Ferroalloys & Alloying Additives Handbook
Author: Paul D. Deeley
Publisher:
Published: 1981
Total Pages: 144
ISBN-13:
DOWNLOAD EBOOKRead and Download eBook Full
Author: Paul D. Deeley
Publisher:
Published: 1981
Total Pages: 144
ISBN-13:
DOWNLOAD EBOOKAuthor: A. T. Peters
Publisher: ASTM International
Published: 1981
Total Pages: 216
ISBN-13:
DOWNLOAD EBOOKAuthor: Oleg Polyakov
Publisher: Elsevier Inc. Chapters
Published: 2013-05-04
Total Pages: 18
ISBN-13: 0128055111
DOWNLOAD EBOOKThis chapter deals with ferroalloys containing rare-earth metals (REM). Among known REM, only three have significant metallurgical relevance (lanthanum, yttrium, and cerium), and they are considered in more detail. This chapter presents an overview of these REM, their properties, and their reactions with other elements and explores major relevant phase equilibria diagrams. REM sources (raw materials) and methods for their reduction are also presented. Technology for smelting of FeSiREM alloys by carbon and aluminum reduction methods is described.
Author: Michael Gasik
Publisher: Butterworth-Heinemann
Published: 2013-05-04
Total Pages: 537
ISBN-13: 0080977669
DOWNLOAD EBOOKThis handbook gathers, reviews and concisely presents the core principles and varied technology involved in processing ferroalloys. Background content in thermodynamics, kinetics, heat and mass transfer is accompanied by an overview of electrical furnaces theory and practice as well as sustainability issues. The work includes detailed coverage of the major technologies of ferrosilicon, ferronickel, ferromolybdenum, ferrotungsten, ferrovanadium, ferromanganese and lesser known minor ferroalloys. Distilling the results of many years' experience in ferroalloys, Michael Gasik has assembled contributions from the worlds' foremost experts. The work is therefore a unique source for scientists, engineers and university students, exploring in depth an area which is one of the most versatile and increasingly used fields within modern metallurgy. - All-in-one source for the major ferroalloys and their metallurgical processing technologies, cutting research time otherwise spent digging through old handbooks or review articles. - In-depth discussion of the C, Si, Al-reduction, groups II-VIII of the periodic table, supporting analysis of metallurgical processing. - Contemporary coverage includes environment and energy saving issues.
Author: Merete Tangstad
Publisher: Elsevier Inc. Chapters
Published: 2013-05-04
Total Pages: 59
ISBN-13: 0128055006
DOWNLOAD EBOOKThis chapter examines the theory and technology applied for the production of manganese ferroalloys. The focus is on smelting of ferromanganese, silicomanganese, and manganese metal in electric furnaces with different process types. The properties of manganese as well as its major compounds, minerals, and ores are presented. Agglomeration methods used to prepare ores for smelting are described. Refining techniques for low-carbon manganese ferroalloys are discussed, and postprocessing operations are outlined, together with tapping and casting processes. Additionally, the energy balance of manganese alloys smelting is outlined, and some potential hazards of the smelting technology are discussed, together with their preventive actions.
Author: B.P Bhardwaj
Publisher: NIIR PROJECT CONSULTANCY SERVICES
Published: 2014-01-01
Total Pages: 440
ISBN-13: 9381039291
DOWNLOAD EBOOKThe Complete Book on Ferroalloys (Ferro Manganese, Ferro Molybdenum, Ferro Niobium, Ferro Boron, Ferro Titanium, Ferro Tungsten, Ferro Silicon, Ferro Nickel, Ferro Chrome) An alloy is a mixture or solid solution composed of metals. Similarly, Ferroalloys are the mixture of Iron with high proportion of other elements like manganese, aluminium or silicon. Alloying improves the physical properties like density, reactivity, Youngs modulus, electrical and thermal conductivity etc. Ferroalloys thus show different properties as mixture of different metals in different proportion exhibit a wide range of properties. Also, Alloying is done to alter the mechanical properties of the base metal, to induce hardness, toughness, ductility etc. The main demand of ferroalloys, nowadays is continuously increasing as the major use of such products are in the field of civil construction; decorative items; automobile; steel industry; electronic appliances. The book provides a wide idea to readers about the usage of appropriate raw material and the treatment involved in the processing of raw material to final produce, safety, uses and properties of raw material involved in the processes. This book concisely presents the core principles and varied details involved in processing of ferroalloys. The work includes detailed coverage of the major products like ferroaluminium, ferrosilicon, ferronickel, ferromolybdenum, ferrotungsten, ferrovanadium, ferromanganese and lesser known minor ferroalloys. Progress in thermodynamics and physico-chemical factors in ferroalloy production has developed rapidly during the past twenty-five years or so. The book presents the principles and current knowledge of processes in the production of various ferroalloys. The production of a particular ferroalloy involves a number of processes to be followed in order to give the alloy desired physical and mechanical properties. The slight difference in the temperature or heating or composition can lead to entirely different alloy with different properties. This book is not only confined to the different processes followed in the production of ferroalloys but also describes the processes used and other information related to product, which are necessary for the manufacturers knowledge. Also, the book gives the reader appropriate knowledge regarding the selection the best of available raw materials. TAGS Book on Ferroalloys, Business consultancy, Business consultant, Business Plan for Ferroalloys manufacturing plant, Ferro Alloy Industries Consultant, Ferro alloy industry in India, Ferro Alloy Projects, Ferro alloys industry, Ferro alloys industry about Ferro alloys, Ferro alloys manufacturers, Ferro alloys manufacturing Process, Ferro alloys plant, Ferro Alloys Process, Ferro alloys Production Industry in India, Ferro alloys Production processes, Ferro alloys production technology, Ferro alloys uses, Ferro Alloys, Ferro Manganese, Ferro Molybdenum, Ferro Niobium, Ferro Boron, Ferro Titanium, Ferro Tungsten, Ferro Silicon, Ferro Nickel, Ferro Chrome, Ferroalloy production, Ferroalloys & Alloying Additives, Ferroalloys Based Projects, Ferroalloys Business Manufacturing, Ferroalloys manufacturing, Ferroalloys manufacturing Business, Ferroalloys production line, Ferroalloys Theory and Technology, Ferrous metals and ferroalloys processing, Great Opportunity for Startup, High Carbon Ferro Alloys, How to Start a Ferroalloys Production Business, How to start a successful Ferroalloys manufacturing business, How to Start Ferro alloys Production Industry in India, Ideas in Ferroalloys processing industry, Indian Ferro alloy industry, Indian Ferro alloy industry - present status and future outlook, Indian Ferro alloys industry: a review, Indian Ferro alloys producers, India's Ferro Alloys Industries, Industrial Project Report, Integrated Ferro Alloys, Manufacture in India of Ferroalloys used in alloy steel, Most Profitable Ferro alloys manufacturing Business Ideas, Niir, NPCS, On the role of ferroalloys in steelmaking, Pollution Control in Ferroalloy Production, Process technology books, Production of Ferro Boron, Production of Ferro Molybdenum, Production of Ferro Nickel, Production of Ferro Niobium, Production of Ferro Titanium, Production of Ferro Tungsten, Production of Ferroalloys, Production of Manganese Ferroalloys, Production Process of Ferro Chrome, Production Process of Ferro Silicon, Production Techniques of Ferroalloys, Profitable Ferroalloys manufacturing Industry, Project consultancy, Project consultant, Proposed Ferro Alloys & Integrated Steel Plant, Setting up and opening your Ferroalloys Business, Starting a Ferroalloys manufacturing Process Business, Technology of Ferro Alloys Making, Technology used in Ferro Alloys plant, What are Ferroalloys?, What are the uses of Ferro alloys and how they are used?
Author: Michael M. Gasik
Publisher: Elsevier Inc. Chapters
Published: 2013-05-04
Total Pages: 11
ISBN-13: 0128054948
DOWNLOAD EBOOKThis introductory chapter describes the importance of ferroalloys in modern steelmaking and the benefits of applying ferroalloys instead of pure alloying elements. The idea, scope, and structure of the book are outlined.
Author: Lauri Holappa
Publisher: Elsevier Inc. Chapters
Published: 2013-05-04
Total Pages: 27
ISBN-13: 0128054956
DOWNLOAD EBOOKThe word ferroalloy refers to an alloy of iron containing a significant proportion of one or more other elements like silicon, manganese, chromium, aluminum, or titanium. The main applications of ferroalloys occur in the steelmaking process. They are added to steel to improve properties like strength, ductility, and fatigue or corrosion resistance. Additionally, ferroalloys can have several other tasks, such as in refining, deoxidation, modification, and control of nonmetallic inclusions and precipitates. The production and role of ferroalloys are briefly introduced, both from a historical perspective and in light of current and future prospects. Examples of production figures, producers, and markets are presented. Recent developments and main drivers in ferroalloys processing, including energy saving, environmental issues, primary and secondary raw materials resources, and development trends in technology, are briefly discussed.
Author: François Cardarelli
Publisher: Springer
Published: 2018-07-09
Total Pages: 2302
ISBN-13: 3319389254
DOWNLOAD EBOOKThe unique and practical Materials Handbook (third edition) provides quick and easy access to the physical and chemical properties of very many classes of materials. Its coverage has been expanded to include whole new families of materials such as minor metals, ferroalloys, nuclear materials, food, natural oils, fats, resins, and waxes. Many of the existing families—notably the metals, gases, liquids, minerals, rocks, soils, polymers, and fuels—are broadened and refined with new material and up-to-date information. Several of the larger tables of data are expanded and new ones added. Particular emphasis is placed on the properties of common industrial materials in each class. After a chapter introducing some general properties of materials, each of twenty-four classes of materials receives attention in its own chapter. The health and safety issues connected with the use and handling of industrial materials are included. Detailed appendices provide additional information on subjects as diverse as crystallography, spectroscopy, thermochemical data, analytical chemistry, corrosion resistance, and economic data for industrial and hazardous materials. Specific further reading sections and a general bibliography round out this comprehensive guide. The index and tabular format of the book makes light work of extracting what the reader needs to know from the wealth of factual information within these covers. Dr. François Cardarelli has spent many years compiling and editing materials data. His professional expertise and experience combine to make this handbook an indispensable reference tool for scientists and engineers working in numerous fields ranging from chemical to nuclear engineering. Particular emphasis is placed on the properties of common industrial materials in each class. After a chapter introducing some general properties of materials, materials are classified as follows. ferrous metals and their alloys; ferroalloys; common nonferrous metals; less common metals; minor metals; semiconductors and superconductors; magnetic materials; insulators and dielectrics; miscellaneous electrical materials; ceramics, refractories and glasses; polymers and elastomers; minerals, ores and gemstones; rocks and meteorites; soils and fertilizers; construction materials; timbers and woods; fuels, propellants and explosives; composite materials; gases; liquids; food, oils, resin and waxes; nuclear materials. food materials