Development of metal-ceramic-lubricant composite coatings obtained by Cold Spray for tribological applications in the automotive industry

G. Garcin; F. Delloro; M. Jeandin; J. F. Hochepied; C. Grente; E. Bidault; S. Boutet; M. Jousset; E. Bonay; G. Rivaud; A. Denoirjean; J. C. Abry; G. Bouvard; T. Malhomme; V. Fridrici

Development of metal-ceramic-lubricant composite coatings obtained by Cold Spray for tribological applications in the automotive industry

G. Garcin
, F. Delloro
, M. Jeandin
, J. F. Hochepied
, C. Grente
, E. Bidault
, S. Boutet
, M. Jousset
, E. Bonay
, G. Rivaud
, A. Denoirjean
, J. C. Abry
, G. Bouvard
, T. Malhomme
, V. Fridrici

ENSMP
Renault
University of Limoges
Laboratoire de Tribologie et Dynamique des Systèmes

Résultats de recherche: Le chapitre dans un livre, un rapport, une anthologie ou une collection › Contribution à une conférence › Revue par des pairs

Résumé

As many transportation industries, one of the main levers of automotive industry to reduce CO₂ emissions is mass and friction reduction. One way of achieving these objectives is using efficient coatings tailored for high tribological performances, to be applied in some heavily loaded engine parts. The aim of the present work was to develop metal-ceramic-lubricant composite coatings onto steel parts, which could exhibit the best compromise between several properties, primarily wear and seizure resistance, fatigue resistance and thermal resistance. For this, metal-based coatings with addition of hard particles and solid lubricants were produced using cold spray. The relations between the resulting multi-material coating microstructure and its tribological properties were studied. To meet high tribological properties, the interfaces between the different components were optimized by selecting carefully feed-stock powders and by testing a large range of process parameters. Alumina-reinforced bronze-based composite coatings were produced using powders with different morphologies. Aggregated ceramic powders revealed to be more beneficial for wear properties compared to massive powders. Graphite was also added in order to reduce seizure.

langue originale	Anglais
titre	International Thermal Spray Conference and Exposition
Sous-titre	Versatile Surface Engineering for Environmental Solutions, ITSC 2021 - Proceedings
rédacteurs en chef	Fardad Azarmi, Xing Chen, J. Cizek, Cristian V. Cojocaru, Bertrand Jodoin, Y. Lau, Ruben Fernandez, O. Ozdemir, H. Salimi Jazi, F. Toma
Editeur	ASM International
Pages	561-568
Nombre de pages	8
ISBN (Electronique)	9781713831303
état	Publié - 1 janv. 2021
Modification externe	Oui
Evénement	2021 International Thermal Spray Conference and Exposition, ITSC 2021 - Virutal, Online Durée: 24 mai 2021 → 27 mai 2021

Série de publications

Nom	International Thermal Spray Conference and Exposition: Versatile Surface Engineering for Environmental Solutions, ITSC 2021 - Proceedings

Une conférence

Une conférence	2021 International Thermal Spray Conference and Exposition, ITSC 2021
La ville	Virutal, Online
période	24/05/21 → 27/05/21

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Lien vers la publication dans Scopus

Contient cette citation

Garcin, G., Delloro, F., Jeandin, M., Hochepied, J. F., Grente, C., Bidault, E., Boutet, S., Jousset, M., Bonay, E., Rivaud, G., Denoirjean, A., Abry, J. C., Bouvard, G., Malhomme, T., & Fridrici, V. (2021). Development of metal-ceramic-lubricant composite coatings obtained by Cold Spray for tribological applications in the automotive industry. Dans F. Azarmi, X. Chen, J. Cizek, C. V. Cojocaru, B. Jodoin, Y. Lau, R. Fernandez, O. Ozdemir, H. S. Jazi, & F. Toma (eds.), International Thermal Spray Conference and Exposition: Versatile Surface Engineering for Environmental Solutions, ITSC 2021 - Proceedings (p. 561-568). (International Thermal Spray Conference and Exposition: Versatile Surface Engineering for Environmental Solutions, ITSC 2021 - Proceedings). ASM International.

Garcin, G. ; Delloro, F. ; Jeandin, M. et al. / Development of metal-ceramic-lubricant composite coatings obtained by Cold Spray for tribological applications in the automotive industry. International Thermal Spray Conference and Exposition: Versatile Surface Engineering for Environmental Solutions, ITSC 2021 - Proceedings. Editeur / Fardad Azarmi ; Xing Chen ; J. Cizek ; Cristian V. Cojocaru ; Bertrand Jodoin ; Y. Lau ; Ruben Fernandez ; O. Ozdemir ; H. Salimi Jazi ; F. Toma. ASM International, 2021. p. 561-568 (International Thermal Spray Conference and Exposition: Versatile Surface Engineering for Environmental Solutions, ITSC 2021 - Proceedings).

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title = "Development of metal-ceramic-lubricant composite coatings obtained by Cold Spray for tribological applications in the automotive industry",

abstract = "As many transportation industries, one of the main levers of automotive industry to reduce CO2 emissions is mass and friction reduction. One way of achieving these objectives is using efficient coatings tailored for high tribological performances, to be applied in some heavily loaded engine parts. The aim of the present work was to develop metal-ceramic-lubricant composite coatings onto steel parts, which could exhibit the best compromise between several properties, primarily wear and seizure resistance, fatigue resistance and thermal resistance. For this, metal-based coatings with addition of hard particles and solid lubricants were produced using cold spray. The relations between the resulting multi-material coating microstructure and its tribological properties were studied. To meet high tribological properties, the interfaces between the different components were optimized by selecting carefully feed-stock powders and by testing a large range of process parameters. Alumina-reinforced bronze-based composite coatings were produced using powders with different morphologies. Aggregated ceramic powders revealed to be more beneficial for wear properties compared to massive powders. Graphite was also added in order to reduce seizure.",

author = "G. Garcin and F. Delloro and M. Jeandin and Hochepied, \{J. F.\} and C. Grente and E. Bidault and S. Boutet and M. Jousset and E. Bonay and G. Rivaud and A. Denoirjean and Abry, \{J. C.\} and G. Bouvard and T. Malhomme and V. Fridrici",

note = "Publisher Copyright: Copyright {\textcopyright} 2021 ASM International{\textregistered} All rights reserved.; 2021 International Thermal Spray Conference and Exposition, ITSC 2021 ; Conference date: 24-05-2021 Through 27-05-2021",

year = "2021",

month = jan,

day = "1",

language = "English",

series = "International Thermal Spray Conference and Exposition: Versatile Surface Engineering for Environmental Solutions, ITSC 2021 - Proceedings",

publisher = "ASM International",

pages = "561--568",

editor = "Fardad Azarmi and Xing Chen and J. Cizek and Cojocaru, \{Cristian V.\} and Bertrand Jodoin and Y. Lau and Ruben Fernandez and O. Ozdemir and Jazi, \{H. Salimi\} and F. Toma",

booktitle = "International Thermal Spray Conference and Exposition",

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Garcin, G, Delloro, F, Jeandin, M, Hochepied, JF, Grente, C, Bidault, E, Boutet, S, Jousset, M, Bonay, E, Rivaud, G, Denoirjean, A, Abry, JC, Bouvard, G, Malhomme, T & Fridrici, V 2021, Development of metal-ceramic-lubricant composite coatings obtained by Cold Spray for tribological applications in the automotive industry. Dans F Azarmi, X Chen, J Cizek, CV Cojocaru, B Jodoin, Y Lau, R Fernandez, O Ozdemir, HS Jazi & F Toma (eds), International Thermal Spray Conference and Exposition: Versatile Surface Engineering for Environmental Solutions, ITSC 2021 - Proceedings. International Thermal Spray Conference and Exposition: Versatile Surface Engineering for Environmental Solutions, ITSC 2021 - Proceedings, ASM International, p. 561-568, 2021 International Thermal Spray Conference and Exposition, ITSC 2021, Virutal, Online, 24/05/21.

Development of metal-ceramic-lubricant composite coatings obtained by Cold Spray for tribological applications in the automotive industry. / Garcin, G.; Delloro, F.; Jeandin, M. et al.
International Thermal Spray Conference and Exposition: Versatile Surface Engineering for Environmental Solutions, ITSC 2021 - Proceedings. Ed. / Fardad Azarmi; Xing Chen; J. Cizek; Cristian V. Cojocaru; Bertrand Jodoin; Y. Lau; Ruben Fernandez; O. Ozdemir; H. Salimi Jazi; F. Toma. ASM International, 2021. p. 561-568 (International Thermal Spray Conference and Exposition: Versatile Surface Engineering for Environmental Solutions, ITSC 2021 - Proceedings).

Résultats de recherche: Le chapitre dans un livre, un rapport, une anthologie ou une collection › Contribution à une conférence › Revue par des pairs

TY - GEN

T1 - Development of metal-ceramic-lubricant composite coatings obtained by Cold Spray for tribological applications in the automotive industry

AU - Garcin, G.

AU - Delloro, F.

AU - Jeandin, M.

AU - Hochepied, J. F.

AU - Grente, C.

AU - Bidault, E.

AU - Boutet, S.

AU - Jousset, M.

AU - Bonay, E.

AU - Rivaud, G.

AU - Denoirjean, A.

AU - Abry, J. C.

AU - Bouvard, G.

AU - Malhomme, T.

AU - Fridrici, V.

PY - 2021/1/1

Y1 - 2021/1/1

N2 - As many transportation industries, one of the main levers of automotive industry to reduce CO2 emissions is mass and friction reduction. One way of achieving these objectives is using efficient coatings tailored for high tribological performances, to be applied in some heavily loaded engine parts. The aim of the present work was to develop metal-ceramic-lubricant composite coatings onto steel parts, which could exhibit the best compromise between several properties, primarily wear and seizure resistance, fatigue resistance and thermal resistance. For this, metal-based coatings with addition of hard particles and solid lubricants were produced using cold spray. The relations between the resulting multi-material coating microstructure and its tribological properties were studied. To meet high tribological properties, the interfaces between the different components were optimized by selecting carefully feed-stock powders and by testing a large range of process parameters. Alumina-reinforced bronze-based composite coatings were produced using powders with different morphologies. Aggregated ceramic powders revealed to be more beneficial for wear properties compared to massive powders. Graphite was also added in order to reduce seizure.

AB - As many transportation industries, one of the main levers of automotive industry to reduce CO2 emissions is mass and friction reduction. One way of achieving these objectives is using efficient coatings tailored for high tribological performances, to be applied in some heavily loaded engine parts. The aim of the present work was to develop metal-ceramic-lubricant composite coatings onto steel parts, which could exhibit the best compromise between several properties, primarily wear and seizure resistance, fatigue resistance and thermal resistance. For this, metal-based coatings with addition of hard particles and solid lubricants were produced using cold spray. The relations between the resulting multi-material coating microstructure and its tribological properties were studied. To meet high tribological properties, the interfaces between the different components were optimized by selecting carefully feed-stock powders and by testing a large range of process parameters. Alumina-reinforced bronze-based composite coatings were produced using powders with different morphologies. Aggregated ceramic powders revealed to be more beneficial for wear properties compared to massive powders. Graphite was also added in order to reduce seizure.

UR - https://www.scopus.com/pages/publications/105021996082

M3 - Conference contribution

AN - SCOPUS:105021996082

T3 - International Thermal Spray Conference and Exposition: Versatile Surface Engineering for Environmental Solutions, ITSC 2021 - Proceedings

SP - 561

EP - 568

BT - International Thermal Spray Conference and Exposition

A2 - Azarmi, Fardad

A2 - Chen, Xing

A2 - Cizek, J.

A2 - Cojocaru, Cristian V.

A2 - Jodoin, Bertrand

A2 - Lau, Y.

A2 - Fernandez, Ruben

A2 - Ozdemir, O.

A2 - Jazi, H. Salimi

A2 - Toma, F.

PB - ASM International

T2 - 2021 International Thermal Spray Conference and Exposition, ITSC 2021

Y2 - 24 May 2021 through 27 May 2021

ER -

Garcin G, Delloro F, Jeandin M, Hochepied JF, Grente C, Bidault E et al. Development of metal-ceramic-lubricant composite coatings obtained by Cold Spray for tribological applications in the automotive industry. Dans Azarmi F, Chen X, Cizek J, Cojocaru CV, Jodoin B, Lau Y, Fernandez R, Ozdemir O, Jazi HS, Toma F, rédacteurs en chef, International Thermal Spray Conference and Exposition: Versatile Surface Engineering for Environmental Solutions, ITSC 2021 - Proceedings. ASM International. 2021. p. 561-568. (International Thermal Spray Conference and Exposition: Versatile Surface Engineering for Environmental Solutions, ITSC 2021 - Proceedings).

Development of metal-ceramic-lubricant composite coatings obtained by Cold Spray for tribological applications in the automotive industry

Résumé

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Une conférence

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