Manufacturing TechnologyLaajuus (5 cr)
Code: TKKP0150
Credits
5 op
Teaching language
- Finnish
Responsible person
- Miikka Parviainen
- Juha Sipilä
Objective
Knowledge of manufacturing methods is the basis for making production engineering solutions and choices in a company engaged in production.
You will learn to master the basics of the most common manufacturing methods in machine shops and the machines, equipment and tools used in them. You will learn to understand how and by what methods the finished products are attained.
The development of your skills begins with an understanding of the basic concepts of manufacturing technology. Further progress is made in knowing, comparing and applying the details of manufacturing methods.
After completing the course, you will be able to explain the operating principles of the most common manufacturing methods and construct technically and economically suitable manufacturing chains from them.
Knowledge and understanding:
You have knowledge and understanding of the machines, equipment, tools, engineering technologies and processes applicable to the workshop and of their limitations.
Engineering practice:
You have the ability to develop and design production processes and systems, which may include health, safety, environmental, technical and economic constraints.
Content
Casting methods, traditional machining, sheet metal works and stamping technology, welding processes, surface treatment methods and additive manufacturing.
Qualifications
No special requirements. Motivation is the most important factor leading to learning. Basic technical skills contribute to the study of the course, but are not necessary.
Assessment criteria, satisfactory (1)
The overall assessment consists of 50% of the exam and 50% of the learning assignments and laboratory work.
To receive a numerical grade, you must take a supervised exam.
In face-to- face learning, the test is mandatory. The examinations are held three times in accordance with the degree rule.
Adequate (1): You can identify the majority of the most common manufacturing methods in machine shops, but you have significant gaps in their identification and selection tasks.
Satisfactory (2): You are generally familiar with the most common manufacturing methods in machine shops, but you have gaps in their identification and selection tasks.
Assessment criteria, good (3)
Good (3): You master the essential knowledge and skills covered by the course:
- you are familiar with the most common types of mechanical engineering workshops and their structures
- you are familiar with the most common manufacturing methods in machine shops and know how to form them into production chains from raw materials to finished products
- you are able to implement selections between different manufacturing methods
Very good (4): You know exactly the most common manufacturing methods in machine shops and you are able to expertly identify them and make choices between them. In addition, you are be able to widely and fairly compare different manufacturing methods and form alternative manufacturing chains from them.
Assessment criteria, excellent (5)
Excellent (5): You know exactly the most common manufacturing methods in machine shops and you are able to expertly identify them and make choices between them. In addition, you are be able to compare different manufacturing methods with a broad justification. Your expertise will also reach you to apply what you have learned critically and innovatively in exercises and in practice.
Further information
Opintoja tarjotaan avoimen AMK:n kautta valmistustekniikasta kiinnostuneille henkilöille.
Enrollment
01.08.2023 - 24.08.2023
Timing
21.08.2023 - 19.12.2023
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
0 - 48
Degree programmes
- Bachelor's Degree Programme in Mechanical Engineering
Teachers
- Miikka Parviainen
Scheduling groups
- Pienryhmä 1 (Size: 45. Open UAS: 0.)
- Pienryhmä 2 (Size: 45. Open UAS: 0.)
- Pienryhmä 3 (Size: 45. Open UAS: 0.)
- Pienryhmä 4 (Size: 45. Open UAS: 0.)
- Pienryhmä 5 (Size: 45. Open UAS: 0.)
Groups
-
TKN23SBKonetekniikka (AMK)
-
ZJATKN23S1Avoin amk, Konetekniikka, Päivä
-
TKN23SAKonetekniikka (AMK)
Small groups
- Scheduling group 1
- Scheduling group 2
- Scheduling group 3
- Scheduling group 4
- Scheduling group 5
Objective
Knowledge of manufacturing methods is the basis for making production engineering solutions and choices in a company engaged in production.
You will learn to master the basics of the most common manufacturing methods in machine shops and the machines, equipment and tools used in them. You will learn to understand how and by what methods the finished products are attained.
The development of your skills begins with an understanding of the basic concepts of manufacturing technology. Further progress is made in knowing, comparing and applying the details of manufacturing methods.
After completing the course, you will be able to explain the operating principles of the most common manufacturing methods and construct technically and economically suitable manufacturing chains from them.
Knowledge and understanding:
You have knowledge and understanding of the machines, equipment, tools, engineering technologies and processes applicable to the workshop and of their limitations.
Engineering practice:
You have the ability to develop and design production processes and systems, which may include health, safety, environmental, technical and economic constraints.
Content
Casting methods, traditional machining, sheet metal works and stamping technology, welding processes, surface treatment methods and additive manufacturing.
Materials
Ihalainen & Aaltonen: Valmistustekniikka. Soveltuvin osin aiheeseen liittyvät artikkelit ja luentomateriaali.
Teaching methods
Opintojakson toteutus perustuu kontaktiopetukseen. Kullakin kontaktikerralla on valmistustekniikkaan liittyvä teema. Aiheisiin tutustutaan sekä kirjallisen luentomateriaalin että käytettävissä olevien videoiden avulla. Opintojakson aikana opiskelijat tekevät parityönä kahdeksan harjoitustyötä, jotka palautetaan kirjallisina.
Employer connections
Mahdollisuuksien mukaan pintojakson aikana valmistavan teollisuuden edustaja pitää vierailuluennon.
Exam schedules
Varsinainen tentti on viikolla 47, 1. uusinta vko 49 ja 2. uusinta vko 50. Tentti on ns. lähitentti, joka toteutetaan modernia tietotekniikkaa hyödyntäen.
International connections
Tämä opintojakso on johdanto teollisuustekniikan opintoihin. Osin materiaali on englanninkielistä.
Completion alternatives
Opintojakso perustuu kontaktiopetukseen ja läsnäoloon tunneilla sekä labroissa. Aiemman osaamisen arviointi tehdään ensimmäisellä kontaktikerralla. On mahdollista saada aiemman koulutuksen avulla vapautuksia soveltuvin osin.
Student workload
Opintojakson laskennallinen kuormitus on 135h. Se jakautuu kontaktiopetuksen, labraharjoitusten ja kahdeksan harjoitustyön välille.
Content scheduling
Teorialuennot toteutetaan ajoituksen mukaisesti ja labrat erillisen aikataulun mukaan.
Further information
Kustakin harjoitustyöstä annetaan työpareille palaute ja arviointi, labratehtävistä tehdään ryhmäarviointi. Tentin arviointi on yksilöllinen.
Avoin AMK 5.
Evaluation scale
0-5
Assessment criteria, satisfactory (1)
The overall assessment consists of 50% of the exam and 50% of the learning assignments and laboratory work.
To receive a numerical grade, you must take a supervised exam.
In face-to- face learning, the test is mandatory. The examinations are held three times in accordance with the degree rule.
Adequate (1): You can identify the majority of the most common manufacturing methods in machine shops, but you have significant gaps in their identification and selection tasks.
Satisfactory (2): You are generally familiar with the most common manufacturing methods in machine shops, but you have gaps in their identification and selection tasks.
Assessment criteria, good (3)
Good (3): You master the essential knowledge and skills covered by the course:
- you are familiar with the most common types of mechanical engineering workshops and their structures
- you are familiar with the most common manufacturing methods in machine shops and know how to form them into production chains from raw materials to finished products
- you are able to implement selections between different manufacturing methods
Very good (4): You know exactly the most common manufacturing methods in machine shops and you are able to expertly identify them and make choices between them. In addition, you are be able to widely and fairly compare different manufacturing methods and form alternative manufacturing chains from them.
Assessment criteria, excellent (5)
Excellent (5): You know exactly the most common manufacturing methods in machine shops and you are able to expertly identify them and make choices between them. In addition, you are be able to compare different manufacturing methods with a broad justification. Your expertise will also reach you to apply what you have learned critically and innovatively in exercises and in practice.
Qualifications
No special requirements. Motivation is the most important factor leading to learning. Basic technical skills contribute to the study of the course, but are not necessary.
Further information
Opintoja tarjotaan avoimen AMK:n kautta valmistustekniikasta kiinnostuneille henkilöille.
Enrollment
01.08.2023 - 24.08.2023
Timing
21.08.2023 - 19.12.2023
Number of ECTS credits allocated
5 op
Virtual portion
3 op
Mode of delivery
40 % Contact teaching, 60 % Distance learning
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
0 - 47
Degree programmes
- Bachelor's Degree Programme in Mechanical Engineering
Teachers
- Miikka Parviainen
Groups
-
ZJATKN23SMAvoin amk, Konetekniikka, Monimuoto
-
TKN23SMKonetekniikka (AMK)
Objective
Knowledge of manufacturing methods is the basis for making production engineering solutions and choices in a company engaged in production.
You will learn to master the basics of the most common manufacturing methods in machine shops and the machines, equipment and tools used in them. You will learn to understand how and by what methods the finished products are attained.
The development of your skills begins with an understanding of the basic concepts of manufacturing technology. Further progress is made in knowing, comparing and applying the details of manufacturing methods.
After completing the course, you will be able to explain the operating principles of the most common manufacturing methods and construct technically and economically suitable manufacturing chains from them.
Knowledge and understanding:
You have knowledge and understanding of the machines, equipment, tools, engineering technologies and processes applicable to the workshop and of their limitations.
Engineering practice:
You have the ability to develop and design production processes and systems, which may include health, safety, environmental, technical and economic constraints.
Content
Casting methods, traditional machining, sheet metal works and stamping technology, welding processes, surface treatment methods and additive manufacturing.
Materials
Lecture material,
Where applicable: Ihalainen, Aaltonen, Aromäki ja Sihvonen. Valmistustekniikka. Otatieto Oy. ISBN: 9789516723337.
Teaching methods
Lectures, learning tasks based on information retrieval and application. Learning assignments are done and returned both individually and in groups. Laboratory exercises.
Free-form anonymous feedback is collected in the middle of the course.
The implementation of the course is based on contact and distance learning. Each contact has a theme related to manufacturing technology. During the course, students work in groups on five assessed learning assignments, which are returned in writing. In addition, written assignments or returnable exercises to the online learning environment are performed independently. The course includes three laboratory parts.
Exam schedules
Exam in the last contact teaching session of the course. Two replays; the first in February 2021, the second in May 2021. Re-exams are conducted in an exam studio.
Completion alternatives
The course is based on contact teaching and attendance in lectures / laboratories as well as independent distance learning. The assessment of previous competence is made on the first contact. It is possible to obtain exemptions, where applicable, on the basis of previous study.
Student workload
In multimodal implementation:
lectures 15 h,
laboratory work 9 h,
learning assignments 86 h,
independent work 25 h.
A total of 135 h of learning work.
Content scheduling
The scheduling of the course content is determined by the dates of the contact days.
Further information
Continuous developmental feedback in learning tasks.
Open University 5 places.
Evaluation scale
0-5
Assessment criteria, satisfactory (1)
The overall assessment consists of 50% of the exam and 50% of the learning assignments and laboratory work.
To receive a numerical grade, you must take a supervised exam.
In face-to- face learning, the test is mandatory. The examinations are held three times in accordance with the degree rule.
Adequate (1): You can identify the majority of the most common manufacturing methods in machine shops, but you have significant gaps in their identification and selection tasks.
Satisfactory (2): You are generally familiar with the most common manufacturing methods in machine shops, but you have gaps in their identification and selection tasks.
Assessment criteria, good (3)
Good (3): You master the essential knowledge and skills covered by the course:
- you are familiar with the most common types of mechanical engineering workshops and their structures
- you are familiar with the most common manufacturing methods in machine shops and know how to form them into production chains from raw materials to finished products
- you are able to implement selections between different manufacturing methods
Very good (4): You know exactly the most common manufacturing methods in machine shops and you are able to expertly identify them and make choices between them. In addition, you are be able to widely and fairly compare different manufacturing methods and form alternative manufacturing chains from them.
Assessment criteria, excellent (5)
Excellent (5): You know exactly the most common manufacturing methods in machine shops and you are able to expertly identify them and make choices between them. In addition, you are be able to compare different manufacturing methods with a broad justification. Your expertise will also reach you to apply what you have learned critically and innovatively in exercises and in practice.
Qualifications
No special requirements. Motivation is the most important factor leading to learning. Basic technical skills contribute to the study of the course, but are not necessary.
Further information
Opintoja tarjotaan avoimen AMK:n kautta valmistustekniikasta kiinnostuneille henkilöille.
Enrollment
01.08.2022 - 25.08.2022
Timing
22.08.2022 - 31.12.2022
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
0 - 80
Degree programmes
- Bachelor's Degree Programme in Mechanical Engineering
Teachers
- Miikka Parviainen
- Sami Koponen
Teacher in charge
Miikka Parviainen
Scheduling groups
- Labraryhmä 1 (Size: 45. Open UAS: 0.)
- Labraryhmä 2 (Size: 45. Open UAS: 0.)
- Labraryhmä 3 (Size: 45. Open UAS: 0.)
- Labraryhmä 4 (Size: 45. Open UAS: 0.)
- Labraryhmä 5 (Size: 45. Open UAS: 0.)
Groups
-
TKN22S1Konetekniikka (AMK)
-
ZJAG22STKAvoin AMK,Korkeakoulupolku, Konetekniikka, Gradia
-
ZJATKN22S1Avoin amk, Konetekniikka, Päivä
Small groups
- Labraryhmä 1
- Labraryhmä 2
- Labraryhmä 3
- Labraryhmä 4
- Labraryhmä 5
Objective
Knowledge of manufacturing methods is the basis for making production engineering solutions and choices in a company engaged in production.
You will learn to master the basics of the most common manufacturing methods in machine shops and the machines, equipment and tools used in them. You will learn to understand how and by what methods the finished products are attained.
The development of your skills begins with an understanding of the basic concepts of manufacturing technology. Further progress is made in knowing, comparing and applying the details of manufacturing methods.
After completing the course, you will be able to explain the operating principles of the most common manufacturing methods and construct technically and economically suitable manufacturing chains from them.
Knowledge and understanding:
You have knowledge and understanding of the machines, equipment, tools, engineering technologies and processes applicable to the workshop and of their limitations.
Engineering practice:
You have the ability to develop and design production processes and systems, which may include health, safety, environmental, technical and economic constraints.
Content
Casting methods, traditional machining, sheet metal works and stamping technology, welding processes, surface treatment methods and additive manufacturing.
Materials
Ihalainen & Aaltonen: Valmistustekniikka. Soveltuvin osin aiheeseen liittyvät artikkelit ja luentomateriaali.
Teaching methods
Opintojakson toteutus perustuu kontaktiopetukseen. Kullakin kontaktikerralla on valmistustekniikkaan liittyvä teema. Aiheisiin tutustutaan sekä kirjallisen luentomateriaalin että käytettävissä olevien videoiden avulla. Opintojakson aikana opiskelijat tekevät parityönä kahdeksan harjoitustyötä, jotka palautetaan kirjallisina.
Employer connections
Mahdollisuuksien mukaan pintojakson aikana valmistavan teollisuuden edustaja pitää vierailuluennon.
Exam schedules
Varsinainen tentti on viikolla 47, 1. uusinta vko 49 ja 2. uusinta vko 50. Tentti on ns. lähitentti, joka toteutetaan modernia tietotekniikkaa hyödyntäen.
International connections
Tämä opintojakso on johdanto teollisuustekniikan opintoihin. Osin materiaali on englanninkielistä.
Completion alternatives
Opintojakso perustuu kontaktiopetukseen ja läsnäoloon tunneilla sekä labroissa. Aiemman osaamisen arviointi tehdään ensimmäisellä kontaktikerralla. On mahdollista saada aiemman koulutuksen avulla vapautuksia soveltuvin osin.
Student workload
Opintojakson laskennallinen kuormitus on 135h. Se jakautuu kontaktiopetuksen, labraharjoitusten ja kahdeksan harjoitustyön välille.
Content scheduling
Teorialuennot toteutetaan ajoituksen mukaisesti ja labrat erillisen aikataulun mukaan.
Further information
Kustakin harjoitustyöstä annetaan työpareille palaute ja arviointi, labratehtävistä tehdään ryhmäarviointi. Tentin arviointi on yksilöllinen.
Avoin AMK 5.
Evaluation scale
0-5
Assessment criteria, satisfactory (1)
The overall assessment consists of 50% of the exam and 50% of the learning assignments and laboratory work.
To receive a numerical grade, you must take a supervised exam.
In face-to- face learning, the test is mandatory. The examinations are held three times in accordance with the degree rule.
Adequate (1): You can identify the majority of the most common manufacturing methods in machine shops, but you have significant gaps in their identification and selection tasks.
Satisfactory (2): You are generally familiar with the most common manufacturing methods in machine shops, but you have gaps in their identification and selection tasks.
Assessment criteria, good (3)
Good (3): You master the essential knowledge and skills covered by the course:
- you are familiar with the most common types of mechanical engineering workshops and their structures
- you are familiar with the most common manufacturing methods in machine shops and know how to form them into production chains from raw materials to finished products
- you are able to implement selections between different manufacturing methods
Very good (4): You know exactly the most common manufacturing methods in machine shops and you are able to expertly identify them and make choices between them. In addition, you are be able to widely and fairly compare different manufacturing methods and form alternative manufacturing chains from them.
Assessment criteria, excellent (5)
Excellent (5): You know exactly the most common manufacturing methods in machine shops and you are able to expertly identify them and make choices between them. In addition, you are be able to compare different manufacturing methods with a broad justification. Your expertise will also reach you to apply what you have learned critically and innovatively in exercises and in practice.
Qualifications
No special requirements. Motivation is the most important factor leading to learning. Basic technical skills contribute to the study of the course, but are not necessary.
Further information
Opintoja tarjotaan avoimen AMK:n kautta valmistustekniikasta kiinnostuneille henkilöille.
Enrollment
01.08.2022 - 25.08.2022
Timing
15.08.2022 - 31.12.2022
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
0 - 80
Degree programmes
- Bachelor's Degree Programme in Mechanical Engineering
Teachers
- Miikka Parviainen
Teacher in charge
Miikka Parviainen
Groups
-
ZJATKN22SMAvoin amk, Konetekniikka, Monimuoto
-
TKN22SMKonetekniikka (AMK)
Objective
Knowledge of manufacturing methods is the basis for making production engineering solutions and choices in a company engaged in production.
You will learn to master the basics of the most common manufacturing methods in machine shops and the machines, equipment and tools used in them. You will learn to understand how and by what methods the finished products are attained.
The development of your skills begins with an understanding of the basic concepts of manufacturing technology. Further progress is made in knowing, comparing and applying the details of manufacturing methods.
After completing the course, you will be able to explain the operating principles of the most common manufacturing methods and construct technically and economically suitable manufacturing chains from them.
Knowledge and understanding:
You have knowledge and understanding of the machines, equipment, tools, engineering technologies and processes applicable to the workshop and of their limitations.
Engineering practice:
You have the ability to develop and design production processes and systems, which may include health, safety, environmental, technical and economic constraints.
Content
Casting methods, traditional machining, sheet metal works and stamping technology, welding processes, surface treatment methods and additive manufacturing.
Materials
Lecture material,
Where applicable: Ihalainen, Aaltonen, Aromäki ja Sihvonen. Valmistustekniikka. Otatieto Oy. ISBN: 9789516723337.
Teaching methods
Lectures, learning tasks based on information retrieval and application. Learning assignments are done and returned both individually and in groups. Laboratory exercises.
Free-form anonymous feedback is collected in the middle of the course.
The implementation of the course is based on contact and distance learning. Each contact has a theme related to manufacturing technology. During the course, students work in groups on five assessed learning assignments, which are returned in writing. In addition, written assignments or returnable exercises to the online learning environment are performed independently. The course includes three laboratory parts.
Exam schedules
Exam in the last contact teaching session of the course. Two replays; the first in February 2021, the second in May 2021. Re-exams are conducted in an exam studio.
Completion alternatives
The course is based on contact teaching and attendance in lectures / laboratories as well as independent distance learning. The assessment of previous competence is made on the first contact. It is possible to obtain exemptions, where applicable, on the basis of previous study.
Student workload
In multimodal implementation:
lectures 15 h,
laboratory work 9 h,
learning assignments 86 h,
independent work 25 h.
A total of 135 h of learning work.
Content scheduling
The scheduling of the course content is determined by the dates of the contact days.
Further information
Continuous developmental feedback in learning tasks.
Open University 5 places.
Evaluation scale
0-5
Assessment criteria, satisfactory (1)
The overall assessment consists of 50% of the exam and 50% of the learning assignments and laboratory work.
To receive a numerical grade, you must take a supervised exam.
In face-to- face learning, the test is mandatory. The examinations are held three times in accordance with the degree rule.
Adequate (1): You can identify the majority of the most common manufacturing methods in machine shops, but you have significant gaps in their identification and selection tasks.
Satisfactory (2): You are generally familiar with the most common manufacturing methods in machine shops, but you have gaps in their identification and selection tasks.
Assessment criteria, good (3)
Good (3): You master the essential knowledge and skills covered by the course:
- you are familiar with the most common types of mechanical engineering workshops and their structures
- you are familiar with the most common manufacturing methods in machine shops and know how to form them into production chains from raw materials to finished products
- you are able to implement selections between different manufacturing methods
Very good (4): You know exactly the most common manufacturing methods in machine shops and you are able to expertly identify them and make choices between them. In addition, you are be able to widely and fairly compare different manufacturing methods and form alternative manufacturing chains from them.
Assessment criteria, excellent (5)
Excellent (5): You know exactly the most common manufacturing methods in machine shops and you are able to expertly identify them and make choices between them. In addition, you are be able to compare different manufacturing methods with a broad justification. Your expertise will also reach you to apply what you have learned critically and innovatively in exercises and in practice.
Qualifications
No special requirements. Motivation is the most important factor leading to learning. Basic technical skills contribute to the study of the course, but are not necessary.
Further information
Opintoja tarjotaan avoimen AMK:n kautta valmistustekniikasta kiinnostuneille henkilöille.