Non-linear Viscoelastic Beams Under Periodic Strains: An Approach for Analyzing of Longitudinal Fracture

Victor Rızov

doi:10.55549/epstem.1365805

Image Presentation

Year 2023, , 143 - 150, 30.09.2023

Victor Rızov

https://doi.org/10.55549/epstem.1365805

Abstract

References

Dias, C. M. R., Savastano, Jr. H., & John, V. M. (2010). Exploring the potential of functionally graded materials concept for the development of fiber cement. Construction and Building Materials, 24, 140-146.
Fanani, E.W.A., Surojo, E., Prabowo, A. R., & Akbar, H. I. (2021). Recent progress in hybrid aluminum composite: Manufacturing and application. Metals, 11, 1919-1929.
Gandra, J., Miranda, R., Vilaca, P., Velhinho, A., & Teixeira, J.P. (2011). Functionally graded materials produced by friction stir processing. Journal of Materials Processing Technology, 211, 1659-1668.
Gururaja U., Shrikantha Rao S., & Rao Gangadharan, K. (2014). Functionally graded composite materials: An overview. Procedia Materals Science, 5, 1291-1299.

Non-linear Viscoelastic Beams Under Periodic Strains: An Approach for Analyzing of Longitudinal Fracture

Year 2023, , 143 - 150, 30.09.2023

Victor Rızov

https://doi.org/10.55549/epstem.1365805

Abstract

This work describes a longitudinal fracture analysis of beam structure of circular cross-section under periodic strains. The material whose properties vary in radial direction has non-linear viscoelastic behaviour. The beam is loaded in torsion so that the twist angle represents a periodical function. Time-dependent behaviour under periodic strains is dealt with a model having a non-linear spring and a linear dashpot. The complementary strain energy in the beam is considered to determine the strain energy release rate. The balance of energy is examined to verify the strain energy release rate. The ascendency of various parameters over strain energy release rate is assessed.

Keywords

Non-linear viscoelastic beam, Longitudinal fracture, Periodic strain

References

Dias, C. M. R., Savastano, Jr. H., & John, V. M. (2010). Exploring the potential of functionally graded materials concept for the development of fiber cement. Construction and Building Materials, 24, 140-146.
Fanani, E.W.A., Surojo, E., Prabowo, A. R., & Akbar, H. I. (2021). Recent progress in hybrid aluminum composite: Manufacturing and application. Metals, 11, 1919-1929.
Gandra, J., Miranda, R., Vilaca, P., Velhinho, A., & Teixeira, J.P. (2011). Functionally graded materials produced by friction stir processing. Journal of Materials Processing Technology, 211, 1659-1668.
Gururaja U., Shrikantha Rao S., & Rao Gangadharan, K. (2014). Functionally graded composite materials: An overview. Procedia Materals Science, 5, 1291-1299.

There are 4 citations in total.

Details

Primary Language	English
Subjects	Environmental and Sustainable Processes
Journal Section	Articles
Authors	Victor Rızov
Early Pub Date	September 25, 2023
Publication Date	September 30, 2023
Published in Issue	Year 2023

Cite

APA	Rızov, V. (2023). Non-linear Viscoelastic Beams Under Periodic Strains: An Approach for Analyzing of Longitudinal Fracture. The Eurasia Proceedings of Science Technology Engineering and Mathematics, 23, 143-150. https://doi.org/10.55549/epstem.1365805