EXPERIMENTAL DESIGN FOR BENDING STRENGTH ALUMINUM HONEYCOMB STRUCTURE

Harun Akkuş; Hayrettin Düzcükoğlu; Ömer Sinan Şahin

EXPERIMENTAL DESIGN FOR BENDING STRENGTH ALUMINUM HONEYCOMB STRUCTURE

Abstract

In this study, a Taguchi model was formed for the three point bending test behaviors of aluminum honeycomb composite structures. Effect of the three independent variables (cell width, cell height and adhesive) on the dependent variable (bending forces) was determined using mix design L16(4*1 2*2) orthogonal series. As a result of the experiments, bending force values were measured. As a result of Taguchi analysis according to 'better than most' solution approach, bending force value was concluded to be optimum with the use of 58.59 S/N ratio A1 B2 C1 level namely, primary 6.78 mm for cell width and secondary 30 mm for cell height and primary epoxy adhesive. Order of importance according to S/N answer table for force factor was ordered as cell width, cell height and adhesive. 95% was significant for the force values of the factor and levels selected in ANOVA results.

Keywords

References

[1] Lu C., Zhao M., Jie L., Wang J., Gao Y., Cui X., Chen P., (2015) Stress distribution on composite honeycomb sandwich structure suffered from bending load, Procedia Engineering, 99, 405-412.
[2] Akatay A., Bora M.Ö., Coban O., Fidan S., Tuna V., (2015) The influence of low velocity repeated impacts on residual compressive properties of honeycomb sandwich structures, Composite Structures, 125, 425-433.
[3] Liu L., Wang H., Guan Z., (2015) Experimental and numerical study on the mechanical response of Nomex honeycomb core under transverse loading, Composite Structures, 121, 304-314.
[4] Crupi V., Epasto G., Guglielmino E., (2012) Collapse modes in aluminium honeycomb sandwich panels under bending and impact loading, International Journal of Impact Engineering, 43, 6-15.
[5] Nia A.A., Sadeghi M.Z., (2010) The effects of foam filling on compressive response of hexagonal cell aluminum honeycombs under axial loading-experimental study, Materials and Design, 31, 1216-1230.
[6] Kılıcarslan C., Guden M., Odacı I.K., Tasdemirci A., (2013) The impact responses and the finite element modeling of layered trapezoidal corrugated aluminum core and aluminum sheet interlayer sandwich structures, Materials and Design, 46, 121-133.
[7] Solmaz M.Y., Kaman M.O., Tura K., Turgut A., (2010) Investigation of Bending Behaviors of Honeycomb Sandwich Panels, Fırat Univ. Journal of Enginering, 22, 1-11.
[8] Abbadi A., Tixier C., Gilgert J., Azari Z., (2015) Experimental study on the fatigue behaviour of honeycomb sandwich panels with artificial defects, Composite Structures, 120, 394-405.

Details

Primary Language

English

Subjects

Engineering

Journal Section

Research Article

Authors

Harun Akkuş This is me
Türkiye

Hayrettin Düzcükoğlu This is me
Türkiye

Ömer Sinan Şahin This is me
Türkiye

Publication Date

December 1, 2016

Submission Date

April 22, 2016

Acceptance Date

September 23, 2016

Published in Issue

Year 2016 Volume: 34 Number: 4

IZ

https://izlik.org/JA77WP62BP

Cite

RIS / Bibtex

APA

Akkuş, H., Düzcükoğlu, H., & Şahin, Ö. S. (2016). EXPERIMENTAL DESIGN FOR BENDING STRENGTH ALUMINUM HONEYCOMB STRUCTURE. Sigma Journal of Engineering and Natural Sciences, 34(4), 555-561. https://izlik.org/JA77WP62BP

AMA

1.Akkuş H, Düzcükoğlu H, Şahin ÖS. EXPERIMENTAL DESIGN FOR BENDING STRENGTH ALUMINUM HONEYCOMB STRUCTURE. SIGMA. 2016;34(4):555-561. https://izlik.org/JA77WP62BP

Chicago

Akkuş, Harun, Hayrettin Düzcükoğlu, and Ömer Sinan Şahin. 2016. “EXPERIMENTAL DESIGN FOR BENDING STRENGTH ALUMINUM HONEYCOMB STRUCTURE”. Sigma Journal of Engineering and Natural Sciences 34 (4): 555-61. https://izlik.org/JA77WP62BP.

EndNote

Akkuş H, Düzcükoğlu H, Şahin ÖS (December 1, 2016) EXPERIMENTAL DESIGN FOR BENDING STRENGTH ALUMINUM HONEYCOMB STRUCTURE. Sigma Journal of Engineering and Natural Sciences 34 4 555–561.

IEEE

[1]H. Akkuş, H. Düzcükoğlu, and Ö. S. Şahin, “EXPERIMENTAL DESIGN FOR BENDING STRENGTH ALUMINUM HONEYCOMB STRUCTURE”, SIGMA, vol. 34, no. 4, pp. 555–561, Dec. 2016, [Online]. Available: https://izlik.org/JA77WP62BP

ISNAD

Akkuş, Harun - Düzcükoğlu, Hayrettin - Şahin, Ömer Sinan. “EXPERIMENTAL DESIGN FOR BENDING STRENGTH ALUMINUM HONEYCOMB STRUCTURE”. Sigma Journal of Engineering and Natural Sciences 34/4 (December 1, 2016): 555-561. https://izlik.org/JA77WP62BP.

JAMA

1.Akkuş H, Düzcükoğlu H, Şahin ÖS. EXPERIMENTAL DESIGN FOR BENDING STRENGTH ALUMINUM HONEYCOMB STRUCTURE. SIGMA. 2016;34:555–561.

MLA

Akkuş, Harun, et al. “EXPERIMENTAL DESIGN FOR BENDING STRENGTH ALUMINUM HONEYCOMB STRUCTURE”. Sigma Journal of Engineering and Natural Sciences, vol. 34, no. 4, Dec. 2016, pp. 555-61, https://izlik.org/JA77WP62BP.

Vancouver

1.Harun Akkuş, Hayrettin Düzcükoğlu, Ömer Sinan Şahin. EXPERIMENTAL DESIGN FOR BENDING STRENGTH ALUMINUM HONEYCOMB STRUCTURE. SIGMA [Internet]. 2016 Dec. 1;34(4):555-61. Available from: https://izlik.org/JA77WP62BP