Precision Mechanism DesignLaajuus (7 op)
Tunnus: IK10086
Laajuus
7 op
Opetuskieli
- englanti
Vastuuhenkilö
- Kari Mönkkönen
Osaamistavoitteet
This course will give you understanding how imperfections in parts as they are manufactured, and in assemblies as they are put together, affect the capability of a product to meet customer expectations. You will get understanding how sources of variation in part dimensions and assembly constraints propagate across parts and assemblies, and how that total variation affects the capability of a design to achieve its design requirements within the process capabilities of manufacturing organizations and supply chains.Kurssin opetuskieli on suomi mikäli kurssilla ei ole vaihto-opiskelijoita.
Sisältö
Students in this hands-on, self-motivated program will work in small teams to design, build, and test projects that blend engineering and science.The workshop builds on students' math, science, and artistic abilities and will use basic principles of engineering, problem solving, and design. Short lessons on interesting topics will add to the project-based experience: (Projektityö, jossa suunnitellaan, simuloidaan (CAD/CAM, FEM) ja valmistetaan konetekninen komponentti tai laite)Tolerance Technology: Definitions of tolerance and tolerance chains, impact of specifying tolerances on manufacturing, manufacturing strategies. (Tolerointi valmistuksen ja tuottavuuden näkökulmasta)Fundamental concepts in designing precision mechanism by using tolerance analysis software. It provides product development teams with the insight required to confidently release designs to manufacturing. Precise calculation of surface sensitivities exposes the critical-to-quality dimensions in the assembly. (Toleranssianalyysit CETOL ohjelmiston avulla)Advanced mathematical solutions. Tolerance analysis solution accelerates optimization to achieve robust designs ready for manufacturing (Toleranssien optimointi valmistuksen ja tuottavuuden näkökulmasta)
Ilmoittautumisaika
01.04.2024 - 30.04.2024
Ajoitus
26.08.2024 - 13.12.2024
Opintopistemäärä
7 op
Toteutustapa
Lähiopetus
Yksikkö
Insinöörikoulutus / Konetekniikka (IK)
Toimipiste
Wärtsilä-kampus Karjalankatu 3 (WÄR)
Opetuskielet
- Englanti
Paikat
20 - 30
Koulutus
- Konetekniikan koulutus
Opettaja
- Jussi Nyyssönen
- Kari Mönkkönen
Vastuuopettaja
Kari Mönkkönen
Ryhmät
-
TOP24_25Täydentävän osaamisen opintojen ryhmä lv 2024-2025
-
IKNS21Insinööri (AMK), Konetekniikka, päivä, syksy, 2021
Tavoitteet
This course will give you understanding how imperfections in parts as they are manufactured, and in assemblies as they are put together, affect the capability of a product to meet customer expectations. You will get understanding how sources of variation in part dimensions and assembly constraints propagate across parts and assemblies, and how that total variation affects the capability of a design to achieve its design requirements within the process capabilities of manufacturing organizations and supply chains.Kurssin opetuskieli on suomi mikäli kurssilla ei ole vaihto-opiskelijoita.
Sisältö
Students in this hands-on, self-motivated program will work in small teams to design, build, and test projects that blend engineering and science.The workshop builds on students' math, science, and artistic abilities and will use basic principles of engineering, problem solving, and design. Short lessons on interesting topics will add to the project-based experience: (Projektityö, jossa suunnitellaan, simuloidaan (CAD/CAM, FEM) ja valmistetaan konetekninen komponentti tai laite)Tolerance Technology: Definitions of tolerance and tolerance chains, impact of specifying tolerances on manufacturing, manufacturing strategies. (Tolerointi valmistuksen ja tuottavuuden näkökulmasta)Fundamental concepts in designing precision mechanism by using tolerance analysis software. It provides product development teams with the insight required to confidently release designs to manufacturing. Precise calculation of surface sensitivities exposes the critical-to-quality dimensions in the assembly. (Toleranssianalyysit CETOL ohjelmiston avulla)Advanced mathematical solutions. Tolerance analysis solution accelerates optimization to achieve robust designs ready for manufacturing (Toleranssien optimointi valmistuksen ja tuottavuuden näkökulmasta)
Arviointiasteikko
H-5
Ilmoittautumisaika
01.04.2023 - 15.04.2023
Ajoitus
28.08.2023 - 15.12.2023
Opintopistemäärä
7 op
Toteutustapa
Lähiopetus
Yksikkö
Insinöörikoulutus / Konetekniikka (IK)
Toimipiste
Wärtsilä-kampus Karjalankatu 3 (WÄR)
Opetuskielet
- Englanti
Paikat
20 - 30
Koulutus
- Konetekniikan koulutus
Opettaja
- Jussi Nyyssönen
- Kari Mönkkönen
Vastuuopettaja
Kari Mönkkönen
Ryhmät
-
LTKNS20Insinööri (AMK), konetekniikka
-
TOP23_24Täydentävän osaamisen opintojen ryhmä lv 2023-2024
Tavoitteet
This course will give you understanding how imperfections in parts as they are manufactured, and in assemblies as they are put together, affect the capability of a product to meet customer expectations. You will get understanding how sources of variation in part dimensions and assembly constraints propagate across parts and assemblies, and how that total variation affects the capability of a design to achieve its design requirements within the process capabilities of manufacturing organizations and supply chains.Kurssin opetuskieli on suomi mikäli kurssilla ei ole vaihto-opiskelijoita.
Sisältö
Students in this hands-on, self-motivated program will work in small teams to design, build, and test projects that blend engineering and science.The workshop builds on students' math, science, and artistic abilities and will use basic principles of engineering, problem solving, and design. Short lessons on interesting topics will add to the project-based experience: (Projektityö, jossa suunnitellaan, simuloidaan (CAD/CAM, FEM) ja valmistetaan konetekninen komponentti tai laite)Tolerance Technology: Definitions of tolerance and tolerance chains, impact of specifying tolerances on manufacturing, manufacturing strategies. (Tolerointi valmistuksen ja tuottavuuden näkökulmasta)Fundamental concepts in designing precision mechanism by using tolerance analysis software. It provides product development teams with the insight required to confidently release designs to manufacturing. Precise calculation of surface sensitivities exposes the critical-to-quality dimensions in the assembly. (Toleranssianalyysit CETOL ohjelmiston avulla)Advanced mathematical solutions. Tolerance analysis solution accelerates optimization to achieve robust designs ready for manufacturing (Toleranssien optimointi valmistuksen ja tuottavuuden näkökulmasta)
Arviointiasteikko
H-5