Thermoelectric power of Co-Zr and Fe-Zr amorphous alloys

From, Milton

January 1984

No description available.

Thermoelectricity.

Alloys -- Thermal properties.

Iron alloys.

Zirconium alloys.

Cobalt alloys.

Hot deformation mechanisms in Mg-x%Al-1%Zn-y%Mn alloys

Seale, Geoff, 1978-

January 2006

No description available.

Manganese alloys.

Magnesium alloys -- Founding.

Aluminum alloys.

Zinc alloys.

Electron energy bands of one-dimensional random alloys /

Faulkner, John Samuel

January 1959

No description available.

Physics

Alloys

The Dissolution behavior of Fe-Ni alloys in 1N H₂SO₄ at 25⁰C

Condit, Dale Osborne

January 1968

No description available.

Engineering

Alloys

Analytic approximations to the coherent potential for substitutional alloys /

Ratanavararaksa, Pisistha

January 1977

No description available.

Physics

Alloys

A study on TIMETAL 639 titanium alloy and the effects of cyclic rapid heat treatment (CRHT) on the microstructure and mechanical response of alpha + beta titanium alloys

Mujahid, Shiraz

09 August 2019

Manufacturing titanium alloys with simultaneous improvement in strength and ductility poses a challenge which exceeds that of purely cubic metals. Various thermal and thermomechanical strategies have been proposed to regulate the geometrical arrangement of alpha + beta phases and texture of the alpha phase in an effort to impart the microstructure with concurrent strengthening and toughening. This study explores two potential methods of achieving mechanical enhancement. The first involves the substitution of molybdenum for a portion of vanadium in Ti-64 (alpha + beta, 6.0 Al, 4.0 V weight %, balance Ti), thereby creating a new alloy, termed Ti-639 (alpha + beta, 6.5 Al, 1.7 Mo, 1.7 V, 0.3C, 0.19O, 0.3 Si weight %, balance Ti). Electron backscatter diffraction(EBSD)and transmission electron microscopy are used to study the preservation of the as-received microstructure of TIMETAL 639, owing to the low diffusivity of molybdenum. EBSD texture analysis of solution heat treated TIMETAL 639 shows a marked effect of beta phase on the recrystallization of new globular alpha grains within preexistent colonies, leading to the generation of a distinct depleted bimodal microstructure. Quasi-static compression mechanical testing indicates a measurable increase in mechanical response of the depleted bimodal microstructure,about 90MPa higheryield, with a 6% higher strain at failure, when compared to identically heat treated Ti-64 samples. This alloy design strategy enhances the performance of alpha + beta titanium alloys while foregoing additional prolonged aging heat treatments associated with Ti-64.The second method involves a processing strategy to impart near-net shape structureswith ultraine grain microstructures without resorting to severe mechanical deformation. The proposed strategy relies on utilizing a cyclic rapid heat treatment (CRHT) process to generate refined martensitic microstructures in aerospace grade Ti-64. Analysis of resultant microstructures using EBSDreveals trends in microstructure refinement during successive CRHT iterations. For the given heat treatment parameters, three CRHT cycles yielded an optimum microstructure refinement, by effectively harnessing discontinuous dynamic recrystallization,while diminishing the occurrence of dynamic recovery and continuous dynamic recrystallization.

titanium alloys

High temperature deformation and aging behaviour of Zr alloys

Choubey, Rameshwar.

January 1978

No description available.

Zirconium alloys.

3-5% manganese white irons for use as dry grinding media

Bryant, Peter, 1937-

January 1979

No description available.

Manganese alloys.

Static softening in multiply microalloyed steels

Floros, Theodoros Vasilios.

January 1984

No description available.

Steel alloys.

A study of light alloy addition techniques in steelmaking /

Mucciardi, Frank A.

January 1980

No description available.

Steel alloys.