145 DAFTAR PUSTAKA [1] Aviation Military Aircraft, gambar diperoleh melalui situs : https://ch.pinterest.com/pin/825566175432742377/ [2] Air Power Australia, gambat diperoleh melalui situs: http://www.ausairpower.net/APA-Raptor.html [3] F-35 Graphics & Artwork, gambar diperoleh melalui situs internet: https://www.f-16.net/g3/f-35-photos/F-35-graphics-and-art/AIR_F- 35B_Cutaway_lg [4] Eurofighter Performance and Technology: Structure, gambar diperoleh melalui : https://nz.pinterest.com/pin/709879959985174985/?send=true [5] Le Dassault Rafale B Aux Rayons X, gambar diperoleh melalui situs : https://id.pinterest.com/pin/366410119656521286/ [6] Miragee 2000, gambar diperoleh melalui situs : http://zarco- macross.wikidot.com/wiki:mirage-2000 [7] Malik, Kusni, Laporan internal group struktur IFX, 2012 [8] Material used on the surfaces of the F-16, gambar diperoleh melalui situs : https://www.f-16.net/forum/viewtopic.php?t=13128 [9] Smith, The Use of composites in aerospace: Past, present and future challenges, Avalon Consultancy Services Ltd, 2013 [10] Shen, Guo and Wang, Analysis of the influence of advanced materials for aerospace products R&D and manufacturing cost, 4th Global Conference on Materials Science and Engineering (CMSE 2015), IOP Conf. Series: Materials Science and Engineering 103 (2015) https://iopscience.iop.org/article/10.1088/1757-899X/103/1/012004 [11] Bakti W.P. (2018): Analisis Dan Perancangan Struktur Multi Spar Konvensional Komposit Pada Sayap Pesawat Tempur Dengan Metode Elemen Hingga, Tugas Akhir, Institut Teknologi Bandung. [12] Ilham, (2018): Analisis Dan Perancangan Struktur Anisogrid Komposit Pada Sayap Pesawat Tempur Menggunakan Metode Elemen Hingga, Tugas Akhir, Institut Teknologi Bandung. [13] Vasiliev, V.V., Barynin, V.A., Razin, A.F. (2012): Anisogrid composite lattice structures - Development and aerospace applications, Composite Structure, 94, 1117-1127. [14] Vasiliev, V.V. dan Razin, A.F. (2012): Development of Geodesic Composite Aircraft Structures, ICAS. [15] Zamani, M.R., Khalili, S.M.R., (2016): The effect of external skin on buckling strength of composite lattice cylinders based on numerical and experimental analysis, Mechanics of Advanced Composite Structure, 3, 83- 87. [16] Morozop, E.V., Lopatin, A.V., Nesterov, V.A., (2011): Buckling analysis and design of Anisogrid composite lattice conical shell, Composite structures, 93(12), 3150-3162. [17] Deniz, O., Horst, P., Schmidt, C., (2015): Production-based multi-criteria design optimization of an unconventional composite fuselage side panel by evolutionary and a surrogate model of manufacturability analysis, 11th World Congress On Structural And Multidisciplinary Optimization, Sydney, Australia. 146 [18] Liu, D., Zhou, X., Toropov V., (2016): Metamodels for composite lattice fuselage design, International Journal of Materials, Mechanics and Manufacturing, 4(3):175-178. [19] Brink,W.M.v.d., Vankan, W.J., Vrie, G.v.d., (2015): Manufacturing process simulation and structural evaluation of grid stiffened composite structures, Report no. NLR-TP-2014-442, National Aerospace Laboratory NLR. [20] Lopatin, A.V., Morozov E.V., Shatov A.V., (2017): Buckling of uniaxially compressed composite Anisogrid lattice cylindrical panel with clamped edges, Composite Structures, 160:765-772. [21] Kidane, S. (2002): Buckling analysis of grid stiffened composite structures, Thesis, of Mechanical Engineering, Louisiana State University. [22] Gangadara, G.D., (2016): Design and stiffness optimization of quadri- directional composite grid lattice structures, Thesis Master of Science in Mechanical Engineering, the University of Texas at Arlington. [23] Fan, H., Yang, L., Sun, F., Fang, D., (2013): Compression and bending performances of carbon fiber reinforced lattice-core sandwich composites, Composites: Part A, 52(2013) 118-125.