Cracks that occur in the structure will be very dangerous if left alone. Cracks can propagate and will eventually cause the structure to fail. Cracks that occur will cause singularity at the end of the crack, and the stress level is very high or reaches without limit (infinity). Stress intensity factor (SIF) is used to determine behavior of structures with crack. One of method that can predict SIF is displacement extrapolation method. Displacement extrapolation methods predict SIF by nodal displacement near end of crack. This research is to predict SIF of a thin plate with a single edge crack of 1.27 mm. The crack mode used in this research is mode I (opening mode) with a tension stress of 60 MPa. Nodal displacement for calculating SIF is taken from result of analyzing the cracked model using Patran / nastran. SIF prediction result from displacement extrapolation then to be compared with the results of analytical calculation.

B. Zafošnik, G. Fajdiga (2016, December). Determining stress intensity factor KI with extrapolation method, Tehnicki Vjesnik, 23(6):1673-1678.

Firmansyah, Hendrix N (2016, November), Estimasi Nilai Faktor Intensitas Tegangan (KI) Tipe Center Crack Dengan Metode Numerik, In Conference SENATIK STT Adisutjipto Yogyakarta (Vol. 2, pp. 11-16)

G. V. Guinea, J. Planas, and M. Elices, (2000). KI evaluation by the displacement extrapolation technique. Engineering Fracture Mechanics, 66(3), pp. 243-255.

Beatrin S, Anika, (2018), Analisis damage tolerance dan crack growth pada aluminium 2024-T3 dan Aluminum 7075-T7351 menggunakan perangkat lunak Matlab, skripsi, STT Adisutjipto, Yogyakarta.

D.P.Rooke F.I.Baratta‡D.J.Cartwright, (1981) Simple methods of determining stress intensity factors, Engineering Fracture Mechanics, Volume 14, Issue 2, Pages 397-426

Broek,( 1982), Elementary Engineering Fracture Mechanics, Martinus Nijhoff Publishers

http://asm.matweb.com/search/SpecificMaterial.asp?bassnum=ma2024t3

BOEING, 2009, Structur Repair For Engineering Part 3