The purpose of this research is to know the impact strength of composite structures of sengon laut sawdust. Experimental results show that the impact toughness of sandwich composite will increase as the thickness of composite sandwich skin increases. The impact failure is due mostly to the shear failure of the core. Brittle specimen failure occurs on the sandwich composites structured with skin and core manufactured with the same thickness of 5 mm. This brittle sandwich composite has a flat cross section on both sides of the fault. The shear failure of the cores occurs in samples with 2 mm thick, 3 mm, 4 mm thick, and 10 mm thick core. In some samples, the shear failure of the cores is accompanied by cracks on the core so that the sandwich composite is broken in several parts. The highest value of absorption energy and the highest impact strength is found on thick composite sandwich variation of 10 mm thick with 4 mm thickness of 2,7860 J and 0,01032 J/mm².

REFERENCES

A. S. for T. and Materials, “1998 Annual Book of ASTM Standards,” 1998.

R. F. Gibson, Principles of composite material mechanics. CRC press, 2016.

J. B. Zhong, J. Lv, and C. Wei, “Mechanical Properties of Sisal Fibre Reinforced Urea Formaldehyde Resin Composites,” Express Polym Lett, vol. 1, no. 10, pp. 681–687, 2007.

E. I. Kevin, O. M. Ochanya, A. M. Olukemi, S. T. N. Bwanhot, and I. Uche, “Mechanical Properties of Urea Formaldehyde Particle Board Composite,” American Journal of Chemical and Biochemical Engineering, vol. 2, no. 1, pp. 10–15, 2018.

K. Mylsamy and I. Rajendran, “Agave Americana Fibre Investigation on Physio-Chemical and Mechanical Properties of Raw and Alkali-Treated,” J of Reinforced Plastics and Composites, vol. 29, p. 2925, 2010.

K. Mylsamy and I. Rajendran, “Investigation on Physio-Chemical and Mechanical Properties of Raw and Alkali-Treated Agave Americana Fiber,” Journal of Reinforced Plastics and composites, vol. 29, no. 19, pp. 2925–2935, 2010.

A. Zainuri and N. H. S. N. HS, “Kekakuan Bending Eksperimen Komposit Sandwich Serat Sabut Kelapa-Matrik Polyester Dengan Core Kertas Kardus,” JURNAL ILMIAH MOMENTUM, vol. 7, no. 1, 2011.

K. Diharjo, S. Jamasri, and H. S. B. Rochardjo, “Tensile Properties of Unidirectional Continuous Kenaf Fiber Reinforced Polyester Composite,” in International Proceeding, Kentingan Physics Forum, Sebelas Maret University, Indonesia, 2005.

B. Febrianto and K. Diharjo, “Kekuatan Bending Dan Impak Komposit Hibrid Sandwich Kombinasi Serat Karung Goni Dan Serat Gelas Polyester Dengan Core Kayu Sengon Laut,” Skripsi, UNS, Surakarta, 2004.

M. Gaedke, J. Baaran, C. Goetting, and R. Rolfes, “Impact Behavior and Residual Strength of Sandwich Structural Elements under Static and Fatigue Loading,” in 19th AIAA Applied Aerodynamics Conference, 2001, p. 1222.