Opetussuunnitelmat

Objective

In this course, production refers to manufacturing products for the end customer. The course introduces both traditional and modern manufacturing methods and materials related to them. As the material plays an important role in the price formation, manufacturability and usability of the product, you working as an logistics engineer should have a good understanding of the impact of manufacturing methods and materials on costs.

In this course you will learn
- find information on materials and their properties
- know different materials and manufacturing techniques involved to materials
- know different layout types and production strategies
- understand properties of materials and their impact on choices
- apply materials selection and manufacturing technologies

After completing this course, you will have a broad understanding of the terminology of the topics covered in the course. You gain knowledge of the various materials, manufacturing technologies and their potential. You will understand how different materials and manufacturing technologies can be used for real applications. You will have the skills and the ability to search for information about different materials and manufacturing technologies.

Competencies: technological knowledge, engineering practice, communication and team-working.

Learning outcomes:
You will understand the terminology of manufacturing technologies, potential of different materials and their importance. You will manage the key concepts and theories of the topics covered in this course and will be able to apply your prior knowledge to the choice of manufacturing technologies and materials.

Content

The course covers following main themes:
- Lay-out types and production strategies
- Manufacturing technologies (materials, products)
- Different materials – construction and properties
- Material choice and supply chain
- Apply of materials and manufacturing methods

Materials

Lecture materials related to the course can be found in the course workspace. Relevant open-source online material can also be used.

Supporting books:
MET Raaka-ainekäsikirja 1-5
Sorsa, J. 2015. Materiaalitekniikka
Järvinen, P. 2017. Muovit ja muovituotteiden valmistus
Keinänen, T. & Kärkkäinen, P. 2009. Konetekniikan perusteet
Gupta, H.N. 2009. Manufacturing processes

Teaching methods

The course is implemented virtually, which includes self-study (independent learning tasks or group learning tasks). The course includes possible online laboratory work. Pay attention the start and end times of the course, and returning dates of assignments.

Course assignments are described in the course workspace.

Employer connections

Seminars, webinars, etc. that take place during the course can be included in the course. This will be discussed in more detail during the course.

Exam schedules

Assessment is based on learning assignments.
The possible date and method of the exam will be announced in the course opening information.

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 corresponds to an average of 27 hours of work, which means that the load of five credits is approximately 135 hours. The load is distributed in different ways depending on the course implementation.

Evaluation scale

0-5

Assessment criteria, satisfactory (1)

1: Student has gained knowledge at all the subjects described in the learning outcomes.

2: Student has gained knowledge at all the subjects described in the learning outcomes and is able to can utilize this knowledge.

Assessment criteria, good (3)

3: Student understands all the subjects described in the learning outcomes and is able to apply the skills he or she has learned.

4: Student has attained an excellent level in almost all the subjects described in the learning outcomes and is able to apply the skills he or she has learned.

Assessment criteria, excellent (5)

5: The student has attained an excellent level in all subjects described in the learning outcomes and is able to apply the skills he or she has learned.

Qualifications

Materials management

Objective

In this course, production refers to manufacturing products for the end customer. The course introduces both traditional and modern manufacturing methods and materials related to them. As the material plays an important role in the price formation, manufacturability and usability of the product, you working as an logistics engineer should have a good understanding of the impact of manufacturing methods and materials on costs.

In this course you will learn
- find information on materials and their properties
- know different materials and manufacturing techniques involved to materials
- know different layout types and production strategies
- understand properties of materials and their impact on choices
- apply materials selection and manufacturing technologies

After completing this course, you will have a broad understanding of the terminology of the topics covered in the course. You gain knowledge of the various materials, manufacturing technologies and their potential. You will understand how different materials and manufacturing technologies can be used for real applications. You will have the skills and the ability to search for information about different materials and manufacturing technologies.

Competencies: technological knowledge, engineering practice, communication and team-working.

Learning outcomes:
You will understand the terminology of manufacturing technologies, potential of different materials and their importance. You will manage the key concepts and theories of the topics covered in this course and will be able to apply your prior knowledge to the choice of manufacturing technologies and materials.

Content

The course covers following main themes:
- Lay-out types and production strategies
- Manufacturing technologies (materials, products)
- Different materials – construction and properties
- Material choice and supply chain
- Apply of materials and manufacturing methods

Materials

Lecture materials related to the course can be found in the course workspace. Relevant open-source online material can also be used.

Supporting books:
MET Raaka-ainekäsikirja 1-5
Sorsa, J. 2015. Materiaalitekniikka
Järvinen, P. 2017. Muovit ja muovituotteiden valmistus
Keinänen, T. & Kärkkäinen, P. 2009. Konetekniikan perusteet
Gupta, H.N. 2009. Manufacturing processes

Teaching methods

Course includes face-to-face lessons and returnable learning assignments. If the group size on face-to-face lessons are too small, lessons are moved online.

The assignments are described in the course workspace. All assignments are either individual assignments or group assignments and their due dates are presented in course Moodle workspace.

The course has one larger project work.

Employer connections

Seminars, webinars, etc. that take place during the course can be included in the course. This will be discussed in more detail during the course.

Exam schedules

There is no separate end-exam in this course. Assessment is based on learning assignments.

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 corresponds to an average of 27 hours of work, which means that the load of five credits is approximately 135 hours.
Each main theme in this course is 1 credit:

- Production/Manufacturing types and layout 1 cr = 27 hours of work
- Manufacturing technologies (materials, products) 1 cr = 27 hours of work
- Different materials – construction and properties 1cr = 27 hours of work
- Material choice 1 cr = 27 hours of work
- Apply of materials and manufacturing methods 1 cr = 27 hours of work

Content scheduling

There are four (4) contact lessons in this course. Contact lessons are arranged roughly once a month.

Evaluation scale

0-5

Assessment criteria, satisfactory (1)

1: Student has gained knowledge at all the subjects described in the learning outcomes.

2: Student has gained knowledge at all the subjects described in the learning outcomes and is able to can utilize this knowledge.

Assessment criteria, good (3)

3: Student understands all the subjects described in the learning outcomes and is able to apply the skills he or she has learned.

4: Student has attained an excellent level in almost all the subjects described in the learning outcomes and is able to apply the skills he or she has learned.

Assessment criteria, excellent (5)

5: The student has attained an excellent level in all subjects described in the learning outcomes and is able to apply the skills he or she has learned.

Qualifications

Materials management

Objective

In this course, production refers to manufacturing products for the end customer. The course introduces both traditional and modern manufacturing methods and materials related to them. As the material plays an important role in the price formation, manufacturability and usability of the product, you working as an logistics engineer should have a good understanding of the impact of manufacturing methods and materials on costs.

In this course you will learn
- find information on materials and their properties
- know different materials and manufacturing techniques involved to materials
- know different layout types and production strategies
- understand properties of materials and their impact on choices
- apply materials selection and manufacturing technologies

After completing this course, you will have a broad understanding of the terminology of the topics covered in the course. You gain knowledge of the various materials, manufacturing technologies and their potential. You will understand how different materials and manufacturing technologies can be used for real applications. You will have the skills and the ability to search for information about different materials and manufacturing technologies.

Competencies: technological knowledge, engineering practice, communication and team-working.

Learning outcomes:
You will understand the terminology of manufacturing technologies, potential of different materials and their importance. You will manage the key concepts and theories of the topics covered in this course and will be able to apply your prior knowledge to the choice of manufacturing technologies and materials.

Content

The course covers following main themes:
- Lay-out types and production strategies
- Manufacturing technologies (materials, products)
- Different materials – construction and properties
- Material choice and supply chain
- Apply of materials and manufacturing methods

Materials

Lecture materials related to the course can be found in the course workspace. Relevant open-source online material can also be used.

Supporting book:

Gupta, H.N. 2009. Manufacturing processes

Teaching methods

Course includes lectures, returnable learning assignments and possible laboratory tasks. Course can also include wider project work made with group of students.

Assignments are done as independent work. The assignments are described in the course workspace. All assignments are either individual assignments or group assignments (described in course workspace) and their due dates will be confirmed as the course progresses.

Employer connections

Seminars, webinars, etc. that take place during the course can be included in the course. This will be discussed in more detail during the course.

Exam schedules

Assessment is based on learning assignments.
The possible date and method of the exam will be announced in the course opening information.

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 corresponds to an average of 27 hours of work, which means that the load of five credits is approximately 135 hours. The load is distributed in different ways depending on the course implementation.

Evaluation scale

0-5

Assessment criteria, satisfactory (1)

1: Student has gained knowledge at all the subjects described in the learning outcomes.

2: Student has gained knowledge at all the subjects described in the learning outcomes and is able to can utilize this knowledge.

Assessment criteria, good (3)

3: Student understands all the subjects described in the learning outcomes and is able to apply the skills he or she has learned.

4: Student has attained an excellent level in almost all the subjects described in the learning outcomes and is able to apply the skills he or she has learned.

Assessment criteria, excellent (5)

5: The student has attained an excellent level in all subjects described in the learning outcomes and is able to apply the skills he or she has learned.

Qualifications

Materials management

Objective

In this course, production refers to manufacturing products for the end customer. The course introduces both traditional and modern manufacturing methods and materials related to them. As the material plays an important role in the price formation, manufacturability and usability of the product, you working as an logistics engineer should have a good understanding of the impact of manufacturing methods and materials on costs.

In this course you will learn
- find information on materials and their properties
- know different materials and manufacturing techniques involved to materials
- know different layout types and production strategies
- understand properties of materials and their impact on choices
- apply materials selection and manufacturing technologies

After completing this course, you will have a broad understanding of the terminology of the topics covered in the course. You gain knowledge of the various materials, manufacturing technologies and their potential. You will understand how different materials and manufacturing technologies can be used for real applications. You will have the skills and the ability to search for information about different materials and manufacturing technologies.

Competencies: technological knowledge, engineering practice, communication and team-working.

Learning outcomes:
You will understand the terminology of manufacturing technologies, potential of different materials and their importance. You will manage the key concepts and theories of the topics covered in this course and will be able to apply your prior knowledge to the choice of manufacturing technologies and materials.

Content

The course covers following main themes:
- Lay-out types and production strategies
- Manufacturing technologies (materials, products)
- Different materials – construction and properties
- Material choice and supply chain
- Apply of materials and manufacturing methods

Materials

Lecture materials related to the course can be found in the course workspace. Relevant open-source online material can also be used.

Supporting books:
MET Raaka-ainekäsikirja 1-5
Sorsa, J. 2015. Materiaalitekniikka
Järvinen, P. 2017. Muovit ja muovituotteiden valmistus
Keinänen, T. & Kärkkäinen, P. 2009. Konetekniikan perusteet
Gupta, H.N. 2009. Manufacturing processes

Teaching methods

The course is implemented virtually, which includes self-study (independent learning tasks or group learning tasks). The course includes possible online laboratory work. Pay attention the start and end times of the course, and returning dates of assignments.

Course assignments are described in the course workspace.

Employer connections

Seminars, webinars, etc. that take place during the course can be included in the course. This will be discussed in more detail during the course.

Exam schedules

Assessment is based on learning assignments.
The possible date and method of the exam will be announced in the course opening information.

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 corresponds to an average of 27 hours of work, which means that the load of five credits is approximately 135 hours. The load is distributed in different ways depending on the course implementation.

Evaluation scale

0-5

Assessment criteria, satisfactory (1)

1: Student has gained knowledge at all the subjects described in the learning outcomes.

2: Student has gained knowledge at all the subjects described in the learning outcomes and is able to can utilize this knowledge.

Assessment criteria, good (3)

3: Student understands all the subjects described in the learning outcomes and is able to apply the skills he or she has learned.

4: Student has attained an excellent level in almost all the subjects described in the learning outcomes and is able to apply the skills he or she has learned.

Assessment criteria, excellent (5)

5: The student has attained an excellent level in all subjects described in the learning outcomes and is able to apply the skills he or she has learned.

Qualifications

Materials management

Objective

In this course, production refers to manufacturing products for the end customer. The course introduces both traditional and modern manufacturing methods and materials related to them. As the material plays an important role in the price formation, manufacturability and usability of the product, you working as an logistics engineer should have a good understanding of the impact of manufacturing methods and materials on costs.

In this course you will learn
- find information on materials and their properties
- know different materials and manufacturing techniques involved to materials
- know different layout types and production strategies
- understand properties of materials and their impact on choices
- apply materials selection and manufacturing technologies

After completing this course, you will have a broad understanding of the terminology of the topics covered in the course. You gain knowledge of the various materials, manufacturing technologies and their potential. You will understand how different materials and manufacturing technologies can be used for real applications. You will have the skills and the ability to search for information about different materials and manufacturing technologies.

Competencies: technological knowledge, engineering practice, communication and team-working.

Learning outcomes:
You will understand the terminology of manufacturing technologies, potential of different materials and their importance. You will manage the key concepts and theories of the topics covered in this course and will be able to apply your prior knowledge to the choice of manufacturing technologies and materials.

Content

The course covers following main themes:
- Lay-out types and production strategies
- Manufacturing technologies (materials, products)
- Different materials – construction and properties
- Material choice and supply chain
- Apply of materials and manufacturing methods

Materials

Lecture materials related to the course can be found in the course workspace. Relevant open-source online material can also be used.

Supporting books:
MET Raaka-ainekäsikirja 1-5
Sorsa, J. 2015. Materiaalitekniikka
Järvinen, P. 2017. Muovit ja muovituotteiden valmistus
Keinänen, T. & Kärkkäinen, P. 2009. Konetekniikan perusteet
Gupta, H.N. 2009. Manufacturing processes

Teaching methods

The course is implemented virtually, which includes self-study (independent learning tasks or group learning tasks). The course includes possible online laboratory work. Pay attention the start and end times of the course, and returning dates of assignments.

Course assignments are described in the course workspace.

Employer connections

Seminars, webinars, etc. that take place during the course can be included in the course. This will be discussed in more detail during the course.

Exam schedules

Assessment is based on learning assignments.
The possible date and method of the exam will be announced in the course opening information.

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 corresponds to an average of 27 hours of work, which means that the load of five credits is approximately 135 hours. The load is distributed in different ways depending on the course implementation.

Evaluation scale

0-5

Assessment criteria, satisfactory (1)

1: Student has gained knowledge at all the subjects described in the learning outcomes.

2: Student has gained knowledge at all the subjects described in the learning outcomes and is able to can utilize this knowledge.

Assessment criteria, good (3)

3: Student understands all the subjects described in the learning outcomes and is able to apply the skills he or she has learned.

4: Student has attained an excellent level in almost all the subjects described in the learning outcomes and is able to apply the skills he or she has learned.

Assessment criteria, excellent (5)

5: The student has attained an excellent level in all subjects described in the learning outcomes and is able to apply the skills he or she has learned.

Qualifications

Materials management

Objective

In this course, production refers to manufacturing products for the end customer. The course introduces both traditional and modern manufacturing methods and materials related to them. As the material plays an important role in the price formation, manufacturability and usability of the product, you working as an logistics engineer should have a good understanding of the impact of manufacturing methods and materials on costs.

In this course you will learn
- find information on materials and their properties
- know different materials and manufacturing techniques involved to materials
- know different layout types and production strategies
- understand properties of materials and their impact on choices
- apply materials selection and manufacturing technologies

After completing this course, you will have a broad understanding of the terminology of the topics covered in the course. You gain knowledge of the various materials, manufacturing technologies and their potential. You will understand how different materials and manufacturing technologies can be used for real applications. You will have the skills and the ability to search for information about different materials and manufacturing technologies.

Competencies: technological knowledge, engineering practice, communication and team-working.

Learning outcomes:
You will understand the terminology of manufacturing technologies, potential of different materials and their importance. You will manage the key concepts and theories of the topics covered in this course and will be able to apply your prior knowledge to the choice of manufacturing technologies and materials.

Content

The course covers following main themes:
- Lay-out types and production strategies
- Manufacturing technologies (materials, products)
- Different materials – construction and properties
- Material choice and supply chain
- Apply of materials and manufacturing methods

Materials

Lecture materials related to the course can be found in the course workspace. Relevant open-source online material can also be used.

Supporting books:
MET Raaka-ainekäsikirja 1-5
Sorsa, J. 2015. Materiaalitekniikka
Järvinen, P. 2017. Muovit ja muovituotteiden valmistus
Keinänen, T. & Kärkkäinen, P. 2009. Konetekniikan perusteet
Gupta, H.N. 2009. Manufacturing processes

Teaching methods

Course includes lectures, returnable learning assignments and possible laboratory tasks. Course can also include wider project work made with group of students.

Assignments are done as independent work. The assignments are described in the course workspace. All assignments are either individual assignments or group assignments (described in course workspace) and their due dates will be confirmed as the course progresses.

The course has one broader project work

Employer connections

Seminars, webinars, etc. that take place during the course can be included in the course. This will be discussed in more detail during the course.

Exam schedules

Assessment is based on learning assignments.
The possible date and method of the exam will be announced in the course opening information.

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 corresponds to an average of 27 hours of work, which means that the load of five credits is approximately 135 hours. The load is distributed in different ways depending on the course implementation.

Evaluation scale

0-5

Assessment criteria, satisfactory (1)

1: Student has gained knowledge at all the subjects described in the learning outcomes.

2: Student has gained knowledge at all the subjects described in the learning outcomes and is able to can utilize this knowledge.

Assessment criteria, good (3)

3: Student understands all the subjects described in the learning outcomes and is able to apply the skills he or she has learned.

4: Student has attained an excellent level in almost all the subjects described in the learning outcomes and is able to apply the skills he or she has learned.

Assessment criteria, excellent (5)

5: The student has attained an excellent level in all subjects described in the learning outcomes and is able to apply the skills he or she has learned.

Qualifications

Materials management

Objective

In this course, production refers to manufacturing products for the end customer. The course introduces both traditional and modern manufacturing methods and materials related to them. As the material plays an important role in the price formation, manufacturability and usability of the product, you working as an logistics engineer should have a good understanding of the impact of manufacturing methods and materials on costs.

In this course you will learn
- find information on materials and their properties
- know different materials and manufacturing techniques involved to materials
- know different layout types and production strategies
- understand properties of materials and their impact on choices
- apply materials selection and manufacturing technologies

After completing this course, you will have a broad understanding of the terminology of the topics covered in the course. You gain knowledge of the various materials, manufacturing technologies and their potential. You will understand how different materials and manufacturing technologies can be used for real applications. You will have the skills and the ability to search for information about different materials and manufacturing technologies.

Competencies: technological knowledge, engineering practice, communication and team-working.

Learning outcomes:
You will understand the terminology of manufacturing technologies, potential of different materials and their importance. You will manage the key concepts and theories of the topics covered in this course and will be able to apply your prior knowledge to the choice of manufacturing technologies and materials.

Content

The course covers following main themes:
- Lay-out types and production strategies
- Manufacturing technologies (materials, products)
- Different materials – construction and properties
- Material choice and supply chain
- Apply of materials and manufacturing methods

Materials

Lecture materials related to the course can be found in the course workspace. Relevant open-source online material can also be used.

Supporting books:
MET Raaka-ainekäsikirja 1-5
Sorsa, J. 2015. Materiaalitekniikka
Järvinen, P. 2017. Muovit ja muovituotteiden valmistus
Keinänen, T. & Kärkkäinen, P. 2009. Konetekniikan perusteet
Gupta, H.N. 2009. Manufacturing processes

Teaching methods

The course is implemented virtually, which includes self-study (independent learning tasks or group learning tasks). The course includes possible online laboratory work. Pay attention the start and end times of the course, and returning dates of assignments.

Course assignments are described in the course workspace.

Employer connections

Seminars, webinars, etc. that take place during the course can be included in the course. This will be discussed in more detail during the course.

Exam schedules

Assessment is based on learning assignments.
The possible date and method of the exam will be announced in the course opening information.

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 corresponds to an average of 27 hours of work, which means that the load of five credits is approximately 135 hours. The load is distributed in different ways depending on the course implementation.

Evaluation scale

0-5

Assessment criteria, satisfactory (1)

1: Student has gained knowledge at all the subjects described in the learning outcomes.

2: Student has gained knowledge at all the subjects described in the learning outcomes and is able to can utilize this knowledge.

Assessment criteria, good (3)

3: Student understands all the subjects described in the learning outcomes and is able to apply the skills he or she has learned.

4: Student has attained an excellent level in almost all the subjects described in the learning outcomes and is able to apply the skills he or she has learned.

Assessment criteria, excellent (5)

5: The student has attained an excellent level in all subjects described in the learning outcomes and is able to apply the skills he or she has learned.

Qualifications

Materials management

Objective

In this course, production refers to manufacturing products for the end customer. The course introduces both traditional and modern manufacturing methods and materials related to them. As the material plays an important role in the price formation, manufacturability and usability of the product, you working as an logistics engineer should have a good understanding of the impact of manufacturing methods and materials on costs.

In this course you will learn
- find information on materials and their properties
- know different materials and manufacturing techniques involved to materials
- know different layout types and production strategies
- understand properties of materials and their impact on choices
- apply materials selection and manufacturing technologies

After completing this course, you will have a broad understanding of the terminology of the topics covered in the course. You gain knowledge of the various materials, manufacturing technologies and their potential. You will understand how different materials and manufacturing technologies can be used for real applications. You will have the skills and the ability to search for information about different materials and manufacturing technologies.

Competencies: technological knowledge, engineering practice, communication and team-working.

Learning outcomes:
You will understand the terminology of manufacturing technologies, potential of different materials and their importance. You will manage the key concepts and theories of the topics covered in this course and will be able to apply your prior knowledge to the choice of manufacturing technologies and materials.

Content

The course covers following main themes:
- Lay-out types and production strategies
- Manufacturing technologies (materials, products)
- Different materials – construction and properties
- Material choice and supply chain
- Apply of materials and manufacturing methods

Materials

Lecture materials related to the course can be found in the course workspace. Relevant open-source online material can also be used.

Supporting book:

Gupta, H.N. 2009. Manufacturing processes

Teaching methods

Course includes lectures, returnable learning assignments and possible laboratory tasks. Course can also include wider project work made with group of students.

Assignments are done as independent work. The assignments are described in the course workspace. All assignments are either individual assignments or group assignments (described in course workspace) and their due dates will be confirmed as the course progresses.

Employer connections

Seminars, webinars, etc. that take place during the course can be included in the course. This will be discussed in more detail during the course.

Exam schedules

Assessment is based on learning assignments.
The possible date and method of the exam will be announced in the course opening information.

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 corresponds to an average of 27 hours of work, which means that the load of five credits is approximately 135 hours. The load is distributed in different ways depending on the course implementation.

Evaluation scale

0-5

Assessment criteria, satisfactory (1)

1: Student has gained knowledge at all the subjects described in the learning outcomes.

2: Student has gained knowledge at all the subjects described in the learning outcomes and is able to can utilize this knowledge.

Assessment criteria, good (3)

3: Student understands all the subjects described in the learning outcomes and is able to apply the skills he or she has learned.

4: Student has attained an excellent level in almost all the subjects described in the learning outcomes and is able to apply the skills he or she has learned.

Assessment criteria, excellent (5)

5: The student has attained an excellent level in all subjects described in the learning outcomes and is able to apply the skills he or she has learned.

Qualifications

Materials management

Objective

In this course, production refers to manufacturing products for the end customer. The course introduces both traditional and modern manufacturing methods and materials related to them. As the material plays an important role in the price formation, manufacturability and usability of the product, you working as an logistics engineer should have a good understanding of the impact of manufacturing methods and materials on costs.

In this course you will learn
- find information on materials and their properties
- know different materials and manufacturing techniques involved to materials
- know different layout types and production strategies
- understand properties of materials and their impact on choices
- apply materials selection and manufacturing technologies

After completing this course, you will have a broad understanding of the terminology of the topics covered in the course. You gain knowledge of the various materials, manufacturing technologies and their potential. You will understand how different materials and manufacturing technologies can be used for real applications. You will have the skills and the ability to search for information about different materials and manufacturing technologies.

Competencies: technological knowledge, engineering practice, communication and team-working.

Learning outcomes:
You will understand the terminology of manufacturing technologies, potential of different materials and their importance. You will manage the key concepts and theories of the topics covered in this course and will be able to apply your prior knowledge to the choice of manufacturing technologies and materials.

Content

The course covers following main themes:
- Lay-out types and production strategies
- Manufacturing technologies (materials, products)
- Different materials – construction and properties
- Material choice and supply chain
- Apply of materials and manufacturing methods

Materials

Lecture materials related to the course can be found in the course workspace. Relevant open-source online material can also be used.

Supporting books:
MET Raaka-ainekäsikirja 1-5
Sorsa, J. 2015. Materiaalitekniikka
Järvinen, P. 2017. Muovit ja muovituotteiden valmistus
Keinänen, T. & Kärkkäinen, P. 2009. Konetekniikan perusteet
Gupta, H.N. 2009. Manufacturing processes

Teaching methods

Course includes lectures, returnable learning assignments and possible laboratory tasks. Course can also include wider project work made with group of students.

Assignments are done as independent work. The assignments are described in the course workspace. All assignments are either individual assignments or group assignments (described in course workspace) and their due dates will be confirmed as the course progresses.

The course has one larger project work

Employer connections

Seminars, webinars, etc. that take place during the course can be included in the course. This will be discussed in more detail during the course.

Exam schedules

Assessment is based on learning assignments.
The possible date and method of the exam will be announced in the course opening information.

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 corresponds to an average of 27 hours of work, which means that the load of five credits is approximately 135 hours. The load is distributed in different ways depending on the course implementation.

Evaluation scale

0-5

Assessment criteria, satisfactory (1)

1: Student has gained knowledge at all the subjects described in the learning outcomes.

2: Student has gained knowledge at all the subjects described in the learning outcomes and is able to can utilize this knowledge.

Assessment criteria, good (3)

3: Student understands all the subjects described in the learning outcomes and is able to apply the skills he or she has learned.

4: Student has attained an excellent level in almost all the subjects described in the learning outcomes and is able to apply the skills he or she has learned.

Assessment criteria, excellent (5)

5: The student has attained an excellent level in all subjects described in the learning outcomes and is able to apply the skills he or she has learned.

Qualifications

Materials management

Objective

In this course, production refers to manufacturing products for the end customer. The course introduces both traditional and modern manufacturing methods and materials related to them. As the material plays an important role in the price formation, manufacturability and usability of the product, you working as an logistics engineer should have a good understanding of the impact of manufacturing methods and materials on costs.

In this course you will learn
- find information on materials and their properties
- know different materials and manufacturing techniques involved to materials
- know different layout types and production strategies
- understand properties of materials and their impact on choices
- apply materials selection and manufacturing technologies

After completing this course, you will have a broad understanding of the terminology of the topics covered in the course. You gain knowledge of the various materials, manufacturing technologies and their potential. You will understand how different materials and manufacturing technologies can be used for real applications. You will have the skills and the ability to search for information about different materials and manufacturing technologies.

Competencies: technological knowledge, engineering practice, communication and team-working.

Learning outcomes:
You will understand the terminology of manufacturing technologies, potential of different materials and their importance. You will manage the key concepts and theories of the topics covered in this course and will be able to apply your prior knowledge to the choice of manufacturing technologies and materials.

Content

The course covers following main themes:
- Lay-out types and production strategies
- Manufacturing technologies (materials, products)
- Different materials – construction and properties
- Material choice and supply chain
- Apply of materials and manufacturing methods

Materials

Lecture materials related to the course can be found in the course workspace. Relevant open-source online material can also be used.

Supporting books:
MET Raaka-ainekäsikirja 1-5
Sorsa, J. 2015. Materiaalitekniikka
Järvinen, P. 2017. Muovit ja muovituotteiden valmistus
Keinänen, T. & Kärkkäinen, P. 2009. Konetekniikan perusteet
Gupta, H.N. 2009. Manufacturing processes

Teaching methods

The course is implemented virtually, which includes self-study (independent learning tasks or group learning tasks). The course includes possible online laboratory work. Pay attention the start and end times of the course, and returning dates of assignments.

Course assignments are described in the course workspace.

Employer connections

Seminars, webinars, etc. that take place during the course can be included in the course. This will be discussed in more detail during the course.

Exam schedules

Assessment is based on learning assignments.
The possible date and method of the exam will be announced in the course opening information.

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 corresponds to an average of 27 hours of work, which means that the load of five credits is approximately 135 hours. The load is distributed in different ways depending on the course implementation.

Evaluation scale

0-5

Assessment criteria, satisfactory (1)

1: Student has gained knowledge at all the subjects described in the learning outcomes.

2: Student has gained knowledge at all the subjects described in the learning outcomes and is able to can utilize this knowledge.

Assessment criteria, good (3)

3: Student understands all the subjects described in the learning outcomes and is able to apply the skills he or she has learned.

4: Student has attained an excellent level in almost all the subjects described in the learning outcomes and is able to apply the skills he or she has learned.

Assessment criteria, excellent (5)

5: The student has attained an excellent level in all subjects described in the learning outcomes and is able to apply the skills he or she has learned.

Qualifications

Materials management

Objective

In this course, production refers to manufacturing products for the end customer. The course introduces both traditional and modern manufacturing methods and materials related to them. As the material plays an important role in the price formation, manufacturability and usability of the product, you working as an logistics engineer should have a good understanding of the impact of manufacturing methods and materials on costs.

In this course you will learn
- find information on materials and their properties
- know different materials and manufacturing techniques involved to materials
- know different layout types and production strategies
- understand properties of materials and their impact on choices
- apply materials selection and manufacturing technologies

After completing this course, you will have a broad understanding of the terminology of the topics covered in the course. You gain knowledge of the various materials, manufacturing technologies and their potential. You will understand how different materials and manufacturing technologies can be used for real applications. You will have the skills and the ability to search for information about different materials and manufacturing technologies.

Competencies: technological knowledge, engineering practice, communication and team-working.

Learning outcomes:
You will understand the terminology of manufacturing technologies, potential of different materials and their importance. You will manage the key concepts and theories of the topics covered in this course and will be able to apply your prior knowledge to the choice of manufacturing technologies and materials.

Content

The course covers following main themes:
- Lay-out types and production strategies
- Manufacturing technologies (materials, products)
- Different materials – construction and properties
- Material choice and supply chain
- Apply of materials and manufacturing methods

Materials

Lecture materials related to the course can be found in the course workspace. Relevant open-source online material can also be used.

Supporting books:
MET Raaka-ainekäsikirja 1-5
Sorsa, J. 2015. Materiaalitekniikka
Järvinen, P. 2017. Muovit ja muovituotteiden valmistus
Keinänen, T. & Kärkkäinen, P. 2009. Konetekniikan perusteet
Gupta, H.N. 2009. Manufacturing processes

Teaching methods

The course is implemented virtually, which includes self-study (independent learning tasks or group learning tasks). The course includes possible online laboratory work. Pay attention the start and end times of the course, and returning dates of assignments.

Course assignments are described in the course workspace.

Employer connections

Seminars, webinars, etc. that take place during the course can be included in the course. This will be discussed in more detail during the course.

Exam schedules

Assessment is based on learning assignments.
The possible date and method of the exam will be announced in the course opening information.

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 corresponds to an average of 27 hours of work, which means that the load of five credits is approximately 135 hours. The load is distributed in different ways depending on the course implementation.

Evaluation scale

0-5

Assessment criteria, satisfactory (1)

1: Student has gained knowledge at all the subjects described in the learning outcomes.

2: Student has gained knowledge at all the subjects described in the learning outcomes and is able to can utilize this knowledge.

Assessment criteria, good (3)

3: Student understands all the subjects described in the learning outcomes and is able to apply the skills he or she has learned.

4: Student has attained an excellent level in almost all the subjects described in the learning outcomes and is able to apply the skills he or she has learned.

Assessment criteria, excellent (5)

5: The student has attained an excellent level in all subjects described in the learning outcomes and is able to apply the skills he or she has learned.

Qualifications

Materials management

Objective

In this course, production refers to manufacturing products for the end customer. The course introduces both traditional and modern manufacturing methods and materials related to them. As the material plays an important role in the price formation, manufacturability and usability of the product, you working as an logistics engineer should have a good understanding of the impact of manufacturing methods and materials on costs.

In this course you will learn
- find information on materials and their properties
- know different materials and manufacturing techniques involved to materials
- know different layout types and production strategies
- understand properties of materials and their impact on choices
- apply materials selection and manufacturing technologies

After completing this course, you will have a broad understanding of the terminology of the topics covered in the course. You gain knowledge of the various materials, manufacturing technologies and their potential. You will understand how different materials and manufacturing technologies can be used for real applications. You will have the skills and the ability to search for information about different materials and manufacturing technologies.

Competencies: technological knowledge, engineering practice, communication and team-working.

Learning outcomes:
You will understand the terminology of manufacturing technologies, potential of different materials and their importance. You will manage the key concepts and theories of the topics covered in this course and will be able to apply your prior knowledge to the choice of manufacturing technologies and materials.

Content

The course covers following main themes:
- Lay-out types and production strategies
- Manufacturing technologies (materials, products)
- Different materials – construction and properties
- Material choice and supply chain
- Apply of materials and manufacturing methods

Materials

Lecture materials related to the course can be found in the course workspace. Relevant open-source online material can also be used.

Supporting books:
MET Raaka-ainekäsikirja 1-5
Sorsa, J. 2015. Materiaalitekniikka
Järvinen, P. 2017. Muovit ja muovituotteiden valmistus
Keinänen, T. & Kärkkäinen, P. 2009. Konetekniikan perusteet
Gupta, H.N. 2009. Manufacturing processes

Teaching methods

Course includes lectures, returnable learning assignments and possible laboratory tasks. Course can also include wider project work made with group of students.

Assignments are done as independent work. The assignments are described in the course workspace. All assignments are either individual assignments or group assignments (described in course workspace) and their due dates will be confirmed as the course progresses.

Employer connections

Seminars, webinars, etc. that take place during the course can be included in the course. This will be discussed in more detail during the course.

Exam schedules

Assessment is based on learning assignments.
The possible date and method of the exam will be announced in the course opening information.

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 corresponds to an average of 27 hours of work, which means that the load of five credits is approximately 135 hours. The load is distributed in different ways depending on the course implementation.

Evaluation scale

0-5

Assessment criteria, satisfactory (1)

1: Student has gained knowledge at all the subjects described in the learning outcomes.

2: Student has gained knowledge at all the subjects described in the learning outcomes and is able to can utilize this knowledge.

Assessment criteria, good (3)

3: Student understands all the subjects described in the learning outcomes and is able to apply the skills he or she has learned.

4: Student has attained an excellent level in almost all the subjects described in the learning outcomes and is able to apply the skills he or she has learned.

Assessment criteria, excellent (5)

5: The student has attained an excellent level in all subjects described in the learning outcomes and is able to apply the skills he or she has learned.

Qualifications

Materials management