Capability of load-time history reconstruction and fatigue crack growth rate estimation for 2024-T3 aluminium alloy on the basis of fractographic analysis

Kocańda, D.; Torzewski, J.

Моля, използвайте този идентификатор за цитиране или линк към този публикация: http://elartu.tntu.edu.ua/handle/123456789/16763

Заглавие:	Capability of load-time history reconstruction and fatigue crack growth rate estimation for 2024-T3 aluminium alloy on the basis of fractographic analysis
Автори:	Kocańda, D. Torzewski, J.
Affiliation:	Military University of Technology , Warsaw, Poland
Bibliographic description (Ukraine):	Kocańda D. Capability of load-time history reconstruction and fatigue crack growth rate estimation for 2024-T3 aluminium alloy on the basis of fractographic analysis / D. Kocańda, J. Torzewski // Механічна втома металів. Праці 13-го міжнародного колоквіуму (МВМ-2006), 25-28 вересня 2006 року — Т. : ТДТУ, 2006 — С. 42-48. — (Пленарні доповіді).
Bibliographic description (International):	Kocańda D., Torzewski J. (2006) Capability of load-time history reconstruction and fatigue crack growth rate estimation for 2024-T3 aluminium alloy on the basis of fractographic analysis. Mechanical Fatigue of Metals: Proceeding of the 13-th International Colloquium (MFM) (Tern., 25-28 September 2006), pp. 42-48 [in English].
Is part of:	ⅩⅢ міжнародний колоквіум „Механічна втома металів“ ⅩⅢ Internation Colloquium "Mechanical fatigue of metals"
Conference/Event:	13-ий міжнародний колоквіум (МВМ-2006) „Механічна втома металів“
Journal/Collection:	ⅩⅢ міжнародний колоквіум „Механічна втома металів“
Дата на Публикуване:	25-Сеп-2006
Date of entry:	5-Юни-2016
Издател:	ТДТУ TDTU
Place of the edition/event:	Україна, Тернопіль Ukraine, Ternopil
Temporal Coverage:	25-28 вересня 2006 року 25-28 September 2006
Number of pages:	7
Page range:	42-48
Start page:	42
End page:	48
Резюме:	The subject of the paper is the considerations of the capability of load-time history reconstruction for the component under variable amplitude loading and fatigue crack growth rate estimation for the 2024-T3 Alclad aluminium alloy on the basis of microfracture analysis. For this goal three variable amplitude (VA) load sequences with multiple overloads and differing from the level of load sequence complexity were applied. These loads are employed when simulating the fatigue behaviour of aeronautical alloys. To reveal the load sequence effect on crack growth behaviour the microfracture analysis were provided by means of TEM microscope.
URI:	http://elartu.tntu.edu.ua/handle/123456789/16763
ISBN:	966-305-027-6
Copyright owner:	© Тернопільський державний технічний університет імені Івана Пулюя
References (Ukraine):	1. Ivanova V., Shaniavsky A. Quantitative fractography. Metallurgy Press, 1988 (in Russian). 2. Schijve J.: Fatigue of Structures and Materials. Kluwer Academic Publishers, 2001. 3. Kermanidis A.T., Pantelakis S.G. Fatigue crack growth analysis of 2024-T3 aluminium specimens under aircraft service spectra. Fatigue Fract. Engng Mater. Struct., 2001, Vol. 24, p. 699-710. 4. Ranganathan N. Certain aspects of variable amplitude fatigue. Proc. Eighth Int. Fatigue Congress Fatigue 2002, Sweden, Ed.: A. Blom, Vol. 1/5, pp. 613-621, 2002. 5. Brockenbrough J.R., et al. Crack growth prediction methods for spectrum loading to support fatigue and durability damage tolerance evaluation. ICAF 2003, Switzerland, 2003, p. 14. 6. Kocańda D., Kocańda S., Torzewski J. Reconstruction of fatigue crack growth rate for 2024-T3 aluminium alloy sheet on the basis of fractographic analysis. Archive Mech. Engng, Vol. LI, No 3, pp. 361-376, 2004.
References (International):	1. Ivanova V., Shaniavsky A. Quantitative fractography. Metallurgy Press, 1988 (in Russian). 2. Schijve J., Fatigue of Structures and Materials. Kluwer Academic Publishers, 2001. 3. Kermanidis A.T., Pantelakis S.G. Fatigue crack growth analysis of 2024-T3 aluminium specimens under aircraft service spectra. Fatigue Fract. Engng Mater. Struct., 2001, Vol. 24, p. 699-710. 4. Ranganathan N. Certain aspects of variable amplitude fatigue. Proc. Eighth Int. Fatigue Congress Fatigue 2002, Sweden, Ed., A. Blom, Vol. 1/5, pp. 613-621, 2002. 5. Brockenbrough J.R., et al. Crack growth prediction methods for spectrum loading to support fatigue and durability damage tolerance evaluation. ICAF 2003, Switzerland, 2003, p. 14. 6. Kocańda D., Kocańda S., Torzewski J. Reconstruction of fatigue crack growth rate for 2024-T3 aluminium alloy sheet on the basis of fractographic analysis. Archive Mech. Engng, Vol. LI, No 3, pp. 361-376, 2004.
Content type:	Article
Показва се в Колекции:	13-ий міжнародний колоквіум (МВМ-2006) „Механічна втома металів“ (2006)

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