Plastizität und Bruchmechanik - Technische Fakultät
Plastizität und Bruchmechanik - Technische Fakultät
Plastizität und Bruchmechanik - Technische Fakultät
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W. Brocks: <strong>Plastizität</strong> <strong>und</strong> <strong>Bruchmechanik</strong> WS 2011/12<br />
Literatur<br />
Barenblatt, G.I. [1959]: The formation of equilibrium cracks during brittle fracture: general<br />
ideas and hypothesis, axially symmetric cracks. Appl. Math. Mech. 23, 623-636.<br />
Barenblatt, G.I. [1962]: The mathematical theory of equilibrium cracks in brittle fracture.<br />
Adv. Appl. Mech. 7, 55-129.<br />
Bažant, Z.P. [1993]: Current status and advances in the theory of creep and interaction with<br />
fracture. In: Z.P. Bažant,, I. Carol, Proc. 5 th Int. RILEM Symp. on Creep and Shrinkage<br />
of Concrete, E & FN Spon, London and New York, 291-307.<br />
Bažant, Z.P. [2003]: Concrete fracture models: testing and practice. Eng. Fract. Mech. 69,<br />
165-205.<br />
Brocks, W [2005]: Cohesive strength and separation energy as characteristic parameters of<br />
fracture toughness and their relation to micromechanics. Struct. Integr. Durab. 1, 233-<br />
243.<br />
Brocks, W.; Anuschewski, A.; Scheider, I. [2010]: Ductile tearing resistance of metal sheets.<br />
Engng. Fail. Anal. 17, 607-616.<br />
Brocks, W., A. Cornec, I. Scheider [2003]: Computational aspects of nonlinear fracture<br />
mechanics. In: I. Milne, R.O. Ritchie, B. Karihaloo (eds.), Comprehensive Structural<br />
Integrity, Vol. 3, Elsevier, 127-209, GKSS-Bericht 2003/30.<br />
Brocks, W.; Scheider, I. [2008]: Prediction of crack path bifurcation <strong>und</strong>er quasi-static<br />
loading by the cohesive model. Struct. Durab. Health Monit. 70, 1-11.<br />
Brocks, W.; Scheider, I. [2010]: Identification of material parameters for structural analyses.<br />
Struct. Durab. Health Monit. 161, 1-24.<br />
Brocks, W.; Steglich, D. [2007]: Hybrid methods. In: I. Milne, R.O. Ritchie, B. Karihaloo<br />
(eds.), Comprehensive Structural Integrity, Online Update Vol. 11, Elsevier, 107-136.<br />
Cornec, A.; Schönfeld, W.; Schwalbe, K.-H.; Scheider, I. [2009]: Application of the cohesive<br />
model for predicting the residual strength of a large scale fuselage structure with a twobay<br />
crack. Engng. Fail. Anal. 16, 2541-2558.<br />
Dugdale, D.S. [1960]: Yielding of steel sheets containing slits. J. Mech. Phys. Solids 8, 100-<br />
104.<br />
Elices, M.; Guinea, G.V.; Gómez, J.; Planas, J. [2002]: The cohesive zone model: advantages,<br />
limitations and challenges. Eng. Fract. Mech. 69, 137-163.<br />
Hillerborg, A.; Modeer, M.; Petersson, P.E. [1976]: Analysis of crack formation and crack<br />
growth in concrete by means of fracture mechanics and finite elements. Cement<br />
Concrete Res. 6, 773-782.<br />
Krull, H.; Yuan, H. [2011]: Suggestions to the cohesive traction–separation law from<br />
atomistic simulations. Eng. Fract. Mech. 78, 525-533.<br />
Lin, G.; Cornec, A.; Schwalbe, K.-H. [1998]: Three-dimensional finite element simulation of<br />
crack extension in aluminium alloy 2024 FC. Fatigue Fract. Eng. Mater. Struct. 21,<br />
1159-1173.<br />
Maier, G.; Bocciarelli, M.; Bolzon, G.; Fedele, R. [2006]: Inverse analyses in fracture<br />
mechanics. Int. J. Fracture 138, 47–73.<br />
Rose, J.; Ferrante, J.; Smith, J.: [1981]: Universal binding energy curves for metals and<br />
bimetallic interfaces. Phys. Rev. Lett. 75, 675-678-<br />
Scheider, I. [2001]: Bruchmechanische Bewertung von Laserschweißverbindungen durch<br />
numerische Rißfortschrittsanalysen mit dem Kohäsivzonenmodell. Doktorarbeit,<br />
- Kohaesivmodell, WB, 07.01.2012 - 10 -