Manufacturing Technology 2Laajuus (5 cr)
Code: 4_EIA8100
Credits
5 op
Teaching language
- English
Learning objectives
The student is able to create product models for sheet metal parts. In addition, the student is able to draw up manufacturing drawings of sheet metal parts with tolerance and welding symbols. The student understands the factors affecting manufacturability of sheet metal parts. The student is able to take into account the effect of different materials in sheet metal cutting, bending and welding. The student knows welding safety issues. The student becomes familiar with the key concepts in welding technology. In addition, the student becomes familiar with the most common welding processes and their characteristics and the principles of welding device technologies. The student will know the most common welding groove manufacturing methods and will obtain the basics in repair welding, welding quality assurance and economic factors of welding. The student gets an understanding of a sheet metal manufacturing process, from its design to finished products.
Content
Sheet metal production technology
Plate materials, their properties and areas of use
Manufacturing methods of sheet metal products and their distinctive features
Sheet metal automation
Design rules of sheet metal products
3D modeling of sheet metal components and creation of shop drawings with appropriate markings and symbols
Welding technology
Basic concepts of welding technology, terminology and standards
Manufacturability of welded structures
Welding of steel and light metal alloys
Safety issues of welding and cutting processes
Welding processes and their equipment
Welding groove preparation methods
Basics of repair welding
Economics of welding
Sheet metal and welding exercises
Materials
Material handed in Moodle
Enrollment
01.08.2024 - 15.09.2024
Timing
02.09.2024 - 31.12.2024
Credits
5 op
Mode of delivery
Contact teaching
Teaching languages
- English
Seats
0 - 25
Degree programmes
- Degree Programme in Mechanical Engineering
Teachers
- Tapio Korpijaakko
Student groups
-
IE23SPMechanical Engineering
Teaching methods
Plate materials, their properties and areas of use 2ETC
• Manufacturing methods of sheet metal products and their distinctive
features
• Sheet metal automation
• Design rules of sheet metal products
• 3D modeling of sheet metal components and creation of shop
drawings with appropriate markings and symbols
Basic concepts of welding technology, terminology and standards 3ETC
• Manufacturability of welded structures
• Welding of steel and light metal alloys
• Safety issues of welding and cutting processes
• Welding processes and their equipment
• Welding groove preparation methods
• Basics of repair welding
• Economics of welding
• Sheet metal and welding exercises
Student workload
- Five Weekly exercises based on lectures. These will be done on time period from September till end of October.
- Practical project work in small groups including designing the product by Solidworks and manufacturing it in labs.
- Lectures 32 h
- Lab work 32 h
- Student own work 71 h
Materials
Material handed in Moodle
Further information
3d modelling and technical drawing has to be approved before coming to this course
Enrollment
01.08.2024 - 15.09.2024
Timing
02.09.2024 - 31.12.2024
Credits
5 op
Mode of delivery
Contact teaching
Teaching languages
- English
Seats
0 - 25
Degree programmes
- Degree Programme in Mechanical Engineering
Teachers
- Tapio Korpijaakko
Student groups
-
EI22SPMechanical Engineering
Teaching methods
The course includes theory lectures and advanced exercises that deepen the theoretical knowledge. The course also includes engineering and laboratory assignments
Plate materials, their properties and areas of use 2ETC
• Manufacturing methods of sheet metal products and their distinctive
features
• Sheet metal automation
• Design rules of sheet metal products
• 3D modeling of sheet metal components and creation of shop
drawings with appropriate markings and symbols
Basic concepts of welding technology, terminology and standards 3ETC
• Manufacturability of welded structures
• Welding of steel and light metal alloys
• Safety issues of welding and cutting processes
• Welding processes and their equipment
• Welding groove preparation methods
• Basics of repair welding
• Economics of welding
• Sheet metal and welding exercises
Student workload
- Five Weekly exercises based on lectures. These will be done on time period from September till end of October.
- Practical project work in small groups including designing the product by Solidworks and manufacturing it in labs.
- Lectures 32 h
- Lab work 32 h
- Student own work 71
Materials
Material handed in Moodle
Further information
3d modelling and technical drawing has to be approved before coming to this course
Enrollment
01.08.2023 - 15.09.2023
Timing
04.09.2023 - 20.12.2023
Credits
5 op
Mode of delivery
Contact teaching
Teaching languages
- English
Seats
0 - 20
Degree programmes
- Degree Programme in Mechanical Engineering
Teachers
- Tapio Korpijaakko
Student groups
-
EI21SPMechanical Engineering
Teaching methods
Plate materials, their properties and areas of use 2ETC
• Manufacturing methods of sheet metal products and their distinctive
features
• Sheet metal automation
• Design rules of sheet metal products
• 3D modeling of sheet metal components and creation of shop
drawings with appropriate markings and symbols
Basic concepts of welding technology, terminology and standards 3ETC
• Manufacturability of welded structures
• Welding of steel and light metal alloys
• Safety issues of welding and cutting processes
• Welding processes and their equipment
• Welding groove preparation methods
• Basics of repair welding
• Economics of welding
• Sheet metal and welding exercises
Course completion is assessed by partial and/or full exam
(scale 0 - 5, worth 60%) and practical work (scale 0 - 5,
worth 40%). Course completion requirement is passing the
partial exams or full exam as well as completion of the
practical laboratory works. The whole competence will be
assessed on a scale of 0-5.
The grading scale is the following:
Excellent (5), Very good (4), Good (3), Satisfactory (2),
Sufficient (1), Failed (0)
Student workload
- Five Weekly exercises based on lectures. These will be done on time period from September till end of October.
- Practical project work in small groups including designing the product by Solidworks and manufacturing it in labs.
- Lectures 32 h
- Lab work 32 h
- Student own work 71 h
Materials
Material handed in Moodle