Blucher Engineering Proceedings

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

DEVELOPMENT OF POLYESTER COMPOSITE FOR DLC COATING ON WIND TURBINE BLADES

DEVELOPMENT OF POLYESTER COMPOSITE FOR DLC COATING ON WIND TURBINE BLADES

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

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"The exponential growth of clean energy around the world is being studiedmainly out of concern for maintaining the sustainability and health of the planet. In thiscontext we can observe a large investment in wind energy where it ends up sufferingperformance and maintenance losses due to the wear on the wind blades due to thedegradation of suspended particles. This paper proposes a solution to mitigate oreliminated the wind blades degradation by production of a composite that simulatesthose used in wind turbine companies compound by polymeric resin and fiber glasscovered with Diamond-Like Carbon (DLC) film. The study then took into considerationa way to solve such problems using the production of a polymeric composite thatsimulates those used in wind turbine companies in material and in the form ofdevelopment, after this a film of Diamond Like Carbon (DLC) was deposited, DLC filmmay elevate a material that has high hardness, mechanical properties and corrosionresistance enlarging the wind blades lifetime. "

"The exponential growth of clean energy around the world is being studiedmainly out of concern for maintaining the sustainability and health of the planet. In thiscontext we can observe a large investment in wind energy where it ends up sufferingperformance and maintenance losses due to the wear on the wind blades due to thedegradation of suspended particles. This paper proposes a solution to mitigate oreliminated the wind blades degradation by production of a composite that simulatesthose used in wind turbine companies compound by polymeric resin and fiber glasscovered with Diamond-Like Carbon (DLC) film. The study then took into considerationa way to solve such problems using the production of a polymeric composite thatsimulates those used in wind turbine companies in material and in the form ofdevelopment, after this a film of Diamond Like Carbon (DLC) was deposited, DLC filmmay elevate a material that has high hardness, mechanical properties and corrosionresistance enlarging the wind blades lifetime. "

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DOI: 10.5151/siintec2024-389415

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Como citar:

Ramos Junior, Carlos Eduardo Alves; Chagas, Murilo Carneiro; Matos, Stephanie Barbosa da Silva; Lima, Nailton dos Santos; Nunes, Jacson Machado; Almeida, Kalil Figueiredo; Barreto, Oliver Silva Costa; Souza, Nilmar de; Lora, Fábio André; Trava-Airoldi, Vladimir Jesus; Damm, Djoille Denner; "DEVELOPMENT OF POLYESTER COMPOSITE FOR DLC COATING ON WIND TURBINE BLADES", p-408-415. In: . São Paulo: Blucher, 2024.
ISSN 23577592, DOI 10.5151/siintec2024-389415

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