HydraulicsLaajuus (5 cr)
Code: 5C00ER98
Credits
5 op
Objectives
After the course students master equations of flow technology, knows the structural details of components can design and dimension hydraulic systems and is familiar with the hydraulic required components.
Students become familiar with electro-hydraulic control systems and digital hydraulics, and how to design a proportional control.
Students learn about environmentally friendly water hydraulics.
Content
Flow technology theory, valves and actuators sizing, circuit diagrams, system design and applications. Proportional valves, proportional control and design, servo valves and systems design.
Assessment criteria, satisfactory (1-2)
Students recognize main components and know how they work. They can read hydraulics diagrams. Students are somewhat motivated and can work in a team and receive feedback.
Assessment criteria, good (3-4)
Students are able to dimension main components and draw hydraulics diagrams. They understand power loss in power transmission and can manage it by choosing right components and systems. Students are motivated and complete task in schedule.
Assessment criteria, excellent (5)
Students are able to dimension hydraulics components and draw diagrams according to standards. They understand interaction between components and hydraulics. They understand the principles of proportional steering and can dimension proportional systems, Students are very motivated and complete tasks in schedule.
Enrolment period
02.12.2023 - 31.12.2023
Timing
01.01.2024 - 31.07.2024
Credits
5 op
Mode of delivery
Contact teaching
Unit
Vehicle Engineering
Campus
TAMK Main Campus
Teaching languages
- Finnish
Degree programmes
- Degree Programme in Vehicle Engineering
Teachers
- Mika Ijas
Groups
-
23AUTOB
Objectives (course unit)
After the course students master equations of flow technology, knows the structural details of components can design and dimension hydraulic systems and is familiar with the hydraulic required components.
Students become familiar with electro-hydraulic control systems and digital hydraulics, and how to design a proportional control.
Students learn about environmentally friendly water hydraulics.
Content (course unit)
Flow technology theory, valves and actuators sizing, circuit diagrams, system design and applications. Proportional valves, proportional control and design, servo valves and systems design.
Assessment criteria, satisfactory (1-2) (course unit)
Students recognize main components and know how they work. They can read hydraulics diagrams. Students are somewhat motivated and can work in a team and receive feedback.
Assessment criteria, good (3-4) (course unit)
Students are able to dimension main components and draw hydraulics diagrams. They understand power loss in power transmission and can manage it by choosing right components and systems. Students are motivated and complete task in schedule.
Assessment criteria, excellent (5) (course unit)
Students are able to dimension hydraulics components and draw diagrams according to standards. They understand interaction between components and hydraulics. They understand the principles of proportional steering and can dimension proportional systems, Students are very motivated and complete tasks in schedule.
Assessment scale
0-5
Assessment criteria - fail (0) (Not in use, Look at the Assessment criteria above)
The student does not return the assignment or does not receive an acceptable grade in the exam.
Assessment criteria - satisfactory (1-2) (Not in use, Look at the Assessment criteria above)
The student identifies the main components and knows how they work. Can read hydraulic diagrams. The student is somewhat motivated, knows how to work in a group and is able to receive feedback.
Assessment criteria - good (3-4) (Not in use, Look at the Assessment criteria above)
The student is able to dimension the main components and draw up hydraulic diagrams. The student understands the determination of power dissipation in the power transmission chain and is able to control it by selecting components and systems. The student is motivated and completes the assigned tasks on schedule.
Assessment criteria - excellent (5) (Not in use, Look at the Assessment criteria above)
The student is able to dimension hydraulic components and is able to draw diagrams in accordance with the standard. The student understands the interaction between actuators and hydraulics. The student understands the principle of proportional control and is able to dimension a proportional system in a supervised manner. The student is well motivated and returns the assignments on time.
Enrolment period
02.12.2023 - 31.12.2023
Timing
01.01.2024 - 31.07.2024
Credits
5 op
Mode of delivery
Contact teaching
Unit
Vehicle Engineering
Campus
TAMK Main Campus
Teaching languages
- Finnish
- English
Degree programmes
- Degree Programme in Vehicle Engineering
Teachers
- Mika Ijas
Person in charge
Mika Ijas
Groups
-
23AUTOA
Objectives (course unit)
After the course students master equations of flow technology, knows the structural details of components can design and dimension hydraulic systems and is familiar with the hydraulic required components.
Students become familiar with electro-hydraulic control systems and digital hydraulics, and how to design a proportional control.
Students learn about environmentally friendly water hydraulics.
Content (course unit)
Flow technology theory, valves and actuators sizing, circuit diagrams, system design and applications. Proportional valves, proportional control and design, servo valves and systems design.
Assessment criteria, satisfactory (1-2) (course unit)
Students recognize main components and know how they work. They can read hydraulics diagrams. Students are somewhat motivated and can work in a team and receive feedback.
Assessment criteria, good (3-4) (course unit)
Students are able to dimension main components and draw hydraulics diagrams. They understand power loss in power transmission and can manage it by choosing right components and systems. Students are motivated and complete task in schedule.
Assessment criteria, excellent (5) (course unit)
Students are able to dimension hydraulics components and draw diagrams according to standards. They understand interaction between components and hydraulics. They understand the principles of proportional steering and can dimension proportional systems, Students are very motivated and complete tasks in schedule.
Assessment scale
0-5
Assessment criteria - fail (0) (Not in use, Look at the Assessment criteria above)
The student does not return the assignment or does not receive an acceptable grade in the exam.
Assessment criteria - satisfactory (1-2) (Not in use, Look at the Assessment criteria above)
The student identifies the main components and knows how they work. Can read hydraulic diagrams. The student is somewhat motivated, knows how to work in a group and is able to receive feedback.
Assessment criteria - good (3-4) (Not in use, Look at the Assessment criteria above)
The student is able to dimension the main components and draw up hydraulic diagrams. The student understands the determination of power dissipation in the power transmission chain and is able to control it by selecting components and systems. The student is motivated and completes the assigned tasks on schedule.
Assessment criteria - excellent (5) (Not in use, Look at the Assessment criteria above)
The student is able to dimension hydraulic components and is able to draw diagrams in accordance with the standard. The student understands the interaction between actuators and hydraulics. The student understands the principle of proportional control and is able to dimension a proportional system in a supervised manner. The student is well motivated and returns the assignments on time.
Enrolment period
02.12.2022 - 15.01.2023
Timing
01.01.2023 - 31.07.2023
Credits
5 op
Mode of delivery
Contact teaching
Unit
Vehicle Engineering
Campus
TAMK Main Campus
Teaching languages
- Finnish
- English
Degree programmes
- Degree Programme in Vehicle Engineering
Teachers
- Mika Ijas
Groups
-
22AUTOA
Objectives (course unit)
After the course students master equations of flow technology, knows the structural details of components can design and dimension hydraulic systems and is familiar with the hydraulic required components.
Students become familiar with electro-hydraulic control systems and digital hydraulics, and how to design a proportional control.
Students learn about environmentally friendly water hydraulics.
Content (course unit)
Flow technology theory, valves and actuators sizing, circuit diagrams, system design and applications. Proportional valves, proportional control and design, servo valves and systems design.
Assessment criteria, satisfactory (1-2) (course unit)
Students recognize main components and know how they work. They can read hydraulics diagrams. Students are somewhat motivated and can work in a team and receive feedback.
Assessment criteria, good (3-4) (course unit)
Students are able to dimension main components and draw hydraulics diagrams. They understand power loss in power transmission and can manage it by choosing right components and systems. Students are motivated and complete task in schedule.
Assessment criteria, excellent (5) (course unit)
Students are able to dimension hydraulics components and draw diagrams according to standards. They understand interaction between components and hydraulics. They understand the principles of proportional steering and can dimension proportional systems, Students are very motivated and complete tasks in schedule.
Assessment scale
0-5
Assessment criteria - fail (0) (Not in use, Look at the Assessment criteria above)
The student does not return the assignment or does not receive an acceptable grade in the exam.
Assessment criteria - satisfactory (1-2) (Not in use, Look at the Assessment criteria above)
The student identifies the main components and knows how they work. Can read hydraulic diagrams. The student is somewhat motivated, knows how to work in a group and is able to receive feedback.
Assessment criteria - good (3-4) (Not in use, Look at the Assessment criteria above)
The student is able to dimension the main components and draw up hydraulic diagrams. The student understands the determination of power dissipation in the power transmission chain and is able to control it by selecting components and systems. The student is motivated and completes the assigned tasks on schedule.
Assessment criteria - excellent (5) (Not in use, Look at the Assessment criteria above)
The student is able to dimension hydraulic components and is able to draw diagrams in accordance with the standard. The student understands the interaction between actuators and hydraulics. The student understands the principle of proportional control and is able to dimension a proportional system in a supervised manner. The student is well motivated and returns the assignments on time.
Enrolment period
02.12.2022 - 15.01.2023
Timing
01.01.2023 - 31.07.2023
Credits
5 op
Mode of delivery
Contact teaching
Unit
Vehicle Engineering
Campus
TAMK Main Campus
Teaching languages
- Finnish
- English
Degree programmes
- Degree Programme in Vehicle Engineering
Teachers
- Mika Ijas
Groups
-
22AUTOB
Objectives (course unit)
After the course students master equations of flow technology, knows the structural details of components can design and dimension hydraulic systems and is familiar with the hydraulic required components.
Students become familiar with electro-hydraulic control systems and digital hydraulics, and how to design a proportional control.
Students learn about environmentally friendly water hydraulics.
Content (course unit)
Flow technology theory, valves and actuators sizing, circuit diagrams, system design and applications. Proportional valves, proportional control and design, servo valves and systems design.
Assessment criteria, satisfactory (1-2) (course unit)
Students recognize main components and know how they work. They can read hydraulics diagrams. Students are somewhat motivated and can work in a team and receive feedback.
Assessment criteria, good (3-4) (course unit)
Students are able to dimension main components and draw hydraulics diagrams. They understand power loss in power transmission and can manage it by choosing right components and systems. Students are motivated and complete task in schedule.
Assessment criteria, excellent (5) (course unit)
Students are able to dimension hydraulics components and draw diagrams according to standards. They understand interaction between components and hydraulics. They understand the principles of proportional steering and can dimension proportional systems, Students are very motivated and complete tasks in schedule.
Assessment scale
0-5
Assessment criteria - fail (0) (Not in use, Look at the Assessment criteria above)
The student does not return the assignment or does not receive an acceptable grade in the exam.
Assessment criteria - satisfactory (1-2) (Not in use, Look at the Assessment criteria above)
The student identifies the main components and knows how they work. Can read hydraulic diagrams. The student is somewhat motivated, knows how to work in a group and is able to receive feedback.
Assessment criteria - good (3-4) (Not in use, Look at the Assessment criteria above)
The student is able to dimension the main components and draw up hydraulic diagrams. The student understands the determination of power dissipation in the power transmission chain and is able to control it by selecting components and systems. The student is motivated and completes the assigned tasks on schedule.
Assessment criteria - excellent (5) (Not in use, Look at the Assessment criteria above)
The student is able to dimension hydraulic components and is able to draw diagrams in accordance with the standard. The student understands the interaction between actuators and hydraulics. The student understands the principle of proportional control and is able to dimension a proportional system in a supervised manner. The student is well motivated and returns the assignments on time.
Enrolment period
24.11.2021 - 09.01.2022
Timing
01.01.2022 - 30.04.2022
Credits
5 op
Mode of delivery
Contact teaching
Unit
Vehicle Engineering
Campus
TAMK Main Campus
Teaching languages
- Finnish
- English
Degree programmes
- Degree Programme in Vehicle Engineering, students who began in 2014-2018
Teachers
- Mika Ijas
Person in charge
Mika Ijas
Groups
-
21AUTOA
Objectives (course unit)
After the course students master equations of flow technology, knows the structural details of components can design and dimension hydraulic systems and is familiar with the hydraulic required components.
Students become familiar with electro-hydraulic control systems and digital hydraulics, and how to design a proportional control.
Students learn about environmentally friendly water hydraulics.
Content (course unit)
Flow technology theory, valves and actuators sizing, circuit diagrams, system design and applications. Proportional valves, proportional control and design, servo valves and systems design.
Assessment criteria, satisfactory (1-2) (course unit)
Students recognize main components and know how they work. They can read hydraulics diagrams. Students are somewhat motivated and can work in a team and receive feedback.
Assessment criteria, good (3-4) (course unit)
Students are able to dimension main components and draw hydraulics diagrams. They understand power loss in power transmission and can manage it by choosing right components and systems. Students are motivated and complete task in schedule.
Assessment criteria, excellent (5) (course unit)
Students are able to dimension hydraulics components and draw diagrams according to standards. They understand interaction between components and hydraulics. They understand the principles of proportional steering and can dimension proportional systems, Students are very motivated and complete tasks in schedule.
Assessment scale
0-5
Assessment criteria - fail (0) (Not in use, Look at the Assessment criteria above)
The student does not return the assignment or does not receive an acceptable grade in the exam.
Assessment criteria - satisfactory (1-2) (Not in use, Look at the Assessment criteria above)
The student identifies the main components and knows how they work. Can read hydraulic diagrams. The student is somewhat motivated, knows how to work in a group and is able to receive feedback.
Assessment criteria - good (3-4) (Not in use, Look at the Assessment criteria above)
The student is able to dimension the main components and draw up hydraulic diagrams. The student understands the determination of power dissipation in the power transmission chain and is able to control it by selecting components and systems. The student is motivated and completes the assigned tasks on schedule.
Assessment criteria - excellent (5) (Not in use, Look at the Assessment criteria above)
The student is able to dimension hydraulic components and is able to draw diagrams in accordance with the standard. The student understands the interaction between actuators and hydraulics. The student understands the principle of proportional control and is able to dimension a proportional system in a supervised manner. The student is well motivated and returns the assignments on time.
Enrolment period
24.11.2021 - 09.01.2022
Timing
01.01.2022 - 30.04.2022
Credits
5 op
Mode of delivery
Contact teaching
Unit
Vehicle Engineering
Campus
TAMK Main Campus
Teaching languages
- Finnish
- English
Degree programmes
- Degree Programme in Vehicle Engineering
Teachers
- Mika Ijas
Person in charge
Mika Ijas
Groups
-
21AUTOB
Objectives (course unit)
After the course students master equations of flow technology, knows the structural details of components can design and dimension hydraulic systems and is familiar with the hydraulic required components.
Students become familiar with electro-hydraulic control systems and digital hydraulics, and how to design a proportional control.
Students learn about environmentally friendly water hydraulics.
Content (course unit)
Flow technology theory, valves and actuators sizing, circuit diagrams, system design and applications. Proportional valves, proportional control and design, servo valves and systems design.
Assessment criteria, satisfactory (1-2) (course unit)
Students recognize main components and know how they work. They can read hydraulics diagrams. Students are somewhat motivated and can work in a team and receive feedback.
Assessment criteria, good (3-4) (course unit)
Students are able to dimension main components and draw hydraulics diagrams. They understand power loss in power transmission and can manage it by choosing right components and systems. Students are motivated and complete task in schedule.
Assessment criteria, excellent (5) (course unit)
Students are able to dimension hydraulics components and draw diagrams according to standards. They understand interaction between components and hydraulics. They understand the principles of proportional steering and can dimension proportional systems, Students are very motivated and complete tasks in schedule.
Assessment scale
0-5
Assessment criteria - fail (0) (Not in use, Look at the Assessment criteria above)
The student does not return the assignment or does not receive an acceptable grade in the exam.
Assessment criteria - satisfactory (1-2) (Not in use, Look at the Assessment criteria above)
The student identifies the main components and knows how they work. Can read hydraulic diagrams. The student is somewhat motivated, knows how to work in a group and is able to receive feedback.
Assessment criteria - good (3-4) (Not in use, Look at the Assessment criteria above)
The student is able to dimension the main components and draw up hydraulic diagrams. The student understands the determination of power dissipation in the power transmission chain and is able to control it by selecting components and systems. The student is motivated and completes the assigned tasks on schedule.
Assessment criteria - excellent (5) (Not in use, Look at the Assessment criteria above)
The student is able to dimension hydraulic components and is able to draw diagrams in accordance with the standard. The student understands the interaction between actuators and hydraulics. The student understands the principle of proportional control and is able to dimension a proportional system in a supervised manner. The student is well motivated and returns the assignments on time.