Multi-Scale Modeling of 2D and 3D Carbon/Carbon Composites: A Review

Authors

  • Lohithkumar J. Kondapura Assistant Professor, Department of Industrial Engineering Acharya Institute of Technology, Bengaluru – 560109, India
  • Kalburgi Bharath Assistant Professor, of Mechanical Engineering , R R Institute of Technology, Bengaluru – 560090, India
  • Dr. Arulmani Associate Professor , Department of Mechanical Engineering R R Institute of Technology, Bengaluru – 560 090, India

Keywords:

Carbon-Carbon composites, elastic properties, multi-scale modeling

Abstract

In the present scenario composite materials have found wide verity of applications in the field of aerospace. There are many different types of composite which are used for different applications. Carbon fiber carbon matrix composites are used in high temperature applications. C/C composites can withstand a temperature of up to 2500K It is also very important to know mechanical properties of these C/C composites. In this work, different papers have been studied to understand the different modeling methods for finding the mechanical properties of 2D and 3D C/C composites. 2D C/C composites have good properties in only two directions such as x and y directions but not in z-direction, whereas 3D composites possess good properties in all the three directions. In this paper importance has been given to strength and stiffness of C/C composites. Finally it is found out that there are lots of papers which talk about elastic properties and damage modeling of 2D and 3D orthogonal composites. There are very limited papers available for analysis of mechanical properties and damage modeling of 3D woven composites.

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Published

10-06-2019

How to Cite

Lohithkumar J. Kondapura, Kalburgi Bharath, & Dr. Arulmani. (2019). Multi-Scale Modeling of 2D and 3D Carbon/Carbon Composites: A Review. International Journal of Management Studies (IJMS), 6(Spl Issue 9), 81–85. Retrieved from https://researchersworld.com/index.php/ijms/article/view/2219

Issue

Vol. 6 No. Spl Issue 9 (2019)

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Articles

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Copyright (c) 2019 ERM Publications, India