Protection of elastomers with DLC film: deposition, characterization and performance

Diego Martinez Martinez

Protection of elastomers with DLC film: deposition, characterization and performance

Diego Martinez Martinez

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Elastomers are materials which suffer from strong wear and cause high friction losses when subjected to dynamic contact, leading quite often to failure of the components in devices.

In this Thesis, the protection of elastomers by the deposition of carbon-based films (DLC) is studied. To accomplish that objective, an integral approach is proposed, i.e. finding correlations between deposition conditions, characteristics of the films and adhesive and tribological performance.

The deposition is performed by plasma assisted chemical vapor deposition, which is fine tuned to obtain a tailored microstructure of the films. A columnar tile-like structure is optimal for protection of this flexible substrates, and excellent frictional behavior is obtained.

Nevertheless, the viscoelastic properties of the substrate also play a decisive influence on the frictional performance of the DLC-elastomer ensemble. Therefore, the frictional behavior of DLC-coated elastomers is analyzed in detail, through dedicated experiments and theoretical evaluations, resulting in new insights and novel applications.

Originele taal-2	English
Kwalificatie	Doctor of Philosophy
Toekennende instantie	Rijksuniversiteit Groningen
Begeleider(s)/adviseur	de Hosson, Jeff, Supervisor Carvalho Gachineiro da Cunha, L.A., Supervisor, Externe Persoon
Datum van toekenning	27-jan.-2017
Plaats van publicatie	[Groningen]
Uitgever	University of Groningen
Gedrukte ISBN's	978-90-367-9484-8
Elektronische ISBN's	978-90-367-9483-1
Status	Published - 2017

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@phdthesis{a3d31b8a70f64124bf6a3fafcb0f809d,

title = "Protection of elastomers with DLC film: deposition, characterization and performance",

abstract = "Elastomers are materials which suffer from strong wear and cause high friction losses when subjected to dynamic contact, leading quite often to failure of the components in devices.In this Thesis, the protection of elastomers by the deposition of carbon-based films (DLC) is studied. To accomplish that objective, an integral approach is proposed, i.e. finding correlations between deposition conditions, characteristics of the films and adhesive and tribological performance.The deposition is performed by plasma assisted chemical vapor deposition, which is fine tuned to obtain a tailored microstructure of the films. A columnar tile-like structure is optimal for protection of this flexible substrates, and excellent frictional behavior is obtained.Nevertheless, the viscoelastic properties of the substrate also play a decisive influence on the frictional performance of the DLC-elastomer ensemble. Therefore, the frictional behavior of DLC-coated elastomers is analyzed in detail, through dedicated experiments and theoretical evaluations, resulting in new insights and novel applications.",

author = "{Martinez Martinez}, Diego",

year = "2017",

language = "English",

isbn = "978-90-367-9484-8",

publisher = "University of Groningen",

school = "University of Groningen",

}

TY - BOOK

T1 - Protection of elastomers with DLC film

T2 - deposition, characterization and performance

AU - Martinez Martinez, Diego

PY - 2017

Y1 - 2017

N2 - Elastomers are materials which suffer from strong wear and cause high friction losses when subjected to dynamic contact, leading quite often to failure of the components in devices.In this Thesis, the protection of elastomers by the deposition of carbon-based films (DLC) is studied. To accomplish that objective, an integral approach is proposed, i.e. finding correlations between deposition conditions, characteristics of the films and adhesive and tribological performance.The deposition is performed by plasma assisted chemical vapor deposition, which is fine tuned to obtain a tailored microstructure of the films. A columnar tile-like structure is optimal for protection of this flexible substrates, and excellent frictional behavior is obtained.Nevertheless, the viscoelastic properties of the substrate also play a decisive influence on the frictional performance of the DLC-elastomer ensemble. Therefore, the frictional behavior of DLC-coated elastomers is analyzed in detail, through dedicated experiments and theoretical evaluations, resulting in new insights and novel applications.

AB - Elastomers are materials which suffer from strong wear and cause high friction losses when subjected to dynamic contact, leading quite often to failure of the components in devices.In this Thesis, the protection of elastomers by the deposition of carbon-based films (DLC) is studied. To accomplish that objective, an integral approach is proposed, i.e. finding correlations between deposition conditions, characteristics of the films and adhesive and tribological performance.The deposition is performed by plasma assisted chemical vapor deposition, which is fine tuned to obtain a tailored microstructure of the films. A columnar tile-like structure is optimal for protection of this flexible substrates, and excellent frictional behavior is obtained.Nevertheless, the viscoelastic properties of the substrate also play a decisive influence on the frictional performance of the DLC-elastomer ensemble. Therefore, the frictional behavior of DLC-coated elastomers is analyzed in detail, through dedicated experiments and theoretical evaluations, resulting in new insights and novel applications.

M3 - Thesis fully internal (DIV)

SN - 978-90-367-9484-8

PB - University of Groningen

CY - [Groningen]

ER -

Protection of elastomers with DLC film: deposition, characterization and performance

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