Textures in Non-Ferrous Metals and Alloys
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Textures in Non-Ferrous Metals and Alloys Proceedings of a Symposium by H. D. Merchant

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Published by Metallurgical Society .
Written in English


  • Texture,
  • Technical & Manufacturing Trades,
  • Technology & Industrial Arts,
  • Congresses,
  • Alloys,
  • Nonferrous Metallurgy,
  • Metals

Book details:

Edition Notes

ContributionsJ. G. Morris (Editor)
The Physical Object
Number of Pages231
ID Numbers
Open LibraryOL8377818M
ISBN 100873390016
ISBN 109780873390019

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Page - Hydrochloric acid of specific gravity was found to be completely inactive on all alloys of copper and zinc containing an excess of copper, and especially on the alloy containing equivalent proportions of each metal. Zinc was found to have an extraordinary preventive influence on the action of strong sulphuric acid on copper. Some non-ferrous metals are used for corrosion resistant coatings: for example, galvanized iron (zinc coated, low-carbon steel) and tinplate (tin coated, low-carbon steel). It is not possible within the scope of this book to consider the composition and properties of the very large range of non-ferrous .   It provides valuable composition tables that allow you to compare similar alloys. Tensile properties and product forms are provided when available. This book is organized by material group or class such as aluminum, copper, lead, magnesium, nickel, tin, titanium, and zinc. Each is further subdivided into groups, then finally into individual : $ ASM Handbook, Volume 2 is a comprehensive guide to nonferrous metals and alloys. It provides detailed information on compositions, properties, selection, and applications of major alloy groups, with particular emphasis on aluminum, titanium, copper, and magnesium.

2 Aluminum & Aluminum Alloys Chapter 1 CASTI Metals Red Book – Nonferrous Data (Fourth Edition) within seconds. Fortunately, this thin layer is normally adherent and protective, preventing further oxidation of the metal and endowing it with excellent corrosion resistance in most environments. Furthermore, the. Handbook of Non-Ferrous Metal Powders: Technologies and Applications, Second Edition, provides information on the manufacture and use of powders of non-ferrous metals that has taken place for many years in the area previously known as Soviet presents the huge amount of knowledge and experience that has built up over the last fifty years. Non-ferrous metals and alloys occupy an important position among engineering construction materials. A large number of such materials are developed to provide some specific property. Aluminum is an element and a metal like iron, but it differs in many ways from iron and its most important alloy steel. Non-ferrous metals are those which do not contain iron as main constituent or base metal. Non-ferrous metals have industrial applications because of their case of fabrication (like rolling, forging, casting, welding, and machining), electrical and thermal conductivity, resistance to corrosion, light-weight, etc.

Non-ferrous alloys Due to poor physical and mechanical properties and high costs the non-ferrous metals are seldom used in their in pure state. But their alloys carry very good physical and mechanical properties and are widely used. In general they have lower strength, hardness, and modulus of elasticity than irons and steels. Alloy metals such as Duralumin (which is composed of a combination of copper and manganese in a ratio besides aluminum), brass (which is 35% zinc and 65% copper) and Gliding metal (an alloy of 15% zinc and 85% copper) are some of the most prominent non-ferrous metal examples that are made by combining two or more other non-ferrous base metals.. All these alloys share the same two basic . Ferrous and Non-ferrous Metal Separation. Owing to the varying composition of the MSW input, the resulting MIBA contains fluctuating amounts of ferrous metals (e.g., tin cans, nuts, bolts, pins) and non-ferrous metals (mainly aluminium, copper and zinc) (Astrup, ; Hu et al., b). Because these materials demonstrate high. This important book is the first to review the implications of strip casting technology for a range of alloys, including carbon and stainless steel, aluminium, magnesium, titanium, copper and other non-ferrous alloys. The book is divided into six chapters, with the first two describing the physical metallurgy of candidate alloys for direct.