Bachelor’s Degree Programme in Mechanical Engineering (2021, 2022, 2023)

Bachelor of Engineering, Mechanical Engineering 22S, Double Degree, Lappeenranta

(TLPRMECDD22S)

Timing plan: TLPRMECDD22S

Bachelor of Engineering, Mechanical Engineering 23K, Double Degree, Lappeenranta

(TLPRMECDD23K)

Timing plan: TLPRMECDD23K

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Enrollment

06.05.2024 - 30.08.2024

Timing

01.08.2024 - 31.12.2024

Number of ECTS credits allocated

12 op

Mode of delivery

Contact teaching

Unit

Faculty of Technology (LAB)

Campus

Lappeenranta Campus

Teaching languages

English

Degree programmes

Bachelor’s Degree Programme in Mechanical Engineering (2021, 2022, 2023)

Teachers

Timo Ryynänen
Seppo Toivanen
Tapani Heikkilä

Scheduling groups

Toteutuksen opetusryhmä 1 (Size: 0. Open UAS: 0.)

Groups

TLPRMEC22S
TLPREX24SM

Small groups

Scheduling group 1

Learning outcomes

The student
- understands the holistic nature of a machine design project.
- is able to figure out and put into practice all the relevant information and knowledge needed to conduct a design project (e.g. a scissor lift).
- is able to use simulation software (e.g. FEM) when designing a load-carrying machine element or a whole structure.
- is able to produce a written report of a design project (including technical drawings, technical calculations and a manufacturing plan)

Implementation and methods of teaching

Team based challenges

Timing and attendance

Team based schedules.

Learning environment

Campus, JHC

Assessment criteria

Evaluation of learning process and output.

Assessment scale

1-5

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Enrollment

06.05.2024 - 30.08.2024

Timing

01.08.2024 - 31.07.2025

Number of ECTS credits allocated

1 op

Mode of delivery

Contact teaching

Unit

Faculty of Technology (LAB)

Campus

Lappeenranta Campus

Teaching languages

English

Degree programmes

Bachelor’s Degree Programme in Mechanical Engineering (2021, 2022, 2023)

Teachers

Tapani Heikkilä

Scheduling groups

Info 1 (Size: 100. Open UAS: 0.)

Groups

TLPRMEC22S

Small groups

Info 1

Learning outcomes

The student is able to
- identify themselves as a learner and develop their own learning skills
- evaluate innovative or alternative future competences required in their own field
- recognize and aim their own competences to be in level with the future career requirements
- masters the professional concepts of their own field and is able to point out their competencies during job recruitment processes
- give feedback on tuition and services and thus participate in the development of education

Implementation and methods of teaching

PSP – Personal study plan -discussion
Own future planning
– options for continuous learning after graduation
– career services, employment portals
- network development

Timing and attendance

Virtual sessions + a personal discussion with the tutor teacher

Working life cooperation

Company representative visitors eg. from recruitment field

Learning environment

LUT Moodle

Student time use and work load

1 ect = 27 working hours

Additional information for students: previous knowledge etc.

Developing professional competencies 1 & 2

Assessment scale

Approved/Failed

Failed (0)

Non appearance
Undone assignments

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Enrollment

06.05.2024 - 30.08.2024

Timing

02.09.2024 - 20.12.2024

Number of ECTS credits allocated

15 op

Mode of delivery

Contact teaching

Unit

Faculty of Technology (LAB)

Campus

Lappeenranta Campus

Teaching languages

English

Degree programmes

Bachelor’s Degree Programme in Mechanical Engineering (2021, 2022, 2023)

Teachers

Timo Ryynänen
Seppo Toivanen

Scheduling groups

Harjoitukset (Size: 0. Open UAS: 0.)

Groups

TLPRMEC22S

Small groups

Practice

Learning outcomes

The student
- understands the basic principles and the main process of Finite Element Method (FEM).
- understands the function and the use of the most important machine elements.
- is able to carry out fundamental technical calculations related to machine elements.
- understands the importance of vibrations in machines and fatigue as a primary possible failure mode for a machine element.

Implementation and methods of teaching

Team based challenges.

Timing and attendance

Team based schedules.

Learning environment

Campus, JHC

Assessment criteria

Evaluation of learning process and output.

Assessment scale

1-5

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Enrollment

06.05.2024 - 30.08.2024

Timing

02.09.2024 - 20.12.2024

Number of ECTS credits allocated

15 op

Mode of delivery

Contact teaching

Unit

Faculty of Technology (LAB)

Campus

Lappeenranta Campus

Teaching languages

English

Degree programmes

Bachelor’s Degree Programme in Mechanical Engineering (2021, 2022, 2023)

Teachers

Timo Ryynänen
Seppo Toivanen

Scheduling groups

Harjoitukset (Size: 0. Open UAS: 0.)

Groups

TLPRMEC22S

Small groups

Practice

Learning outcomes

The student
- understands the basic principles and the main process of Finite Element Method (FEM).
- understands the function and the use of the most important machine elements.
- is able to carry out fundamental technical calculations related to machine elements.
- understands the importance of vibrations in machines and fatigue as a primary possible failure mode for a machine element.

Implementation and methods of teaching

Team based challenges.

Timing and attendance

Team based schedules.

Learning environment

Campus, JHC

Assessment criteria

Evaluation of learning process and output.

Assessment scale

1-5

Open in new tab

Enrollment

06.05.2024 - 30.08.2024

Timing

01.08.2024 - 31.07.2025

Number of ECTS credits allocated

1 op

Mode of delivery

Contact teaching

Unit

Faculty of Technology (LAB)

Campus

Lappeenranta Campus

Teaching languages

English

Degree programmes

Bachelor’s Degree Programme in Mechanical Engineering (2021, 2022, 2023)

Teachers

Tapani Heikkilä

Scheduling groups

Info 1 (Size: 100. Open UAS: 0.)

Groups

TLPRMEC22S

Small groups

Info 1

Learning outcomes

The student is able to
- identify themselves as a learner and develop their own learning skills
- evaluate innovative or alternative future competences required in their own field
- recognize and aim their own competences to be in level with the future career requirements
- masters the professional concepts of their own field and is able to point out their competencies during job recruitment processes
- give feedback on tuition and services and thus participate in the development of education

Implementation and methods of teaching

PSP – Personal study plan -discussion
Own future planning
– options for continuous learning after graduation
– career services, employment portals
- network development

Timing and attendance

Virtual sessions + a personal discussion with the tutor teacher

Working life cooperation

Company representative visitors eg. from recruitment field

Learning environment

LUT Moodle

Student time use and work load

1 ect = 27 working hours

Additional information for students: previous knowledge etc.

Developing professional competencies 1 & 2

Assessment scale

Approved/Failed

Failed (0)

Non appearance
Undone assignments

Open in new tab

Enrollment

06.05.2024 - 30.08.2024

Timing

01.08.2024 - 31.12.2024

Number of ECTS credits allocated

12 op

Mode of delivery

Contact teaching

Unit

Faculty of Technology (LAB)

Campus

Lappeenranta Campus

Teaching languages

English

Degree programmes

Bachelor’s Degree Programme in Mechanical Engineering (2021, 2022, 2023)

Teachers

Timo Ryynänen
Seppo Toivanen
Tapani Heikkilä

Scheduling groups

Toteutuksen opetusryhmä 1 (Size: 0. Open UAS: 0.)

Groups

TLPRMEC22S
TLPREX24SM

Small groups

Scheduling group 1

Learning outcomes

The student
- understands the holistic nature of a machine design project.
- is able to figure out and put into practice all the relevant information and knowledge needed to conduct a design project (e.g. a scissor lift).
- is able to use simulation software (e.g. FEM) when designing a load-carrying machine element or a whole structure.
- is able to produce a written report of a design project (including technical drawings, technical calculations and a manufacturing plan)

Implementation and methods of teaching

Team based challenges

Timing and attendance

Team based schedules.

Learning environment

Campus, JHC

Assessment criteria

Evaluation of learning process and output.

Assessment scale

1-5

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Enrollment

20.01.2025 - 30.05.2025

Timing

04.08.2025 - 14.09.2025

Number of ECTS credits allocated

5 op

Virtual portion

1.5 op

Mode of delivery

70 % Contact teaching, 30 % Distance learning

Unit

Faculty of Technology (LAB)

Campus

Lappeenranta Campus

Teaching languages

English

Seats

15 - 26

Degree programmes

Bachelor's Degree Programme in Mechanical Engineering (in Finnish)
Bachelor’s Degree Programme in Mechanical Engineering (2021, 2022, 2023)
Summer studies (in Finnish)
Bachelor’s Degree Programme in Industrial Mechanical Engineering

Teachers

Tuomo Liimatainen

Scheduling groups

Harjoitukset 1 (Size: 0. Open UAS: 0.)
Verkkoluento 1 (Size: 0. Open UAS: 0.)

Groups

TLPRMEC23S
LABKES25KH
TLPRMEC22S
TLPRKONE24S
TLPRMEC24S
TLPRKONE22S
TLPRKONE23S

Small groups

Practice 1
Online lecture 1

Learning outcomes

Student is able to
- describe used mechanisms and their kinematics
- simulate structure motion and control the system for desired target
- apply theoretical approach (equations) with support of Matlab Simulink
- recognise general possibilities in process planning and process analysis using CAM technology.
- determine process times and make a cost estimate using CAM planning.

Implementation and methods of teaching

Course structure:
5 ECTS comprising of online + contact teaching.

Topics:
Multinational teamwork learning
Simulation of mechanisms
Manufacturing technology
Hydraulics

Schedule:
Week 32-33: Online teaching. Student group formation. Student groups meet online. Preparations for exchange.
Week 34-35: Exchange weeks in Lappeenranta Finland. Classroom teaching at LAB campus.

Timing and attendance

1-2 weeks online teaching, 2 weeks contact teaching in Lappeenranta campus.

Learning material and recommended literature

Material provided in Moodle

Learning environment

Zoom, Moodle, classroom

Student time use and work load

150 hours, of which 88 h teaching and 62 h independent work

Teamwork in an international student group. All teaching topics below presented in the context of a tail lift.

Modeling of tail lift systems and describing the used mechanisms and their kinematics. Modeling the tail lift motion and control & simulation of these multi-body systems. Theoretical approach (equations) with support of Matlab. Analysing tail lift mechanics and system behaviour using MatLab Simulink.

Basics of hydraulics (terminology, basic laws and dimensioning formulas). Hydraulic circuits; creating and simulating circuits with FluidSim. Hydraulic components; cylinders, valves (mainly directional) and pumps

Lessons on machining technology and planning of machining tasks with a focus on the use of Computer Aided Manufacturing (CAM). Process planning and process analysis using CAM technology. Process times and make a cost estimate. CAM tools of a design software SolidWorks.

Assessment criteria

Evaluation based on final presentation

Assessment scale

1-5

Failed (0)

Does not meet minimum criteria

Assessment criteria: level 1 (assessment scale 1–5)

Learning outcomes have been achieved in minimum level.

Assessment criteria: level 3 (assessment scale 1–5)

Learning outcomes have been achieved in good level.

Assessment criteria: level 5 (assessment scale 1–5)

Learning outcomes have been achieved in excellent level.