Details
Originalsprache | Englisch |
---|---|
Titel des Sammelwerks | Proceedings - 26th International Association for Management of Technology Conference, IAMOT 2017 |
Seiten | 1792-1802 |
Seitenumfang | 11 |
ISBN (elektronisch) | 9783200049864 |
Publikationsstatus | Veröffentlicht - 2020 |
Veranstaltung | 26th International Association for Management of Technology Conference, IAMOT 2017 - Vienna, Österreich Dauer: 14 Mai 2017 → 18 Mai 2017 |
Publikationsreihe
Name | 26th International Association for Management of Technology Conference, IAMOT 2017 |
---|
Abstract
Due to the current demand for reducing the power consumption particularly in the transportation sector intensive research is carried out to achieve resource efficiency. To fulfil future trends in sustainability machine elements offer possibilities to enhance the surface and part properties and to reduce the components weight and costs. This paper describes the potentials, which the combination of two current research projects in mechanical engineering can offer to improve rolling element bearings. A cylindrical roller bearing will be used as an example. By applying residual stresses to the bearing surfaces, it could be proven that the bearing fatigue life can be increased by a factor of 2.5. For this purpose, an adoption of the manufacturing processes is needed. With an enhanced near surface zone the machine dimensions can be reduced to fulfil the required function. In a second step, hybrid machine elements with tailored material properties are designed and manufactured. Concerning this, a shaft with an integrated raceway made out of a higher strength material than the shaft itself was developed. The raceway of the shaft acts like the inner ring of a bearing. This complex machine element combines various requirements in one part like resistance against structural stresses and a surface under cyclic rolling contact fatigue. For the hybrid shaft, the raceway should resist the rolling contact fatigue and mechanical wear, while the main material for the shaft consists of a more lightweight and cheaper material. In order to manufacture said shaft, intensive research on the overall product engineering process is done. Numerical simulations and experimental studies are used to prove the reliability of the described concept.
ASJC Scopus Sachgebiete
- Betriebswirtschaft, Management und Rechnungswesen (insg.)
- Technologie- und Innovationsmanagement
Ziele für nachhaltige Entwicklung
Zitieren
- Standard
- Harvard
- Apa
- Vancouver
- BibTex
- RIS
Proceedings - 26th International Association for Management of Technology Conference, IAMOT 2017. 2020. S. 1792-1802 (26th International Association for Management of Technology Conference, IAMOT 2017).
Publikation: Beitrag in Buch/Bericht/Sammelwerk/Konferenzband › Aufsatz in Konferenzband › Forschung › Peer-Review
}
TY - GEN
T1 - Concept for enhancing machine elements by residual stresses and tailored forming
AU - Coors, Timm
AU - Pape, Florian
AU - Poll, Gerhard
N1 - Funding Information: The results presented in this paper were obtained within the Collaborative Research Centre 1153 ‘‘Process?chain?to?produce?hybrid?high?performance?components?by?Tailored?Forming’’?in?the? subproject C3 and within the research priority programme 1551 “Resource efficient machine elements”. The authors would like to thank the German Research Foundation (DFG) for the financial and organisational support of these projects. Publisher Copyright: © 2020 26th International Association for Management of Technology Conference, IAMOT 2017. All rights reserved. Copyright: Copyright 2020 Elsevier B.V., All rights reserved.
PY - 2020
Y1 - 2020
N2 - Due to the current demand for reducing the power consumption particularly in the transportation sector intensive research is carried out to achieve resource efficiency. To fulfil future trends in sustainability machine elements offer possibilities to enhance the surface and part properties and to reduce the components weight and costs. This paper describes the potentials, which the combination of two current research projects in mechanical engineering can offer to improve rolling element bearings. A cylindrical roller bearing will be used as an example. By applying residual stresses to the bearing surfaces, it could be proven that the bearing fatigue life can be increased by a factor of 2.5. For this purpose, an adoption of the manufacturing processes is needed. With an enhanced near surface zone the machine dimensions can be reduced to fulfil the required function. In a second step, hybrid machine elements with tailored material properties are designed and manufactured. Concerning this, a shaft with an integrated raceway made out of a higher strength material than the shaft itself was developed. The raceway of the shaft acts like the inner ring of a bearing. This complex machine element combines various requirements in one part like resistance against structural stresses and a surface under cyclic rolling contact fatigue. For the hybrid shaft, the raceway should resist the rolling contact fatigue and mechanical wear, while the main material for the shaft consists of a more lightweight and cheaper material. In order to manufacture said shaft, intensive research on the overall product engineering process is done. Numerical simulations and experimental studies are used to prove the reliability of the described concept.
AB - Due to the current demand for reducing the power consumption particularly in the transportation sector intensive research is carried out to achieve resource efficiency. To fulfil future trends in sustainability machine elements offer possibilities to enhance the surface and part properties and to reduce the components weight and costs. This paper describes the potentials, which the combination of two current research projects in mechanical engineering can offer to improve rolling element bearings. A cylindrical roller bearing will be used as an example. By applying residual stresses to the bearing surfaces, it could be proven that the bearing fatigue life can be increased by a factor of 2.5. For this purpose, an adoption of the manufacturing processes is needed. With an enhanced near surface zone the machine dimensions can be reduced to fulfil the required function. In a second step, hybrid machine elements with tailored material properties are designed and manufactured. Concerning this, a shaft with an integrated raceway made out of a higher strength material than the shaft itself was developed. The raceway of the shaft acts like the inner ring of a bearing. This complex machine element combines various requirements in one part like resistance against structural stresses and a surface under cyclic rolling contact fatigue. For the hybrid shaft, the raceway should resist the rolling contact fatigue and mechanical wear, while the main material for the shaft consists of a more lightweight and cheaper material. In order to manufacture said shaft, intensive research on the overall product engineering process is done. Numerical simulations and experimental studies are used to prove the reliability of the described concept.
KW - Bearing lifetime
KW - Hybrid components
KW - Resource efficiency
KW - Sustainability
KW - Tailored forming
UR - http://www.scopus.com/inward/record.url?scp=85080910105&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:85080910105
T3 - 26th International Association for Management of Technology Conference, IAMOT 2017
SP - 1792
EP - 1802
BT - Proceedings - 26th International Association for Management of Technology Conference, IAMOT 2017
T2 - 26th International Association for Management of Technology Conference, IAMOT 2017
Y2 - 14 May 2017 through 18 May 2017
ER -