ACTA METALL. SIN. (Engl. Lett.) is an international journal for the bimonthly publication of original articles. It mainly contains short reports of significant, original and timely research which reflect progress in the fields of metallurgy, materials science and engineering. This includes materials physics, physical metallurgy and process metallurgy covering the areas of mining and ore dressing, production metallurgy, foundry, metal working, testing methods, powder metallurgy, composites, welding and joining, oxidation and corrosion. Articles must appeal to an international audience. Benefits to authors We also provide many author benefits, such as free PDFs, a liberal copyright policy, special discounts on Elsevier publications and much more. Please click here for more information on our author services. If you require any further information or help, please visit our support pages: http://support.elsevier.com
Acta Metallurgica Sinica
Description
Identifiers
ISSN | 1006-7191 |
Publisher
Elsevier Science
Additional information
Data set: Elsevier
Articles
Acta Metallurgica Sinica > 2009 > 22 > 6 > 408-414
A new method for producing semisolid slurry, annular electromagnetic stirring (A-EMS), to refine and spheroidize grains was exploited. Experimental work was undertaken to investigate the effects of cooling rate, stirring power and stirring time on the solidification behavior of A357 alloy using A-EMS. It was found that increasing the cooling rate and stirring power gave rise to substantial grain refinement,...
Acta Metallurgica Sinica > 2009 > 22 > 6 > 435-439
A novel method was reported to measure the remnant magnetic field in Lorentz mode in a FEI Tecnai F20 transmission electron microscope equipped with a Lorentz lens. The movement of the circle Bloch line of the cross-tie wall in Permalloy is used to measure the remnant magnetic field by tilting the specimen and adjusting the objective lens current. The remnant magnetic field is estimated to be about...
Acta Metallurgica Sinica > 2009 > 22 > 6 > 468-480
The flat cylindrical indentation tests with different sizes of punch radius were investigated using finite element method (FEM) aimed to reveal the effect of punch size on the indentation behavior of the film/substrate system. Based on the FEM results analysis, two methods was proposed to separate film's reduced Young's modulus from a film/substrate system. The first method was based on a new weight...