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Composites of low-density trialuminides: Particulate and long fiber reinforcements (1992)

Dipietro, M. S. ; Brown, S. A. ; Whittenberger, J. D. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: An examination of the ternary L1(sub 2) trialuminides, Al66Ti25Mn9, Al67Ti25Cr8, and Al22Ti8Fe3 in compression, bending, and tension revealed that none of these compounds exhibited a desirable balance of strength, ductility, and oxidation resistance. Subsequently, specific quaternary and quinary compositions were cast, homogenized, and isothermally forged. Both, the monolithic material and its particulate reinforced counterparts were examined in compression, three point bend, and tension as a function of temperature, and at high temperatures as a function of strain rate. An alternate approach that was examined in this program to enhance the low temperature damage tolerance of these materials was to incorporate long refractory metal wires in the matrix. In summary, it appears that of the various matrix compositions examined, ternary Al66Ti25Mn9 exhibits the best balance in strength, ductility, and oxidation resistance. Although the idea of refractory metal wire reinforcement is an attractive one, a successful combination remains to be identified.

Keywords: COMPOSITE MATERIALS

Type: NASA-TM-105628 , E-6970 , NAS 1.15:105628

Format: application/pdf

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Low-density, high-strength intermetallic matrix composites by XD (trademark) synthesis (1991)

Whittenberger, J. D. ; Dipietro, M. S. ; Brown, S. A. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: A feasibility study was conducted to evaluate the potential of particulate composites based on low-density, L1(sub 2) trialuminide matrices for high-temperature applications. The compounds evaluated included Al22Fe3Ti8 (as a multiphase matrix), Al67Ti25Cr8, and Al66Ti25Mn9. The reinforcement consisted of TiB2 particulates. The TiB2 composites were processed by ingot and powder metallurgy techniques. Microstructural characterization and mechanical testing were performed in the hot-pressed and hot-isostatic-pressed condition. The casting were sectioned and isothermally forged into pancakes. All the materials were tested in compression as a function of temperature, and at high temperatures as a function of strain rate. The test results are discussed.

Keywords: COMPOSITE MATERIALS

Type: NASA-TM-103724 , E-5955 , NAS 1.15:103724

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Mechanical properties of monolithic and particulate composites of L12 forms of Al3Ti (1991)

Farmer, S. C. ; Dipietro, M. S. ; Whittenberger, J. D. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: Preliminary studies of simple compressive properties of particulate composites with L1(2)-modified Al3Ti's as the matrices were performed as functions of matrix composition, amount of TiB2, processing technique, temperature, and strain rate. At and below about 900 K the introduction of TiB2 particles overwhelms minor chemical effects, and extremely high-yield strengths (about 2000 MPa at the 20 vol pct TiB2 level) were obtained. As L1(2)-modified Al3Ti has about half the density of the Ni-base superalloys, such values translate to strength/density ratios approximately four times those for superalloys. This advantage is not maintained by the Al3Ti-based composites above about 1000 K, particularly under slow strain rate plastic flow conditions, and it is proposed that this behavior could be due to the dissolution of intermetallic second phases as well as grain boundary creep mechanisms.

Keywords: COMPOSITE MATERIALS

Type: Symposium on Light-Weight Alloys for Aerospace Applications II; Feb 17, 1991 - Feb 21, 1991; New Orleans, LA; United States

Format: text

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