Physical metallurgy of Zn-Al based alloys

Zhu, Yao-Hua

January 2006

No description available.

669

An examination of Maya metallurgy, 1150 to 1544 A.D.

Williams, Katherine E. (Katherine Edith)

January 1990

Thesis (B.S.)--Massachusetts Institute of Technology, Dept. of Materials Science and Engineering, 1990. / Includes bibliographical references (leaves 65-66). / by Katherine E. Williams. / B.S.

Materials Science and Engineering.

Accretion growth and slag-metal reactions in injection metallurgy

Ohguchi, S.

January 1983

No description available.

669

Powder Metallurgy Of W-ni-cu Alloys

Caliskan, Necmettin Kaan

01 September 2006

In the present study / the effects of the powder metallurgical parameters such as the mixing method, compaction pressure, initial tungsten (W) particle size, composition, sintering temperature and sintering time on the sintering behavior of selected high density W-Ni-Cu alloys were investigated. The alloys were produced through conventional powder metallurgy route of mixing, cold compaction and sintering. The total solute (Ni-Cu) content in the produced alloys was kept constant at 10 wt%, while the copper concentration of the solutes was varied from 2.5 wt% to 10 wt%. Mainly liquid phase sintering method was applied in the production of the alloys. The results of the study were based on the density measurements, microstructural characterizations including optical and scanning electron microscopy and mechanical characterizations including hardness measurements. The results showed that the nature of the mixing method applied in the preparation of the powder mixtures has a considerable effect on the final sintered state of W-Ni-Cu alloys. Within the experimental limits of the study, the compaction v pressure and initial W particle size did not seem to affect the densification behavior. It was found that the sintering behavior of W-Ni-Cu alloys investigated in this study was essentially dominated by the Ni content in the alloy and the sintering temperature. A high degree of densification was observed in these alloys with an increase in the Ni content and sintering temperature which was suggested to be due to an increase in the solubility and diffusivity of W in the binder matrix phase with an increase in these parameters, leading to an increase in the overall sintering kinetics. Based on the results obtained in the present study, a model explaining the kinetics of the diffusional processes governing the densification and coarsening behavior of W-Ni-Cu alloys was proposed.

TN Metallurgy 600-799

Prehistoric mining and metallurgy in south west Iberian peninsula /

Hunt Ortiz, Mark A.

January 2003

Texte remanié de: Doctorate thesis--Department of prehistory and archaeology--University of Sevilla. / Bibliogr. p. 396-418.

Microstructure-property relations throughout the powder metallurgy process

Tucker, Laura Arias,

January 2007

Thesis (M.S.)--Mississippi State University. Department of Mechanical Engineering. / Title from title screen. Includes bibliographical references.

A knowledge based system for powder metallurgy technology

Smith, Lyndon Neal

January 1997

No description available.

670

Expert systems

Development of Aluminum Powder Metallurgy Alloys for Aerospace Applications

Chua, Allison Sueyi

06 March 2014

Currently, there is a high demand for lightweight aerospace materials, driven by the desire to provide enhanced fuel efficiency by reducing vehicular weight. Aluminum alloys are attractive due to their excellent mechanical properties and high strength to weight ratios. Powder metallurgy (PM), which converts metal powder into a high performance product, presents an alternative to traditional forming techniques, which are often unable to provide adequate dimensional tolerances. The challenge is to determine if aluminum PM alloys and technologies can be successfully employed within aerospace applications. This research focuses on the PM processing technologies (die compaction, cold isostatic pressing (CIP), and spark plasma sintering (SPS)) of two alloys, PM2024 and PM7075. Processing parameters were assessed using attributes such as density, hardness, and tensile properties. Both powders showed comparable densities and tensile properties to their wrought equivalents. Ultimately, the groundwork was laid for future research into these alloys and their processing methods.

Aluminum powder metallurgy

Aerospace alloys

Cold Isostatic Pressing

Die Compaction

Spark Plasma Sintering

The physical metallurgy of the weld heat-affected-zone in steels

Graville, Brian A

January 1978

No description available.

The metallurgy and processing of high strength aluminium alloys

Lawday, Mark James

January 2007

The relationship between alloy composition, microstructure, mechanical and thermal processing and mechanical properties (strength and toughness) in 2xxx (Al-Cu-Mg) and 7xxx (Al-Mg-ZnCu) series aluminium alloys has been investigated for use in the production of high-strength lightweight components.

669.722