TEXTURE AND MECHANICAL ANISOTROPY IN THE COPPER - ZINC SYSTEM

Stephens, Arthur William, 1936-

January 1968

No description available.

Copper-zinc alloys.

Anisotropy.

Particle effects in superplastic Al-78%Zn alloys

Puche, Oswaldo Diaz

08 1900

No description available.

Aluminum-zinc alloys

Shrinkage and microstructure in zinc-aluminum alloys

Wilms, Ulrich H.

12 1900

No description available.

Founding

Aluminum-zinc alloys

Mechanical properties of dilute zinc - titanium alloys

Waldron, Robert James

January 1970

Zinc-titanium alloys (0.07-0.6 wt.%Ti.) in the form of compacted powder and chill castings have been extruded at temperatures between 150°C and 350°C. The mechanical properties of these alloys have been studied as a function of temperature, strain rate, grain size and intermetallic (Zn₁₅Ti) distribution. Due to a high value of "k" in the Hall-Petch relationship, maximum strengthening is obtained by a reduction in grain size. However because of an increasing amount of grain boundary shear, this potential is not realized. The operation of dynamic recovery mechanisms at 20°C and higher also results in limitations upon the development of high strength. The use of powder metallurgical techniques gives rise to the formation of intermetallic distributions which inhibit these processes and results in high strength (>60,000 p.s.i.) and low strain rate sensitivity (m ∼ 0.02). The mechanical properties are not a function of initial powder size. The properties obtained using chill castings do not reach these levels due to the difficulty associated with forming a fine second phase on solidification. Such a distribution is required to obtain a small stable grain size during subsequent extrusion. To satisfy compatibility requirements deformation modes other than the two supplied by basal slip must be invoked. High strengths are observed when grain boundary shear and migration are inhibited by the distribution of the second phase or by orientation effects. Under such conditions, non basal slip and basal slip are the operative deformation mechanisms. Significantly lower strengths result if grain boundary shear and basal slip satisfy the conditions necessary for ductile behaviour. The strain rate sensitivity parameter at 20°C lies in the range 0.02-0.07. Varying amounts of grain boundary shear occur, nevertheless deformation is slip controlled. Increased strain rate sensitivities are observed at high temperatures, but failure by cavitation limits ductility. The strain rate sensitivity is not a function of titanium concentration. Under constant fabrication conditions the strength generally increases with increased Zn₁₅Ti content. The thermal stability of the intermetallic distribution prescribes the fabrication conditions which must be used to develop high strength, and the temperature to which the mechanical properties can be retained. The high strength microstructures appear to be stable up to at least 150°C for short periods of time. / Applied Science, Faculty of / Materials Engineering, Department of / Graduate

Zinc alloys

Titanium alloys

The effects of cadmium additions on the physical and mechanical properties of cold rolled zinc sheet.

Ensio, Paavo.

January 1967

No description available.

Cadmium-zinc alloys

Sheet-metal

Mechanical properties of superplastic Al-Zn alloys near the transition region

Ghazanfar, S. A. Hamid

12 1900

No description available.

Aluminum-zinc alloys Testing

Plasticity

Petrographic, fluid inclusion and stable isotopic study of the concordant zinc-lead ores of N.E. Washington State

Ahmed, Gaafar Abbashar.

January 1984

Thesis (M.S.)--University of Wisconsin--Madison, 1984. / 1 folded map in pocket. Typescript. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 51-53).

Zinc alloys. Lead alloys. Petrology

Cadmium-zinc alloy plating from acid sulfate solutions ...

Young, C. B. F.

January 1935

Thesis (Ph. D.)--Columbia University, 1935. / Vita.

Superplasticity in a dilute zinc aluminum alloy

Cook, Richard Charles

January 1968

The system Zn-0.2 wt. % Al has been investigated to determine under what conditions of strain rate, grain size and temperature the phenomenon of superplasticity may be observed. The analysis and experimental conditions were based on established procedures which have been applied to known superplastic alloys. However the continually decreasing strain rate and grain growth during testing complicate the normal analysis. Based on this study the requirements for superplastic behavior are a fine-grained microstructure, grain boundaries which are relatively free of obstructions and a homolohous temperature of at least 0.42. A model incorporating grain boundary shear and non-continuous grain growth has been proposed to account for the observed superplastic behavior where grain boundary migration is the rate controlling process. / Applied Science, Faculty of / Materials Engineering, Department of / Graduate

Plasticity

Aluminum alloys

Zinc alloys

The effects of cadmium additions on the physical and mechanical properties of cold rolled zinc sheet.

Ensio, Paavo.

January 1967

No description available.

Sheet-metal

Cadmium-zinc alloys