참고문헌
- Section 3, BSI PD 6493 Guidance on Some Methods for the Derivation of Acceptance Levels for Defects in Fusion Welded Joints British Standards Institution
- ASME Boiler and Pressure Vessel Code Section XI, Rules for In-service Inspection of Nuclear Power Plant Components
- Int. J. Fracture v.10 A Stiffness Derivative Finite Element Technique for Determination of Elastic Crack Tip Stress Intensity Factors D.M.Parks
- Int. J. Num. Meth. Engng. v.9 On the Method of Virtual Crack Extension T.K.Hellen
- Int. J. Num. Meth. Engng. v.9 Crack Tip Finite Elements are Unnecessary R.D.Henshell;K.G.Shaw
- Int. J. Numer. Methods in Engng. v.10 On the Use of Isoparametric Finite Elements in Linear Fracture Mechanics R.S.Barsoum
- Proceedings of 5th International Conference on Numerical Methods in Fracture Mechanics Automatic Growth of Planar Cracks in Three Dimensional Geometries E.M.Remzi;W.S.Blackburn;T.K.Hellen
- Fatigue Engng Mater. Struct. v.12 no.3 A Study of the Interaction and Coalescence of Two Coplanar Fatigue Cracks in Bending W.O.Soboyejo;K.Kishimoto;R.A.Smith;J.F.Knott
- Int. J. Fracture v.19 On the Energy Release Rate and the J-Integral for 3-D Crack Configuration H.G.DeLorenzi
- Int. J. Num. Meth. Engng. v.24 Calculation of Tracture Mechanics Parameters for an Arbitrary Three-dimensional Crack, by the Equivalent Domain Integral Method G.P.Nikishkov;S.N.Atluri
- NASA TN D-8414 Three dimensional Finite-element Analysis of Finite-thickness Fracture Specimens I.S.Raju;J.C.Jr.Newman
- Engng Fract. Mech. v.11 no.4 Stress Intensity Factors for a Wide Range of Semi-elliptical Surface Cracks in Finite Thickness Plates I.S.Raju;J.C.Jr.Newman
- Eng. Fract. Mechs. v.15 An Emprical Review of Crack Tip Stress Intensity Factors for Semi-elliptic Crack J.R.Newman;I.S.Raju
- J. Basic Engng, ASME, Series D v.85 no.4 Critical Analysis of Crack Propagation Laws. P.C.Paris;F.Erdogan
- Int. J. Press. Vess. Piping v.36 A Finite Element Model for the Shape Development of Irregular Planar Cracks R.A.Smith;J.F.Cooper