SFX by Ex Libris Inc.

Title:	Twin boundaries as crack nucleation sites
Source:	Crystal Research and Technology [0232-1300] Blochwitz, C yr:2005

Basic

Full text

Full text available via Wiley Online Library Full Collection 2019

Year:

Volume:

Issue:

Start Page:

Document delivery

Request document via Library/Bibliothek

Users interested in this article also expressed an interest in the following:
description	1.	Knorr, Alain F. "Crack initiation at twin boundaries due to slip system mismatch." Scripta materialia 94 (2015): 48-51.
description	2.	Blochwitz, C. "Influence of texture on twin boundary cracks in fatigued austenitic stainless steel." Materials science & engineering. A, Structural materials A339.1-2 (2003): 318-327.
description	3.	Degallaix-Moreuil, S. "Activated slip systems and microcrack path in LCF of a duplex stainless steel." Materials science & engineering. A, Structural materials 509.1-2 (2009): 81-88.
description	4.	Mikulich, V. "Influence of texture on the short fatigue crack growth in austenitic stainless steel." Materials science 42.4 (2006): 514-526.
description	5.	"Low-Cycle Fatigue Properties of High Manganese Content Steel." 日本機械学会論文集 A編 [[ニッポンキカイガッカイロンブンシュウAヘン]] 61.582: 211-216.
description	6.	Chai, G. "Secondary Hardening Behavior in Super Duplex Stainless Steels during LCF in Dynamic Strain Ageing Regime." Procedia Engineering 55 (2013): 123-127.
description	7.	Mu, P. "Influence of the crystalline orientations on microcrack initiation in low-cycle fatigue." Materials science & engineering. A, Structural materials: properties, microstructure and processing 573 (2013): 45-53.
description	8.	Gungor, S. "Effect of surface texture on the initiation and propagation of small fatigue cracks in a forged 6082 aluminum alloy." Materials science & engineering. A, Structural materials A160.1 (1993): 17-24.
description	9.	Ma, J. "AFM and OIM study of cyclic deformation behaviors of polycrystalline copper." Materials science & engineering. A, Structural materials 501.1-2 (2009): 1-5.
description	10.	Panina, L. "Stress effect on magnetoimpedance in amorphous wires at gigahertz frequencies and application to stress-tunable microwave composite materials." Journal of applied physics 97.1 (2005): 13701-6.
description	11.	Balbi, M. "Microcrack growth and fatigue behavior of a duplex stainless steel." International journal of fatigue 31.11/12 (2009): 2006-2013.
description	12.	Bayoumi, M.R. R. "Characterization of cyclic plastic bending of austenitic AISI 304 stainless steel." Engineering fracture mechanics 51.6 (1995): 1049-1058.
description	13.	Weidner, A. "Slip activity of persistent slip bands in polycrystalline nickel." Materials science & engineering. A, Structural materials 435 (2006): 540-546.
description	14.	Alvarez-Armas, I. "Microstructure associated with crack initiation during low-cycle fatigue in a low nitrogen duplex stainless steel." International journal of fatigue 29.4 (2007): 758-764.
description	15.	Raman, S.G.S. S. "Plain fatigue and fretting fatigue behaviour of AISI 304 austenitic stainless steel." Materials Science and Technology 23.1 (2007): 45-54.
description	16.	Ramirez Salgado, J. "Detection of secondary phases in duplex stainless steel by magnetic force microscopy and scanning Kelvin probe force microscopy." Materials characterization 86 (2013): 250-262.
description	17.	Li, S L. "Microstructure evolution and impact fracture behaviors of Z3CN20-09M stainless steels after long-term thermal aging." Journal of nuclear materials 433.1-3 (2013): 41-49.
description	18.	Prasad, K. "High temperature low cycle fatigue deformation behaviour of forged IN 718 superalloy turbine disc." Materials science & engineering. A, Structural materials: properties, microstructure and processing 568 (2013): 239-245.
description	19.	Weidner, A. "Half-cycle slip activity of persistent slip bands at different stages of fatigue life of polycrystalline nickel." Materials science & engineering. A, Structural materials: properties, microstructure and processing 492.1-2 (2008): 118-127.
description	20.	Baik, S.-I. I. "Grain-boundary structure and segregation behavior in a nickel-base stainless alloy." Scripta materialia 66.10 (2012): 809-812.