Material Model of Case-Hardened Steels for Turbo Gear Applications

Informazioni relative al progetto

MatCH4Turbo

ID dell’accordo di sovvenzione: 831832

Sito web del progetto

DOI

10.3030/831832

Progetto chiuso

Data della firma CE 18 Aprile 2019

Data di avvio 1 Aprile 2019

Data di completamento 31 Dicembre 2023

Finanziato da

SOCIETAL CHALLENGES - Smart, Green And Integrated Transport

Costo totale

€ 2 365 530,00

Contributo UE

€ 2 365 530,00

2 365 530,00

Coordinato da

RHEINISCH-WESTFAELISCHE TECHNISCHE HOCHSCHULE AACHEN
Germany

CORDIS fornisce collegamenti ai risultati finali pubblici e alle pubblicazioni dei progetti ORIZZONTE.

I link ai risultati e alle pubblicazioni dei progetti del 7° PQ, così come i link ad alcuni tipi di risultati specifici come dataset e software, sono recuperati dinamicamente da .OpenAIRE .

Risultati finali

Advanced Material Data Base for Material 2

After a successful completion of WP4, a extensive material data base for developing of the VHCF model for tooth root bending is available. The material data base includes two case-hardened steels. -Material properties of gear test specimen of material 2 -Tooth root strength of gear test specimen of material 2-Knowledge of failure characteristics (Fatigue limit 5 * 108)

VHCF model for calculation tooth root strength of spur gears

-State of the art analysis -VHCF model for case-hardened components

Final Design of High Power Recirculating Gear Test Rig

The output of WP1 will the concept of the recirculating gear test rig including the pre-design of the critical machine components as well as the completed design regarding the purchased machine components and the drawings for manufacturing. Furthermore, a detailed evaluation of the dynamic test rig behaviour will be an output of WP1. All results will be provided at the end of month 9 of the project. - Concept of high power recirculating test rig - Full design of test rig including machine components and drawings - Build up of an demonstrator test rig to prove the test rig concept - Evaluation of dynamic test rig behaviour

PEDR - Plan for the Communication Dissemination and Exploitation of Results

Setup of D&E Plan for the project.

Advanced Material Data Base for Material 1

-Advanced material data base for material 1-Material properties of gear test specimen of material 1-Tooth root strength of gear test specimen of material 1-Knowledge of failure characteristics (Fatigue limit 5 * 108)

Dissemination of Results

-Dissemination of results for construction of test rig in scientific publications or conferences-Dissemination of results for advanced material testing in scientific publications or conferences

DMP - Data Management Plan

- Setup of Data Managment Plan

High Power Recirculating Gear Test Rig Ready for Operation Validation Tests

Assembly, commissioning and performance analysis of recirculation test rig

Pubblicazioni

Untersuchungskonzept zum Einfluss hoher Dehnraten auf die Zahnfußtragfähigkeit

Autori: Moritz Trippe, Jens Brimmers, Christian Brecher
Pubblicato in: 61st WZL Gear Conference, Numero Anual, 2020
Editore: WZL Gear Research Circle

Application of the Crack Growth Concept for Calculating the Lifetime of Gear Tooth Root

Autori: Johannes Loevenich, Dieter Mevissen, Christian Brecher
Pubblicato in: 63rd WZL Gear Conference, Numero Anual, 2022
Editore: WZL Gear Research Circle

Design and Simulation of a Back-to-Back Test Rig for Ultra High Cycle Fatigue Testing of Gears Under Fully Reversed Load

Autori: Johannes Loevenich, Moritz Trippe, Oscar Malinowski, Jens Brimmers, Stephan Neus, Christian Brecher
Pubblicato in: AGMA Fall Technical Meeting 2021, Numero Anual, 2021, ISBN 978-1-64353-105-2
Editore: American Gear Manufacturers Association

Tooth Bending Strength in the VHCF Area

Autori: Moritz Zalfen, Dieter Mevissen, Christian Brecher
Pubblicato in: 64th WZL Gear Conference, Numero Anual, 2023
Editore: WZL Gear Research Circle

Tooth Bending Strength in the VHCF Area

Autori: Moritz Zalfen, Dieter Mevissen, Jens Brimmers, Christian Brecher
Pubblicato in: International Design Engineering Technical Conferences and Computers and Information in Engineering Conference IDETC/CIE2023, Numero Anual, 2023, ISBN 978-0-7918-8739-4
Editore: American Society of Mechanical Engineers
DOI: 10.1115/detc2023-114467

Test Rig Concept for High-Power VHCF Gear Testing

Autori: Moritz Zalfen, Johannes Lövenich, Oscar Malinowski, Christian Brecher, Jens Brimmers, Stephan Neus, Sebastian Stark, David Krueger
Pubblicato in: International Conference on Gears 2022, Numero 12-14.9.2022, 2022, Pagina/e 485-497, ISBN 978-3-18-092389-5
Editore: VDI Wissensform GmbH

Definition of the Operating Parameters of a High Speed Back-to-Back Test Rig to Examine the Tooth Root Load Capacity

Autori: Mubarik Ahmad, Moritz Trippe, Ronnie Rego, Jens Brimmers, Christian Brecher, Thomas Bergs
Pubblicato in: The Brazilian Gear Conference ITA-WZL 2021, 2021, ISBN 978-65-594-1377-5
Editore: ITA/ CCM

Lebensdauerberechnung für Verzahnungen unter Wechsellast im Bereich sehr hoher Lastwechsel

Autori: Johannes Loevenich, Jens Brimmers, Christian Brecher
Pubblicato in: 62nd WZL Gear Conference, Numero Anual, 2021
Editore: WZL Gear Research Circle

Test Rig for Tooth Root Load Capacity Investigations and Material Model in the Area of Very High Cycle

Autori: Johannes Lövenich, Moritz Zalfen, Oscar Malinowski, Jens Brimmers, Christian Brecher
Pubblicato in: Towards Sustainable Aviation Summit, Numero 18-20.10.2022, 2022
Editore: Towards Sustainable Aviation Summit

Validation of the Calculation of Dynamic Tooth Root Stresses

Autori: Moritz Zalfen, Christian Brecher, Jens Brimmers
Pubblicato in: Proccedings of the 9th WZL Gear Conference in the USA 2022, 2022, Pagina/e 7-1 - 7-19, ISBN 978-3-00-072698-9
Editore: Apprimus Verlag

Zahnradtragfähigkeit im Ultra High Cycle Fatigue Bereich - Entwicklung eines Prüfkonzeptes

Autori: Johannes Loevenich, Jens Brimmers, Christian Brecher
Pubblicato in: 61st WZL Gear Conference, Numero Anual, 2020
Editore: WZL Gear Research Circle

Influences on the fracture mechanics life prediction for the tooth root

Autori: Johannes Loevenich, Dieter Mevissen, Christian Brecher
Pubblicato in: 64th WZL Gear Conference, Numero Anual, 2023
Editore: WZL Gear Research Circle

Definition der Betriebsparameter eines Hochdrehzahl-Verspannungsprüfstands zur Untersuchung der Zahnfußtragfähigkeit

Autori: Moritz Trippe, Jens Brimmers, Christian Brecher
Pubblicato in: 62nd WZL Gear Conference, 2021
Editore: WZL Gear Research Circle

Crack growth based tooth root life prediction model—an influence quantity analysis

Autori: Johannes Loevenich, Dieter Mevissen, Jens Brimmers, Christian Brecher
Pubblicato in: International Conference in Gears 2023, Numero 13.-15.9.2023, 2023
Editore: VDI Wissensforum

Application of the Crack Growth Concept for Calculating the Lifetime of the Gear Tooth Root

Autori: Laurenz Rotz, Johannes Lövenich
Pubblicato in: The Brazilian Gear Conference ITA-WZL 2023, Numero 18.-19.10.2023, 2023, ISBN 978-65-594-1944-9
Editore: Aeronautics Institute of Technology

Design and Simulation of a Back-to-Back Test Rig for Ultra High Cycle Fatigue Testing of Gears Under Fully Reversed Load

Autori: Johannes Lövenich, Moritz Trippe, Oscar Malinowski, Jens Brimmers, Stephan Neus, Christian Brecher
Pubblicato in: Gear technology, Numero June 2022, 2022, ISSN 0743-6858
Editore: American Gear Manufacturers Association (AGMA)
DOI: 10.18154/rwth-2022-11237

Crack growth based tooth root life prediction model - an influence quantity analysis

Autori: Johannes Loevenich, Moritz Zalfen, Dieter Mevissen, Jens Brimmers, Christian Brecher
Pubblicato in: Engineering Research - Forschung im Ingenieurwesen, 2023, ISSN 1434-0860
Editore: Springer

Untersuchungskonzept zum Einfluss hoher Dehnraten auf die Zahnfußtragfähigkeit

Autori: Moritz Trippe, Johannes Lövenich, Oscar Malinowski, Christian Brecher, Jens Brimmers, Stephan Neus
Pubblicato in: Forschung im Ingenieurwesen, Numero 85/2, 2021, Pagina/e 501-516, ISSN 0015-7899
Editore: Springer Verlag
DOI: 10.1007/s10010-021-00440-7

Design and Manufacturing Strategy of a Back-to-Back Test Rig for Investigation of Ultra High Cycle Fatigue Strength Regarding Tooth Root Strength in Aerospace Applications

Autori: Johannes Loevenich, Moritz Trippe, Jens Brimmers, Christian Brecher, S. Stark, D. Krueger
Pubblicato in: SSRN Electronic Journal, 2020, ISSN 1556-5068
Editore: 20th Machining Innovations Conference for Aerospace Industry 2020 (MIC 2020)
DOI: 10.2139/ssrn.3724213

Validation of the Calculation of Dynamic Tooth Root Stresses

Autori: Moritz Zalfen, Christian Brecher, Jens Brimmers
Pubblicato in: Power Transmission Engineering, Numero 23312491, 2022, Pagina/e 46-54, ISSN 2331-2491
Editore: American Gear Manufacturers Association

Progettazione di un banco prova back-to-back per test ad altissimo numero di cicli

Autori: Johannes Lövenich, Moritz Zalfen, Oscar Malinowski, Jens Brimmers, Christian Brecher, Stephan Neus
Pubblicato in: Organi di trasmissione, Numero 00304905, 2022, Pagina/e 36-46, ISSN 0030-4905
Editore: Tecniche Nuove Spa

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