Abstrak

Indonesia merupakan negara yang rentan terhadap bencana gempa bumi. Banyak rumah atau gedung di Indonesia dibangun dengan menggunakan material beton bertulang. Kerusakan geser pada elemen beton bertulang tersebut sangat berbahaya, hal ini dikarenakan kerusakan ini terjadi secara tiba-tiba dan biasanya terjadi secara eksplosif. Analisis nonlinier elemen hingga tiga dimensi balok beton memadat mandiri dan beton mutu tinggi dengan pemadatan mekanis dilakukan dengan software MSC Marc/Mentat. Baja dimodelkan dengan tertanam di beton. Kriteria kegagalan Linier Mohr-Coulomb digunakan untuk beton dan Von Mises untuk baja tulangan. Hasil kurva hubungan beban-lendutan untuk kedua balok beton memadat mandiri dan beton mutu tinggi pemadatan mekanis hampir sama dengan hasil kurva eksperimen di daerah elastic, namun setelah melewati fase elastik, kurva analisis berbeda sedikit dengan kurva eksperimen. Hasil analisis teoritis kekuatan beton hampir sama dengan hasil analisis elemen hingga balok beton tanpa tulangan. Hasil analisis kontak juga memperlihatkan terjadi kontak dan perlepasan pada bidang kontak baja tumpuan beban dan tumpuan balok dengan beton.

Kata kunci: beton memadat mandiri, mutu tinggi, elemen hingga, MSC Marc/Mentat

Abstract

Indonesia is a country that is prone to earthquakes. Many houses or buildings in Indonesia are built using reinforced concrete material. Shear damage to reinforced concrete elements is very dangerous, because this damage occurs suddenly and usually occurs explosively. The nonlinear three-dimensional finite element analysis of self-compacting concrete beam and high strength concrete beam by mechanical compaction were carried out using the MSC Marc/Mentat software. Steel is modeled by being embedded in concrete. The Mohr-Coulomb Linear failure criterion is used for concrete and Von Mises for reinforcing steel. The results of the load- deflection curves for both self-compacting and mechanical compaction high-strength concrete beams are almost the same as those of the experimental curves in the elastic area, after elasticity, the analysis curve differs slightly from the experimental curve. The results of the theoretical analysis of the strength of the concrete are almost the same as the results of the analysis of the finite element concrete beams without reinforcement. The results of the contact analysis also showed that there was contact and detachment in the contact area of the load bearing steel and the beam support with the concrete.

Keywords: self-compacting concrete, high strength, finite element, MSC Marc/Mentat

Ahmad, S., Umar, A. and Masood, A, 2017. Properties of normal concrete, self-compacting concrete and glass fibre-reinforced self-compacting concrete: an experimental study. Procedia engineering. Elsevier, 173, pp. 807–813.

Effendi, M. K, 2020. Study on Non-Linear Flexural Behavior of Reinforced Concrete Beams Using MSC MARC/MENTAT by Embedded Reinforcement Modeling. in Journal of the Civil Engineering Forum.

Harkouss, R. H. and Hamad, B. S, 2015. Performance of high strength self-compacting concrete beams under different modes of failure. International Journal of Concrete Structures and Materials. Springer, 9(1), pp. 69–88.

Kachlakev, D. I. et al, 2001. Finite element modeling of reinforced concrete structures strengthened with FRP laminates. Oregon. Dept. of Transportation. Research Group.

Marc, M. S. C, 2010. Volume A: Theory and user information. MSC. Software Corporation.

Marc, M. S. C, 2012. Volume B: Element Library, MSC. Software Corporation.

Okamura, H. and Ouchi, M, 2003. Self-compacting concrete. Journal of advanced concrete technology. Japan Concrete Institute, 1(1), pp. 5–15.

Shatarat, N., Mahmoud, H. M. and Katkhuda, H, 2018. Shear capacity investigation of self compacting concrete beams with rectangular spiral reinforcement. Construction and Building Materials. Elsevier, 189, pp. 640–648.

SNI 2847, 2013. SNI 2847-2013 Persyaratan Beton Struktural Untuk Bangunan Gedung. Badan Standardisasi Nasional.

Tambusay, A., Suryanto, B. and Suprobo, P, 2018. Visualization of shear cracks in a reinforced concrete beam using the digital image correlation. International Journal on Advanced Science, Engineering and Information Technology. INSIGHT-Indonesian Society for Knowledge and Human Development, 8(2), pp. 573–578.

Zhou, L., Liu, Z. and He, Z, 2018. Elastic-to-plastic strut-and-tie model for deep beams. Journal of Bridge Engineering. American Society of Civil Engineers, 23(4), p. 4018007.