The effect of aging on the microstructure, precipitation response, and fatigue behavior in an Al-Li-Cu alloy

Fragomeni, J. M.; Wheeler, M. F.; Jata, K. V.

Artykuł - szczegóły

Tytuł artykułu

The effect of aging on the microstructure, precipitation response, and fatigue behavior in an Al-Li-Cu alloy

Autorzy

Fragomeni J. M. , Wheeler M. F. , Jata K. V.

Wybrane pełne teksty z tego czasopisma

http://et.ippt.gov.pl/

Identyfikatory

Warianty tytułu

Języki publikacji

Abstrakty

The interrelationships between precipitate characteristics and mechanical properties of an Al-Li-Cu alloy was quantified. The microstructure, precipitation response, and fatigue crack growth rates in the Al-Li-Cu alloy AF/C458 were studied following single and duplex aging treatments for varying aging times on specimens that were given a six percent stretch after solution heat treatment. Aging response was studied using hardness and compression yield strength measurements. Quantitative transmission electron microscopy methods were used to characterize average size, volume fraction, number density, and interparticle spacing of strengthening precipitates, ?' (Al3Li) and T1 (Al2CuLi). Strength and fatigue crack growth rates for select heat treatments were obtained and were related to the precipitate microstructure and yield strength data.

Słowa kluczowe

aging precipitation strengthening quantitative microscopy microstructure fatigue hardness TEM

starzenie eksploatacyjne mikroskop kwantowy mikrostruktura zmęczenie twardość

Wydawca

Instytut Podstawowych Problemów Techniki PAN

Czasopismo

Engineering Transactions

Rocznik

2005

Tom

Vol. 53, iss. 4

Strony

375--396

Opis fizyczny

Bibliogr. 41 poz., rys., tab., wykr.

Twórcy

autor

Fragomeni J. M.

autor

Wheeler M. F.

autor

Jata K. V.

University of Detroit Mercy, Department of Mechanical Engineering, Detroit, Michigan, USA

Bibliografia

1. A. K. HOPKINS, K. V. JATA, and R.J. RIOJA, Isotropic Wrought Aluminum-Lithium Plate Development Technology, [in:] Fifth International Conference on Aluminum Alloys, Grenoble, France, Materials Science Forum, 217-222, 421-426, 1996.
2. K.V. JATA, A. K. HOPKINS and R. J. RIOJA, The Anisotropy and Texture of Al-Li Alloys [in:] Fifth International Conference on Aluminum Alloys, Grenoble, France, Materials Science Forum, 217-222, 647-652, 1996.
3. V.K. JAIN, K.V. JATA, R.J. RIOJA, J.T. MORGAN and A. K. HOPKINS, Processing of an Experimental Aluminum-Lithium Alloy for Controlled Microstructure, Journal of Materials Processing Technology, 73, 108-118, 1998.
4. A.A. CSONTOS and E.A. STARKE JR., The Effect of Processing and Microstructure De velopment on the Slip and Fracture Behavior of the 2.1 Wt Pet Li AF/ C-489 and 1.8 Wt Pct Li AF/ C-458 Al-Li-Cu-X Alloys, Metallurgical and Materials Transactions A, 31A, 1965-1976, 2000.
5. A.A. CSONTOS, Microstructural effects on the slip and fracture behavior of isotropic Al Li-Cu-X alloys, Ph.D. Thesis, 1-205, University of Virginia, 2001.
6. Aluminum-Lithium Alloys, Bass-Lake Workshop Report, August 18, 1998, Bass Lake Lodge, Wright-Patterson Air Force Base, Ohio, organized /edited by K.V. Jata, Materials Directorate, WPAFB, 1-238, 1998.
7. D. MATHUR, Localized corrosion and stress corrosion cracking studies of Al-Li-Cu alloy AF/ C-458, M.S. Thesis, Ohio State University, 1-190, 2000.
8. J.E. KERTZ, P.I. GOUMA and R. G. BUCHHEIT, Localized Corrosion Susceptibility of Al-Li-Cu-Mg-Zn Alloy AF / C458 due to Interrupted Quenching from Solutionizing Temperatures, Metallurgical and Materials Transactions A., 32A, 10, 2561-2573A, 2001.
9. V. K. JAIN, K. V. JATA, R.J. RIOJA, J.T. MORGAN and A. K. HOPKINS, Processing of an Experimental Aluminum-Lithium Alloy for Controlled Microstructure, Journal of Materials Processing Technology, 73, 108-118, 1998.
10. W. CASSADA, Heterogeneous Precipitation in Al-Li-Cu Alloys, Ph.D. Thesis, University of Virginia, 1-187, 1987.
11. C.P. BLANKENSHIP, Optimizing Mechanical Properties in Al-Li-X Alloys by Microstructural Design, Ph.D. Thesis, University of Virginia, 4-129, 1992.
12. M. TAMURA, T. MORI and T. NAKAMURA, Precipitation of Al3Li from an Al-3.0wt.% Li Alloy and Some Properties of Al3Li, Journal Japanese Institute of Metals, 34, 919-925, 1970.
13. J.C. HUANG, and A.J. ARDELL, Precipitation of Al3Li from an Al-3.0wt. %Li Alloy and Some Properties of AL3Li, Journal De Physique, 48, C3, 373-383, September 1987.
14. C.P. BLANKENSHIP JR. and E.A. STARKE JR., Mechanical Behavior of Double-Aged AA8090, Metallurgical Transactions A, 24A, 833-841, 1993.
15. J. F. NIE, B.C. MUDDLE, and I.J. POLMEAR, The Effect of Precipitate Shape and Orientation on Dispersion Strengthening in High Strength Aluminum Alloys, Material Science Forum, 217-222, 1257-1262, 1996.
16. B.M. GABLE, A. A. CSONTOS, and E.A. STARKE, JR., The Role of Mechanical Stretch on the Processing-Microstructure-Property Relationships of AF/C 458, Materials Science Forum, 331-337, 1341-1346, 2000.
17. W.A. CASSADA, G.J. SHIFLET and E. A. STARKE, JR., The Effect of Plastic Deformation on T1 Precipitation, Journal De Physique, 48, C3, 397-406, September 1987.
18. C.P. BLANKENSHIP JR., E. HORNBOGEN and E.A. STARKE JR., Predicting Slip Behavior in Alloys Containing Shearable and Strong Particles, Materials Science and Engineering, A169, 33-41, 1993.
19. C. P. BLANKENSHIP JR, and E.A. STARKE JR, Structure-Property Relationships in AlLi-Cu-Mg-Ag-Zr Alloy X2095, Acta Metallurgical Materialia, 42, 3, 845-855, 1994.
20. H. K. HARDY and J.M. SILCOCK The Phase Sections at 500 C and 350 C of Aluminum Rich Aluminum-Copper-Lithium Alloys, Journal Institute of Metals, 84, 423, 1955-1956.
21. B. NOBLE and G.E. THOMPSON, Precipitation Characteristics of Aluminum-Lithium Alloys, Metal Science Journal, 5, 357-364, 1971.
22. Z.X. LI, R.A. M!RSHAMS, E.A. KENIK and P.J. HARTLEY, Effect of Stretch Prior to Aging on Mechanical Properties in Al-Cu-Li, 2195, Alloy, Light Weight Alloys for Aerospace Applications IV, E.W. LEE, W.E. FRAZIER, N.J. KIM, and K. JATA (Eds.], The Minerals, Metals and Materials Society, 117-127, 1997.
23. J. M. SILCOCK, The Structural Aging Characteristics of Aluminum-Lithium-Copper Alloys, Journal Institute of Metals, 88, 357-364, 1959-60.
24. M.F. ASHBY and R. EBELING, On the Determination of the Number, Size, Spacing, and Volume Fraction of Spherical Second-Phase Particles from Extraction Replicas, Transactions of the Metallurgical Society of AIME, 236, 1396-1404, 1966.
25. W.D. JONES and P.P. DAs The Solubility of Li in Al, Journal Institute of Metals, 87, 338-340, 1959.
26. D. B. WILLIAMS and J. W. EDINGTON, The Precipitation of 8' (Al3Li) in Dilute Aluminum-Lithium Alloys, Metal Science Journal, 9, 529-532, 1975.
27. S.F. BAUMANN and D.B. WILLIAMS, A New Method for the determination of the Precipitate-Matrix Interfacial Energy, Scripta Metallurgica, 18, 611-618, 1984.
28. P.L. MAKIN and B. RALPH On the Aging of Aluminum-Lithium-Zirconium Alloy, Journal of Materials Science, 19, 3835-3843, 1984.
29. F.W. GAYLE and J.B. VANDER SANDE, Composite Precipitates in an Al-Li-Zr Alloy, Scripta Metallurgica, 18, 473-478, 1984.
30. E.E. UNDERWOOD Quantitative Stereology, Addison-Wesley Publishing Company, Reading, Massachusetts, 1-175, 1970.
31. J. E. HILLIARD, The Counting and Sizing of Particles in Transmission Microscopy, Transactions of the Metallurgical Society of AIME, 224, 906-917, 1962.
32. E. HOR NBOGEN and K.-H. ZuM GAHR, Microstructure and Fatigue Crack Growth in a ϒ-Fe-Ni-Al Alloy, Acta Metallurgica, 24, 581-592, 1976.
33. K.V. JATA and E. A. STARKE, Fatigue Crack Growth and Fracture Toughness Behavior of an Al-Li-Cu Alloy, Metallurgical Transactions, 17A, 1011-1026, 1986.
34. A.K. VASUDEVAN, K. SADANANDA, Classification of Fatigue Crack Growth Behavior, Metallurgical and Materials Transactions, 26A, 5, 1221-1234, 1995.
35. C.W. CORTI, P. COTTERILL and G.A. FITZPATRICK, The Evaluation of the Interparticle Spacing in Dispersion Alloys, International Metallurgical Reviews, The Metals Society, 19, 77-88, 1974.
36. P.L. GOLDSMITH, The Calculation of True Particle Size Distributions From the Size Observed in a Thin Slice, British Journal of Applied Physics, 18, 81-3-830, 1967.
37. J.M.G. CROMPTON, R. M. WAGNHORNE and G.B.BROOK, The Estimation of Size Distribution and Density Precipitates From Electron Micrographs of Thin Foils, British Journal of Applied Physics, 17, 1301-1305, 1966.
38. D.B. WILLIAMS and J.W. EDINGTON, The Precipitation 8' {Al3Li) of in Dilute Aluminum-Lithium Alloys, Metal Science, 9, 529-532, 1975.
39. G. THOMAS and J. NUTTING, The Ageing Characteristics of Aluminum Alloys, Journal of the Institute of Metals, 88, 81-90, 1959-60.
40. P.L. MAKIN, and B. RALPH, On the Ageing of an Aluminum-Lithum-Zirconium Alloy, Journal of Material Science, 19, 3835-3843, 1984.
41. L. CHEN, and Y. WANG, The Continuum Field Approach to Modeling Microstructural Evolution, Journal of Metals, 48, 12 12-18, 1996.

Typ dokumentu

Bibliografia

Identyfikator YADDA

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