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1

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Influence of Processing on the Microstructure and Mechanical Properties of a NbAl3-Base Alloy (1992)

Locci, Ivan E. ; Hebsur, Mohan G. ; Raj, S. V. ; [et al.]

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Publication Date: 2011-12-07

Description: Induction melting and rapid solidification processing, followed by grinding to 75-micron powder and P/M consolidation, have been used to produce a multiphase, NbAl3-based, oxidation-resistant alloy of Nb-67Al-7Cr-0.5Y-0.25W composition whose strength and ductility are significantly higher than those of the induction-melted alloy at test temperatures of up to 1200 K. Attention is given to the beneficial role of microstructural refinement; the major second phase, AlNbCr, improves both oxidation resistance and mechanical properties.

Keywords: METALLIC MATERIALS

Type: Journal of Materials Research (ISSN 0884-2914); 7; 7, Ju

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2

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Effect of oxidation on the mechanical properties of a NbAl3 alloy at intermediate temperatures (1992)

Locci, I. E. ; Raj, S. V. ; Doychak, J. ; [et al.]

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Publication Date: 2011-08-24

Description: The effect of environment on the mechanical properties of an Nb-67Al-7Cr-0.25W-0.5Y alloy was investigated experimentally in the temperature range 800-1200 K. It is found that the severity of environmental attack in the alloy is determined by both matrix plasticity and oxidation kinetics. The former determines the ability of the matrix to accommodate the localized stresses generated during deformation and oxidation, while the latter governs the rate of formation of a protective oxide scale. The environmental degradation of the alloy can thus be reduced or eliminated by increasing atomic mobility.

Keywords: METALLIC MATERIALS

Type: Journal of Materials Research (ISSN 0884-2914); 7; 12; p. 3219-3234.

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3

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Correlation of deformation mechanisms with the tensile and compressive behavior of NiAl and NiAl(Zr) intermetallic alloys (1992)

Noebe, R. D. ; Locci, I. E. ; Bowman, R. R. ; [et al.]

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Publication Date: 2011-08-24

Description: To identify the mechanisms controlling strength and ductility in powder-extruded NiAl and NiAl + 0.05 at. pct Zr, tensile and compressive testing was performed from 300 to 1300 K for several grain sizes. Grain size refinement significantly increased yield stress in both alloys and, in some cases, slightly lowered the ductile-to-brittle transition temperature (DBTT), although no room-temperature tensile ductility was observed even in the finest grain size specimens. The small Zr addition increased the DBTT and changed the low-temperature fracture mode from intergranular in NiAl to a combination of intergranular and transgranular in the Zr-doped alloy. Scanning electron microscopy of compression specimens deformed at room temperature revealed the presence of grain-boundary cracks in both alloys. These cracks were due to the incompatibility of strain in the polycrystalline material, owing to the lack of five independent slip systems. The tendency to form grain-boundary cracks, in addition to the low fracture stress of these alloys, contributed to the lack of tensile ductility at low temperatures.

Keywords: METALLIC MATERIALS

Type: Metallurgical Transactions A - Physical Metallurgy and Materials Science (ISSN 0360-2133); 23A; 5, Ma

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4

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Deformation behavior of a Ni-30Al-20Fe-0.05Zr intermetallic alloy in the temperature range 300 to 1300 K (1992)

Noebe, R. D. ; Locci, I. E. ; Raj, S. V.

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Publication Date: 2011-12-09

Description: The deformation properties of an extruded Ni-30Al-20Fe-0.05Zr (at. pct) alloy in the temperature range 300-1300 K were investigated under initial tensile strain rates that varied between 10 exp -6 and 10 exp -3/sec and in constant load compression creep between 1073 and 1300 K. Three deformation regimes were observed: region I, occurring between 400 and 673 K, which consisted of an athermal regime of less than 0.3 percent tensile ductility; region II, between 673 and 1073, where exponential creep was dominant; and region III, between 1073 and 1300 K, where a significant improvement in tensile ductility was observed.

Keywords: METALLIC MATERIALS

Type: Metallurgical Transactions A - Physical Metallurgy and Materials Science (ISSN 0360-2133); 23A; 6, Ju

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5

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Grain boundary sliding behaviour of copper and alpha brass at intermediate temperatures (1991)

Raj, S. V.

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Publication Date: 2011-08-19

Description: The role of grain boundary sliding in copper and Cu-30 pct Zn in the temperature range 0.50-0.72 Tm, where Tm is the absolute melting point of the material, is examined. First, sliding data obtained on these materials are presented. The results indicate that the stress exponent for sliding is similar to that for lattice deformation, while the activation energy for sliding varies between 0.5 and 1.6 of the activation energy for creep. Several models proposed for grain boundary sliding are discussed, and it is shown that they do not account for the observed results on copper and alpha brass. A phenomenological model is proposed, where it is assumed that grain boundary sliding results from the glide of dislocations on secondary slip planes.

Keywords: METALLIC MATERIALS

Type: Journal of Materials Science (ISSN 0022-2461); 26; 1000-100

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6

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Slow strain rate 1200-1400 K compressive properties of NiAl-1Hf (1991)

Pathare, V. M. ; Nathal, M. V. ; Whittenberger, J. D. ; [et al.]

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Publication Date: 2011-08-24

Description: Compression tests are conducted on NiAl-1Hf to assess the elevated-temperature creep behavior of this precipitation-hardened aluminide. While the strength is high under fast strain rates (more than 10 exp -5/s), under slower conditions the alloy is weak. Thus, it is unlikely that effective creep resistance can be obtained in NiAl through small Hf additions.

Keywords: METALLIC MATERIALS

Type: Materials Letters (ISSN 0167-577X); 11; 267-272

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7

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Three-dimensional deformation analysis of two-phase dislocation substructures (1992)

Freed, Alan D. ; Raj, S. V. ; Walker, Kevin P.

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Publication Date: 2019-07-12

Description: Three-dimensional deformation analysis of two-phase dislocation substructures was carried out, extending the Qian and Fan (1991) approach to 3D stress-strain fields by using the Budiansky and Wu (1962) criterion for strain compatibility between the 'hard' and 'soft' regions. The result is a rate-dependent viscoplastic theory, named the dislocation substructure viscoplasticity (DSV), which incorporates a self-consistent effect of dislocation substructure on material response. An algorithm developed for numerical implementation of the DSV theory is presented.

Keywords: METALLIC MATERIALS

Type: Scripta Metallurgica et Materialia (ISSN 0956-716X); 27; 2 Ju

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8

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Fracture behavior of a B2 Ni-30Al-20Fe-0.05Zr intermetallic alloy in the temperature range 300 to 1300 K (1992)

Raj, S. V.

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Publication Date: 2019-07-12

Description: The fracture behavior of a B2 Ni-30Al-20Fe-0.05Zr (at. pct) alloy was investigated using results of tensile tests conducted in the temperature range 300-1300 K under initial strain rates that varied between 10 exp -6 and 10 exp -3/sec, together with results of deformation measurements reported by Raj et al. (1992). Microstructural observations revealed that the alloy had failed by transgranular cleavage fracture below 873 K and by ductile fracture, power-law cavitation, triple point cracking, and rupture above this temperautre. The fracture map constructed using fracture results is compared with those for other classes of materials, showing that the atomic bonding plays a significant role in the low-temperature ductility of NiAl-based alloys.

Keywords: METALLIC MATERIALS

Type: E-6260 , Metallurgical Transactions A - Physical Metallurgy and Materials Science (ISSN 0360-2133); 23A; 6 Ju

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9

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Flow and fracture behavior of NiAl in relation to the brittle-to-ductile transition temperature (1991)

Cullers, C. L. ; Noebe, R. D. ; Bowman, R. R. ; [et al.]

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Publication Date: 2019-07-13

Description: NiAl has only three independent slip systems operating at low and intermediate temperatures whereas five independent deformation mechanisms are required to satisfy the von Mises criterion for general plasticity in polycrystalline materials. Yet, it is generally recognized that polycrystalline NiAl can be deformed extensively in compression at room temperature and that limited tensile ductility can be obtained in extruded materials. In order to determine whether these results are in conflict with the von Mises criterion, tension and compression tests were conducted on powder-extruded, binary NiAl between 300 and 1300 K. The results indicate that below the brittle-to-ductile transition temperature (BDTT) the failure mechanism in NiAl involves the initiation and propagation of cracks at the grain boundaries which is consistent with the von Mises analysis. Furthermore, evaluation of the flow behavior of NiAl indicates that the transition from brittle to ductile behavior with increasing temperature coincides with the onset of recovery mechanisms such as dislocation climb. The increase in ductility above the BDTT is therefore attributed to the climb of the 001 line type dislocations which in combination with dislocation glide enable grain boundary compatibility to be maintained at the higher temperatures.

Keywords: METALLIC MATERIALS

Type: MRS Symposium; Nov 27, 1990 - Nov 30, 1990; Boston, MA; United States

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10

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The Mechanical Properties of a Ni-30Al-20Fe-0.05Zr Intermetallic Alloy in the Temperature Range 300-1200 K (1991)

Noebe, R. D. ; Locci, I. E. ; Raj, S. V.

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Publication Date: 2019-07-13

Description: Tensile tests were conducted on an extruded Ni-30(at. pct)Al-20Fe-0.05Zr intermetallic alloy in the temperature range 300-1200 K, and the microstructures were characterized by optical, scanning, and transmission electron microscopy. The alloy did not exhibit any room temperature ductility and failed by transgranular cleavage at a stress of about 710 MPa. This mode of fracture was observed at and below 873 K with the total ductility being less than 2.5 percent. However, the failure mode changed to dimpled fracture, triple point cracking, and rupture above 873 K. Scanning electron microscopy of the fracture surfaces revealed that transgranular cleavage failure had always originated at preexisting defects. In these cases, the fracture stress exhibited a good correlation with the defect size, in accordance with linear elastic fracture mechanics, where the critical stress intensity factor was estimated to be about 4 MPa sq rt m.

Keywords: METALLIC MATERIALS

Type: E-5483 , MRS Symposium; Nov 27, 1990 - Nov 30, 1990; Boston, MA; United States

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