DLC-treated aramid-fibre composites: Tailoring nanoscale-coating for macroscale performance

Mikko Kanerva; S. Korkiakoski; K. Lahtonen; Jarno Jokinen; Essi Sarlin; Sarianna Palola; A. Iyer; Pekka Laurikainen; X.W. Liu; M. Raappana; Mika Walden

doi:10.1016/j.compscitech.2018.11.043

DLC-treated aramid-fibre composites: Tailoring nanoscale-coating for macroscale performance

Mikko Kanerva, S. Korkiakoski, K. Lahtonen, Jarno Jokinen, Essi Sarlin, Sarianna Palola, A. Iyer, Pekka Laurikainen, X.W. Liu, M. Raappana, Mika Walden

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Tampere University

Research output: Contribution to journal › Article › Scientific › peer-review

16 Citations (Scopus)

Abstract

This work aims to quantify the effect of a diamond-like carbon coating (DLC) treatment of aramid fibres and to reveal the conversion of a fibre-level performance leap on the macroscale mechanical behaviour. The DLC-based coating is applied directly to the reinforcement and laminates are infused with an epoxy matrix. After characterisation of the coated surfaces, the performance of the composite is analysed via interlaminar shear testing, fatigue testing and damage tolerance testing, microbond tests, and 3D finite element simulation using a cohesive zone model of the interface. The results show that the coating treatment improves the fatigue life and the S-N curve slope for the laminates, while the residual strength after impact damage and environmental conditioning (water immersion at 60 °C) remains high. The scaling factor to convert the performance on macroscale was determined to be 0.17–0.39 for the DLC-based fibre treatment.

Original language	English
Pages (from-to)	62-69
Number of pages	8
Journal	Composites Science and Technology
Volume	171
DOIs	https://doi.org/10.1016/j.compscitech.2018.11.043
Publication status	Published - 8 Feb 2019
MoE publication type	A1 Journal article-refereed

Keywords

Aramid fibre
Damage tolerance
Finite element analysis (FEA)
Interfacial strength
Photoelectron spectroscopy (XPS)

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10.1016/j.compscitech.2018.11.043

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title = "DLC-treated aramid-fibre composites: Tailoring nanoscale-coating for macroscale performance",

abstract = "This work aims to quantify the effect of a diamond-like carbon coating (DLC) treatment of aramid fibres and to reveal the conversion of a fibre-level performance leap on the macroscale mechanical behaviour. The DLC-based coating is applied directly to the reinforcement and laminates are infused with an epoxy matrix. After characterisation of the coated surfaces, the performance of the composite is analysed via interlaminar shear testing, fatigue testing and damage tolerance testing, microbond tests, and 3D finite element simulation using a cohesive zone model of the interface. The results show that the coating treatment improves the fatigue life and the S-N curve slope for the laminates, while the residual strength after impact damage and environmental conditioning (water immersion at 60 °C) remains high. The scaling factor to convert the performance on macroscale was determined to be 0.17–0.39 for the DLC-based fibre treatment.",

keywords = "Aramid fibre, Damage tolerance, Finite element analysis (FEA), Interfacial strength, Photoelectron spectroscopy (XPS)",

author = "Mikko Kanerva and S. Korkiakoski and K. Lahtonen and Jarno Jokinen and Essi Sarlin and Sarianna Palola and A. Iyer and Pekka Laurikainen and X.W. Liu and M. Raappana and Mika Walden",

note = "Funding Information: This investigation was funded by a grant from the Finnish Metals and Engineering Competence Cluster (FIMECC HYBRIDS) and by the HISCON ( 259595 ) project from Academy of Finland . Authors acknowledge Kevra Oy and researchers H. Niemel{\"a}-Anttonen and M. Kakkonen for assistance with experimental activities. Publisher Copyright: {\textcopyright} 2018 The Authors",

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doi = "10.1016/j.compscitech.2018.11.043",

language = "English",

volume = "171",

pages = "62--69",

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T1 - DLC-treated aramid-fibre composites: Tailoring nanoscale-coating for macroscale performance

AU - Kanerva, Mikko

AU - Korkiakoski, S.

AU - Lahtonen, K.

AU - Jokinen, Jarno

AU - Sarlin, Essi

AU - Palola, Sarianna

AU - Iyer, A.

AU - Laurikainen, Pekka

AU - Liu, X.W.

AU - Raappana, M.

AU - Walden, Mika

N1 - Funding Information: This investigation was funded by a grant from the Finnish Metals and Engineering Competence Cluster (FIMECC HYBRIDS) and by the HISCON ( 259595 ) project from Academy of Finland . Authors acknowledge Kevra Oy and researchers H. Niemelä-Anttonen and M. Kakkonen for assistance with experimental activities. Publisher Copyright: © 2018 The Authors

PY - 2019/2/8

Y1 - 2019/2/8

N2 - This work aims to quantify the effect of a diamond-like carbon coating (DLC) treatment of aramid fibres and to reveal the conversion of a fibre-level performance leap on the macroscale mechanical behaviour. The DLC-based coating is applied directly to the reinforcement and laminates are infused with an epoxy matrix. After characterisation of the coated surfaces, the performance of the composite is analysed via interlaminar shear testing, fatigue testing and damage tolerance testing, microbond tests, and 3D finite element simulation using a cohesive zone model of the interface. The results show that the coating treatment improves the fatigue life and the S-N curve slope for the laminates, while the residual strength after impact damage and environmental conditioning (water immersion at 60 °C) remains high. The scaling factor to convert the performance on macroscale was determined to be 0.17–0.39 for the DLC-based fibre treatment.

AB - This work aims to quantify the effect of a diamond-like carbon coating (DLC) treatment of aramid fibres and to reveal the conversion of a fibre-level performance leap on the macroscale mechanical behaviour. The DLC-based coating is applied directly to the reinforcement and laminates are infused with an epoxy matrix. After characterisation of the coated surfaces, the performance of the composite is analysed via interlaminar shear testing, fatigue testing and damage tolerance testing, microbond tests, and 3D finite element simulation using a cohesive zone model of the interface. The results show that the coating treatment improves the fatigue life and the S-N curve slope for the laminates, while the residual strength after impact damage and environmental conditioning (water immersion at 60 °C) remains high. The scaling factor to convert the performance on macroscale was determined to be 0.17–0.39 for the DLC-based fibre treatment.

KW - Aramid fibre

KW - Damage tolerance

KW - Finite element analysis (FEA)

KW - Interfacial strength

KW - Photoelectron spectroscopy (XPS)

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DO - 10.1016/j.compscitech.2018.11.043

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SN - 0266-3538

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EP - 69

JO - Composites Science and Technology

JF - Composites Science and Technology

ER -

DLC-treated aramid-fibre composites: Tailoring nanoscale-coating for macroscale performance

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Keywords

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