of the development of products. The main principles and techniques of design.
Industrial design as part of the product development process. Service design.

Materials

Materials in the e-learning environment.

Teaching methods

Englanniksi
- lectures
- independent study
- distance learning
- exercises
- learning tasks
- seminars

In the implementation, students study independently and participate in lectures. Different learning materials, such as videos and lecture slides, support learning. Learning assignments are returned to the learning platform.

Employer connections

-possible visiting lecturers

Exam schedules

The possible date and method of the exam will be announced in the course opening.

Completion alternatives

The admission procedures are described in the degree rule and the study guide. The teacher of the course will give you more information on possible specific course practices.

Student workload

One credit (1 Cr) corresponds to an average of 27 hours of work.

- lectures 21 h
- exercises 15 h
- assignment 25 h
- independent study 20 h
Total 81 h

Assessment criteria, satisfactory (1)

Adequate (1): You know the most common issues related to surface modelling and industrial design and understand their purpose and methods. You are able to perform the modelling and design tasks, but you have clear shortcomings in the management of the methods.

Satisfactory (2): You know the most common processed issues related to surface modelling and industrial design and understand their purpose and methods. You are able to complete the modelling and design tasks of the course, but you have shortcomings in managing more demanding methods.

Assessment criteria, good (3)

Good (3): You know the most common issues related to surface modelling and industrial design and understand their purpose and methods. You are able to complete the modelling and design tasks of the course, and you are also able to master more demanding modelling methods.

Very good (4): You know most of the surface modelling and industrial design issues discussed during the course and understand their purpose and practices. You are able to complete the modelling and design tasks of the course, and you are also able to master the more demanding modelling methods discussed during the course and understand their theory.

Assessment criteria, excellent (5)

Excellent (5): You know most of the issues discussed during the course related to surface modelling and industrial design and understand their purpose and practices. You are able to complete the modelling and design tasks, and you are also able to master the more demanding modelling methods methods discussed during the course and understand their theory. You are innovatively able to apply themes discussed during the course in different situations.

Qualifications

Basics of 3D modelling.

Further information

5 (Excellent): Represents the top level of performance.
4 (Very good): Indicates a high level of performance.
3 (Good): Represents satisfactory performance.
2 (Satisfactory): Indicates an acceptable level of performance.
1 (Passable): The minimum passing grade.
0 (Fail): Indicates that the performance did not meet the requirements for passing