Comparison of the calculated and experimental fatigue lives under non-proportional bending with torsion of 10hnap steel

Marciniak, Z.; Rozumek, D.; Macha, E.

Ezzel az azonosítóval hivatkozhat erre a dokumentumra forrásmegjelölésben vagy hiperhivatkozás esetén: http://elartu.tntu.edu.ua/handle/123456789/16799

Összes dokumentumadat

DC mező	Érték	Nyelv
dc.contributor.author	Marciniak, Z.	uk
dc.contributor.author	Rozumek, D.	uk
dc.contributor.author	Macha, E.	uk
dc.coverage.temporal	25-28 вересня 2006 року	uk
dc.coverage.temporal	25-28 September 2006	uk
dc.date.accessioned	2016-06-05T07:03:14Z	-
dc.date.available	2016-06-05T07:03:14Z	-
dc.date.created	2006-09-25	uk
dc.date.issued	2006-09-25	uk
dc.identifier.citation	Marciniak Z. Comparison of the calculated and experimental fatigue lives under non-proportional bending with torsion of 10hnap steel / Z. Marciniak, D. Rozumek, E. Macha // Механічна втома металів. Праці 13-го міжнародного колоквіуму (МВМ-2006), 25-28 вересня 2006 року — Т. : ТДТУ, 2006 — С. 283-289. — (Розвиток втомних тріщин із урахуванням впливу корозійного середовища, температури, виду навантаження та інших факторів).	uk
dc.identifier.isbn	966-305-027-6	uk
dc.identifier.uri	http://elartu.tntu.edu.ua/handle/123456789/16799	-
dc.description.abstract	The paper contains the results of fatigue tests of 10HNAP steel under nonproportional bending with torsion. The circular smooth specimens were tested. The tests were carried out at the fatigue test stands MZGS-200PL and MZGS-200L. The best results of experimental and calculation lives consistence for the considered materials was obtained using the criterion of maximum shear stresses in the critical plane and the Palmgren-Miner hypothesis of damage accumulation.	uk
dc.format.extent	283-289	uk
dc.language.iso	en	uk
dc.publisher	ТДТУ	uk
dc.publisher	TDTU	uk
dc.relation.ispartof	ⅩⅢ міжнародний колоквіум „Механічна втома металів“	uk
dc.relation.ispartof	ⅩⅢ Internation Colloquium "Mechanical fatigue of metals"	uk
dc.title	Comparison of the calculated and experimental fatigue lives under non-proportional bending with torsion of 10hnap steel	uk
dc.type	Article	uk
dc.rights.holder	© Тернопільський державний технічний університет імені Івана Пулюя	uk
dc.coverage.placename	Україна, Тернопіль	uk
dc.coverage.placename	Ukraine, Ternopil	uk
dc.format.pages	7	uk
dc.relation.references	1. Stephens R.I., Fatemi A., Stephens R.R., Fuchs H.O.: Metal Fatigue in Engineering, Second Edition, John Wiley & Sons, Inc., 2001, ps 472	uk
dc.relation.references	2. Macha E.: Generalization of fatigue fracture criteria for multiaxial sinusoidal loadings in the range of random loadings, Biaxial and Multiaxial Fatigue, EGF 3, Eds M.W. Brown and K.J. Miller, Mechanical Engineering Publications, London 1989, pp. 425-436	uk
dc.relation.references	3. Brown M.W., Miller K.J.: Two decades of progress in the assessment of multiaxial low-cycle fatigue life, in: Low-Cycle Fatigue and Life Prediction, Amzallag C., Leis B., Rabbe P., Eds ASTM STP 770, Philadelphia, 1982, pp. 482-499	uk
dc.relation.references	4. Łagoda T., Macha E. & Niesłony A.: Comparison of the rain flow algorithm and the spectral method for fatigue life determination under uniaxial and multiaxial random loading, Journal of ASTM International, Vol. 1, No. 8, 2004, pp. 544-556	uk
dc.relation.references	5. Gough H.J., Pollard H.V.: The effect of specimen form on the resistance of metals to combined alternating stresses, Proc. of the Institution of Mechanical Engineers, Vol. 135, 1935, pp. 549-573	uk
dc.relation.references	6. McDiarmid D. L.: Fatigue behaviour under out-of-phase bending and torsion, The Aeronautical Journal of the Royal Aeronautical Society, March 1981, pp. 118-122	uk
dc.relation.references	7. Papadopoulos I.V.: A new criterion of fatigue strength for out-of-phase bending and torsion of hard metals, Int. J. Fatigue, Vol. 16, 1994, pp. 377-384	uk
dc.relation.references	8. Nishihara T., Kawamoto M.: The Strength of Metals under Combined Alternating Bending and Torsion with Phase Difference, Memoirs of the College of Engineering, Kyoto Imperial University, Vol. XI, No. 5, 1945, pp. 85-112	uk
dc.relation.references	9. Liu J., Zenner H.: The fatigue limit of ductile metals under multiaxial loading, Biaxial/Multiaxial Fatigue and Fracture, ESIS 31, Eds A. Carpinteri, M. de Freitas and A. Spagnoli, Elsevier, London 2003, pp. 147-164	uk
dc.relation.references	10. Marciniak Z.: Fatigue life of structural steels under non-proportional bending with torsion, Doctoral thesis, Opole University of Technology, 2005, p. 149 (in Polish)	uk
dc.relation.references	11. Sanetra C.: Untersuchungen zum Festigkeitsverhalten bei mehrachsiger Randombeanspruchung unter Biegung und Torsion, Disseration, Technischen Universität Clausthal, Clausthal-Zellerfeld, 1991, s. 151	uk
dc.relation.references	12. Palmgren A.: Die Labensdauer von Kugellagern, VDI-Z, Vol. 68, 1924, ss. 339-341	uk
dc.relation.references	13. Miner M. A.: Cumulative damage in fatigue, Journal of Applied Mechanics Vol. 12, 1945	uk
dc.relation.references	14. Serensen S.V., Kogayev V.P., Shnejderovich R.M.: Permissible loading and strength calculations of machine components, Third Edn., Mashinostroenie, Moskva 1975, 488 ps (in Russian)	uk
dc.relation.references	15. Corten H. T., Dolan T. J.: Cumulative fatigue damage, Proc. of Int. Conf. on Fatigue of Metals, The Institution of Mechanical Engineers and ASME, London, New York 1956, pp. 235-246	uk
dc.relation.referencesen	1. Stephens R.I., Fatemi A., Stephens R.R., Fuchs H.O., Metal Fatigue in Engineering, Second Edition, John Wiley & Sons, Inc., 2001, ps 472	uk
dc.relation.referencesen	2. Macha E., Generalization of fatigue fracture criteria for multiaxial sinusoidal loadings in the range of random loadings, Biaxial and Multiaxial Fatigue, EGF 3, Eds M.W. Brown and K.J. Miller, Mechanical Engineering Publications, London 1989, pp. 425-436	uk
dc.relation.referencesen	3. Brown M.W., Miller K.J., Two decades of progress in the assessment of multiaxial low-cycle fatigue life, in: Low-Cycle Fatigue and Life Prediction, Amzallag C., Leis B., Rabbe P., Eds ASTM STP 770, Philadelphia, 1982, pp. 482-499	uk
dc.relation.referencesen	4. Łagoda T., Macha E. & Niesłony A., Comparison of the rain flow algorithm and the spectral method for fatigue life determination under uniaxial and multiaxial random loading, Journal of ASTM International, Vol. 1, No. 8, 2004, pp. 544-556	uk
dc.relation.referencesen	5. Gough H.J., Pollard H.V., The effect of specimen form on the resistance of metals to combined alternating stresses, Proc. of the Institution of Mechanical Engineers, Vol. 135, 1935, pp. 549-573	uk
dc.relation.referencesen	6. McDiarmid D. L., Fatigue behaviour under out-of-phase bending and torsion, The Aeronautical Journal of the Royal Aeronautical Society, March 1981, pp. 118-122	uk
dc.relation.referencesen	7. Papadopoulos I.V., A new criterion of fatigue strength for out-of-phase bending and torsion of hard metals, Int. J. Fatigue, Vol. 16, 1994, pp. 377-384	uk
dc.relation.referencesen	8. Nishihara T., Kawamoto M., The Strength of Metals under Combined Alternating Bending and Torsion with Phase Difference, Memoirs of the College of Engineering, Kyoto Imperial University, Vol. XI, No. 5, 1945, pp. 85-112	uk
dc.relation.referencesen	9. Liu J., Zenner H., The fatigue limit of ductile metals under multiaxial loading, Biaxial/Multiaxial Fatigue and Fracture, ESIS 31, Eds A. Carpinteri, M. de Freitas and A. Spagnoli, Elsevier, London 2003, pp. 147-164	uk
dc.relation.referencesen	10. Marciniak Z., Fatigue life of structural steels under non-proportional bending with torsion, Doctoral thesis, Opole University of Technology, 2005, p. 149 (in Polish)	uk
dc.relation.referencesen	11. Sanetra C., Untersuchungen zum Festigkeitsverhalten bei mehrachsiger Randombeanspruchung unter Biegung und Torsion, Disseration, Technischen Universität Clausthal, Clausthal-Zellerfeld, 1991, s. 151	uk
dc.relation.referencesen	12. Palmgren A., Die Labensdauer von Kugellagern, VDI-Z, Vol. 68, 1924, ss. 339-341	uk
dc.relation.referencesen	13. Miner M. A., Cumulative damage in fatigue, Journal of Applied Mechanics Vol. 12, 1945	uk
dc.relation.referencesen	14. Serensen S.V., Kogayev V.P., Shnejderovich R.M., Permissible loading and strength calculations of machine components, Third Edn., Mashinostroenie, Moskva 1975, 488 ps (in Russian)	uk
dc.relation.referencesen	15. Corten H. T., Dolan T. J., Cumulative fatigue damage, Proc. of Int. Conf. on Fatigue of Metals, The Institution of Mechanical Engineers and ASME, London, New York 1956, pp. 235-246	uk
dc.identifier.citationen	Marciniak Z., Rozumek D., Macha E. (2006) Comparison of the calculated and experimental fatigue lives under non-proportional bending with torsion of 10hnap steel. Mechanical Fatigue of Metals: Proceeding of the 13-th International Colloquium (MFM) (Tern., 25-28 September 2006), pp. 283-289 [in English].	uk
dc.contributor.affiliation	Opole University of Technology, ul. Mikołajczyka 5, 45-271 Opole, Poland	uk
dc.citation.journalTitle	ⅩⅢ міжнародний колоквіум „Механічна втома металів“	uk
dc.citation.spage	283	uk
dc.citation.epage	289	uk
dc.citation.conference	13-ий міжнародний колоквіум (МВМ-2006) „Механічна втома металів“	uk
Ebben a gyűjteményben:	13-ий міжнародний колоквіум (МВМ-2006) „Механічна втома металів“ (2006)

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