Blucher Engineering Proceedings

Dezembro 2024, vol.11, num.2 - X Simpósio Internacional de Inovação e Tecnologia
Full Article - Open Access Idioma principal | Segundo principal

TOOL STEEL ALLOY SELECTION FOR DLC DEPOSITION APPLIED TO GEARBOX COMPONENTS

TOOL STEEL ALLOY SELECTION FOR DLC DEPOSITION APPLIED TO GEARBOX COMPONENTS

Medeiros, Keila Machado de; Trava-Airoldi, Vladimir Jesus; Damm, Djoille Denner; Chagas, Murilo Carneiro; Ramos Junior, Carlos Eduardo Alves; Matos, Stephanie Barbosa da Silva; Lima, Nailton dos Santos; Nunes, Jacson Machado; Almeida, Kalil Figueiredo; Barreto, Óliver Silva Costa; Lora, Fábio André

Full Article:

"The objective of this article is to evaluate and select a steel alloy for DLC(Diamond-Like Carbon) coating in wind turbine gearboxes, aiming to improve theirdurability and wear resistance. The methodology involves collecting and analyzing thechemical and mechanical properties of the M2, D6, 1045, H13, and O1 alloys, alongwith a price survey. The selected alloy, based on the best cost-benefit ratio, was coatedwith DLC using PECVD. Results showed that the D6 alloy has the best combination ofchemical and mechanical properties, excelling in wear and corrosion resistance,making it the most suitable for application in wind turbine gearboxes. Ramanspectroscopic analysis of the DLC coating indicated a good quality structure."

"The objective of this article is to evaluate and select a steel alloy for DLC(Diamond-Like Carbon) coating in wind turbine gearboxes, aiming to improve theirdurability and wear resistance. The methodology involves collecting and analyzing thechemical and mechanical properties of the M2, D6, 1045, H13, and O1 alloys, alongwith a price survey. The selected alloy, based on the best cost-benefit ratio, was coatedwith DLC using PECVD. Results showed that the D6 alloy has the best combination ofchemical and mechanical properties, excelling in wear and corrosion resistance,making it the most suitable for application in wind turbine gearboxes. Ramanspectroscopic analysis of the DLC coating indicated a good quality structure."

Download (PDF)

Palavras-chave: - -

DOI: 10.5151/siintec2024-388964

Referências bibliográficas
  • [1] "1 IRENA. Renewable Capacity Statistics 2024. Available at: <
  • [2] https://www.irena.org/News/pressreleases/2024/Mar/Record-Growth-in-Renewablesbut-Progress-Needs-to-be-Equitable-PT>. Accessed on: 03 May. 2024.
  • [3] 2 ARAUJO, Thiago Ticiano Aires de. Operação, manutenção e análise de falhas
  • [4] em aerogeradores. 2022.
  • [5] 3 DA SILVA, Francimário Bruno; DE OLIVEIRA, Me Anderson Carlos. Potenciais
  • [6] tecnologias da indústria 4.0 no setor de energia eólica: uma revisão literária. 2021.
  • [7] 4 BAI, Mingwen et al. Mechanical and tribological properties of Si and W doped
  • [8] diamond like carbon (DLC) under dry reciprocating sliding conditions. Wear, v. 484, p.
  • [9] 204046, 2021.
  • [10] 5 ZIA, Abdul Wasy; BIRKETT, Martin. Deposition of diamond-like carbon
  • [11] coatings: Conventional to non-conventional approaches for emerging markets.
  • [12] Ceramics International, v. 47, n. 20, p. 28075-28085, 2021.
  • [13] 6 HUANG, Biao et al. Effect of deposition temperature on the microstructure and
  • [14] tribological properties of Si-DLC coatings prepared by PECVD. Diamond and Related
  • [15] Materials, v. 129, p. 109345, 2022.
  • [16] 7 CAPOTE, A. et al. Effect of low-pressure deposition on the mechanical and
  • [17] tribological properties of aC: H films deposited via modified pulsed-DC PECVD with
  • [18] active screen as an additional cathode. Surface and Coatings Technology, v. 445, p.
  • [19] 128716, 2022.
  • [20] 8 LIU, Zhengyu et al. Simultaneous deposition of DLC film on the internal surface
  • [21] of multiple pipes. Diamond and Related Materials, v. 127, p. 109187, 2022.
  • [22] 9 AÇOS MURANO. Available at:
  • [23] <https://www.acosmurano.com.br/produtos/acos-ferramenta> Accessed on: 07 May.
  • [24] 2024.
  • [25] 10 AÇOS NOBRE. Available at: <https://acosnobre.com.br/acos-e-ferros/>
  • [26] Accessed on: 07 May. 2024.
  • [27] 11 INFOMET. Available at: <https://www.infomet.com.br/site/acos-e-ligas.php>
  • [28] Accessed on: 07 May. 2024.
  • [29] 12 ASTMSTEEL. Available at: < https://www.astmsteel.com/tool-steel/> Accessed
  • [30] on: 07 May. 2024.
  • [31] 13 VIRAT. Available at: <https://www.viratsteels.com/products.html> Accessed on:
  • [32] 07 May. 2024.
  • [33] 14 MATWEB. Available at: <https://www.matweb.com/search/search.aspx>
  • [34] Accessed on: 07 May. 2024.
  • [35] 15 GERDAU. Available at: <https://mais.gerdau.com.br/cotacao/> Accessed on:
  • [36] 07 May. 2024.
  • [37] 16 LI, C.; HUANG, L.; YUAN, J. Effect of sp3 Content on Adhesion and Tribological
  • [38] Properties of Non-Hydrogenated DLC Films. Materials, v. 13, n. 8, p. 1911, 2020. DOI:
  • [39] https://doi.org/10.3390/ma13081911."
Como citar:

Medeiros, Keila Machado de; Trava-Airoldi, Vladimir Jesus; Damm, Djoille Denner; Chagas, Murilo Carneiro; Ramos Junior, Carlos Eduardo Alves; Matos, Stephanie Barbosa da Silva; Lima, Nailton dos Santos; Nunes, Jacson Machado; Almeida, Kalil Figueiredo; Barreto, Óliver Silva Costa; Lora, Fábio André; "TOOL STEEL ALLOY SELECTION FOR DLC DEPOSITION APPLIED TO GEARBOX COMPONENTS", p-392-399. In: . São Paulo: Blucher, 2024.
ISSN 23577592, DOI 10.5151/siintec2024-388964

últimos 30 dias

97
downloads

127
visualizações

314
indexações