Influence of Oxidation on Fracture Toughness of Carbon-Carbon Composites for High-Temperature Applications

Sunil Kumar B.V.; Neelakantha V. Londe; M. Lokesha; S.N. Vasantha Kumar; A.O. Surendranathan

doi:10.3221/IGF-ESIS.58.08

Influence of Oxidation on Fracture Toughness of Carbon-Carbon Composites for High-Temperature Applications

Authors

Sunil Kumar B.V. Department of Mechanical Engineering, Canara Engineering College, Mangalore, VTU, Karnataka, 574219, India. https://orcid.org/0000-0002-3115-2141
Neelakantha V. Londe Department of Mechanical Engineering, Mangalore Institute of Technology and Engineering, Moodabidri, VTU, Karnataka, 574225, India.
M. Lokesha Department of Mechanical Engineering, Mangalore Institute of Technology and Engineering, Moodabidri, VTU, Karnataka, 574225, India.
S.N. Vasantha Kumar Department of Mechanical Engineering, Canara Engineering College, Mangalore, VTU, Karnataka, 574219, India.
A.O. Surendranathan Department. of Metallurgical and Materials Engineering, NITK, Surathkal, Karnataka, 575025, India.

DOI:

https://doi.org/10.3221/IGF-ESIS.58.08

Keywords:

Carbon-Carbon Composites, Fracture Toughness, Oxidation, SENB Specimen, ASTM D5045

Abstract

Carbon-Carbon Composites (C-CC), used as composites for their remarkable qualities in the space industry as well as in many other industry sectors. C-CC has proven to be the most efficient material in extreme temperature situations. One of the best high-temperature materials with good thermal quality, such as high-temperature stability, outstanding thermal conductivity and low-temperature expansion coefficients. In aircraft, railways, trucks and even race vehicles, C-CC brake disks are in high demand. In comparison to the favorable thermal and mechanical qualities of C-CC, their great sensitivity to oxidation in an oxidizing environment at temperatures even around 400°C is a major restriction with these composites. In particular, a study of the C-CC oxidation mechanism helps to create protective measures for these composites. The present experimental study explores the influence of oxidation in static air on the fracture toughness of C-CC. At a temperature of around 400°C to 700°C in an increase of 100°C, an oxidation evaluation of the material was carried out in static air. Results show a decrease in fracture toughness to increase in the temperature. We can observe that C-CC fracture toughness is severely affected by oxidation. The variation began at 400°C from 6% and was anticipated at 700°C up to 45%.

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Author Biographies

Neelakantha V. Londe, Department of Mechanical Engineering, Mangalore Institute of Technology and Engineering, Moodabidri, VTU, Karnataka, 574225, India.

Professor, Department of Mechanical Engineering, Mangalore Institute of Technology and Engineering, Moodabidri, VTU, Karnataka, 574225, India.
M. Lokesha, Department of Mechanical Engineering, Mangalore Institute of Technology and Engineering, Moodabidri, VTU, Karnataka, 574225, India.

Professor, Department of Mechanical Engineering, Mangalore Institute of Technology and Engineering, Moodabidri, VTU, Karnataka, 574225, India.
S.N. Vasantha Kumar, Department of Mechanical Engineering, Canara Engineering College, Mangalore, VTU, Karnataka, 574219, India.

Assistant Professor, Department of Mechanical Engineering, Canara Engineering College, Mangalore, VTU, Karnataka, 574219, India.
A.O. Surendranathan, Department. of Metallurgical and Materials Engineering, NITK, Surathkal, Karnataka, 575025, India.

Professor, Department. of Metallurgical and Materials Engineering, NITK, Surathkal, Karnataka, 575025, India.

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Published

25-09-2021

Issue

Vol. 15 No. 58 (2021): October 2021

Section

Fracture

License

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How to Cite

Influence of Oxidation on Fracture Toughness of Carbon-Carbon Composites for High-Temperature Applications. (2021). Frattura Ed Integrità Strutturale, 15(58), 105-113. https://doi.org/10.3221/IGF-ESIS.58.08