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The Journal of Adhesion Volume 78, 2002 - Issue 2
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Original Articles

Effects of the temperature, humidity, and stress on the interlaminar interface of carbon fiber polymer-matrix composites, studied by contact electrical resistivity measurement

Shoukai Wang Composite Materials Research Laboratory, The State University of New York, University at Buffalo, Buffalo, USA
,
Daniel P. Kowalik Composite Materials Research Laboratory, The State University of New York, University at Buffalo, Buffalo, USA
&
D. D. L. Chung Composite Materials Research Laboratory, The State University of New York, University at Buffalo, Buffalo, USA
Pages 189-200 | Published online: 08 Sep 2010

Citations (23)

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A. Kotrotsos, A. Vavouliotis, S. Tsantzalis & V. Kostopoulos. (2014) Effect of CNT modified matrix of epoxy CFRPs on hydrothermal behaviour of material. Evaluation of water uptake using electrical resistance measurements. Plastics, Rubber and Composites 43:4, pages 122-129.
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Articles from other publishers (22)

Tomoyoshi Horie, Rikuto Miyake, Yoshikazu Tanaka, Nobuyuki Kamihara, Daiki Matsuyama, Kiyoka Takagi & Mikio Muraoka. (2024) Resistivity model of carbon fiber cloth considering the effect of interlayer contact resistance. Composites Part A: Applied Science and Manufacturing 183, pages 108232.
Crossref
Yousong Xue, Zhiyong Li, Shuwei Huang, Xin Xu, Jun Ding, Bohong Gu & Baozhong Sun. (2024) Micro contact modeling of electrical current conduction behavior between carbon fiber yarns. Composites Science and Technology 251, pages 110587.
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Amir A.E. Elseady, Yan Zhuge, Xing Ma, Christopher W.K. Chow, Ivan Lee, Junjie Zeng & Nima Gorjian. (2024) Development of self-sensing cementitious composites by incorporating a two-dimensional carbon-fibre textile network for structural health monitoring. Construction and Building Materials 415, pages 135049.
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D.D.L. Chung. 2023. Encyclopedia of Sensors and Biosensors. Encyclopedia of Sensors and Biosensors 196 203 .
Stephan Becker, Marc Michel, Peter Mitschang & Miro Duhovic. (2022) Influence of polymer matrix on the induction heating behavior of CFRPC laminates. Composites Part B: Engineering 231, pages 109561.
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Roberto Cescato, Daniele Rigotti, Haroon Mahmood, Andrea Dorigato & Alessandro Pegoretti. (2021) Thermal Mending of Electroactive Carbon/Epoxy Laminates Using a Porous Poly(ε-caprolactone) Electrospun Mesh. Polymers 13:16, pages 2723.
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Riccardo Costan Zovi, Haroon Mahmood, Andrea Dorigato, Giulia Fredi & Alessandro Pegoretti. (2020) Cyclic Olefin Copolymer Interleaves for Thermally Mendable Carbon/Epoxy Laminates. Molecules 25:22, pages 5347.
Crossref
D. D. L. Chung. (2020) A critical review of piezoresistivity and its application in electrical-resistance-based strain sensing. Journal of Materials Science 55:32, pages 15367-15396.
Crossref
N. Forintos & T. Czigany. (2020) Reinforcing carbon fibers as sensors: The effect of temperature and humidity. Composites Part A: Applied Science and Manufacturing 131, pages 105819.
Crossref
Mridusmita Roy Choudhury & Kishore Debnath. (2019) A review of the research and advances in electromagnetic joining of fiber‐reinforced thermoplastic composites. Polymer Engineering & Science 59:10, pages 1965-1985.
Crossref
Ahmed Al-Sabagh, Eman Taha, Usama Kandil, Ahmed Awadallah, Gamal-abdelnaser Nasr & Mahmoud Reda Taha. (2017) Monitoring Moisture Damage Propagation in GFRP Composites Using Carbon Nanoparticles. Polymers 9:12, pages 94.
Crossref
William C. Wilson, Jason P. Moore & Peter D. Juarez. (2016) Remote strain sensing of CFRP using microwave frequency domain reflectometry. Remote strain sensing of CFRP using microwave frequency domain reflectometry.
A. Kotrotsos, A. Vavouliotis, T. Loutas & V. Kostopoulos. (2014) The Effect of CNT ‐modified matrix of cyanate ester CFRP s on the hydrothermal behavior of the material. Evaluation of the water uptake using electrical resistance measurements . Polymer Composites 37:4, pages 1072-1077.
Crossref
G. Gkikas, D.-D. Douka, N.-M. Barkoula & A.S. Paipetis. (2015) Nano-enhanced composite materials under thermal shock and environmental degradation: A durability study. Composites Part B: Engineering 70, pages 206-214.
Crossref
S.A. Grammatikos, E.Z. Kordatos, T.E. Matikas, C. David & A.S. Paipetis. (2014) Current injection phase thermography for low-velocity impact damage identification in composite laminates. Materials & Design 55, pages 429-441.
Crossref
Nektaria-Marianthi Barkoula. 2013. Carbon Nanotube Enhanced Aerospace Composite Materials. Carbon Nanotube Enhanced Aerospace Composite Materials 337 376 .
N. M. Barkoula, A. Paipetis, T. Matikas, A. Vavouliotis, P. Karapappas & V. Kostopoulos. (2009) Environmental degradation of carbon nanotube-modified composite laminates: a study of electrical resistivity. Mechanics of Composite Materials 45:1, pages 21-32.
Crossref
Daojun Wang & D D L Chung. (2007) Through-thickness stress sensing of a carbon fiber polymer–matrix composite by electrical resistance measurement. Smart Materials and Structures 16:4, pages 1320-1330.
Crossref
T.J. Ahmed, D. Stavrov, H.E.N. Bersee & A. Beukers. (2006) Induction welding of thermoplastic composites—an overview. Composites Part A: Applied Science and Manufacturing 37:10, pages 1638-1651.
Crossref
D.D.L. ChungShoukai Wang. (2003) Self-sensing of Damage and Strain in Carbon Fiber Polymer-Matrix Structural Composites by Electrical Resistance Measurement. Polymers and Polymer Composites 11:7, pages 515-525.
Crossref
A. Fosbury, Shoukai Wang, Y.F. Pin & D.D.L. Chung. (2003) The interlaminar interface of a carbon fiber polymer-matrix composite as a resistance heating element. Composites Part A: Applied Science and Manufacturing 34:10, pages 933-940.
Crossref
Deborah D. L. ChungDeborah D. L. Chung. 2003. Composite Materials. Composite Materials 253 284 .

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