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Sintering. --- Frittage --- Additive manufacturing --- Iron --- Powder metallurgy --- Isostatic pressing --- Metallurgy
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Sintering --- Frittage --- Additive manufacturing --- Iron --- Powder metallurgy --- Isostatic pressing --- Equipment and supplies. --- Metallurgy
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Compacting. --- Metal powders. --- Nanoparticles --- Magnetic fields --- Isostatic pressing. --- Magnetic properties. --- Industrial applications.
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How to Scale-Up a Wet Granulation End Point Scientifically provides a single-source devoted to all relevant information on the scale-up of a wet granulation end point. Contents include a general description, problem identification, and theoretical background with supporting literature, case studies, potential solutions, and more. By outlining issues related to scale-up and end-point determination, and then using practical examples and advice to address these issues, How to Scale-Up a Wet Granulation End Point Scientifically is a valuable and essential resource for all those pharmaceutical scientists and technologists engaged in the granulation process.
Compacting --- Manufacturing processes --- Mathematical models. --- Automation. --- Compaction --- Compressing of granular materials --- Compressibility --- Granular materials --- Isostatic pressing --- Powders
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Sintering is a method for manufacturing components from ceramic or metal powders by heating the powder until the particles adhere to form the component required. The resulting products are characterised by an enhanced density and strength, and are used in a wide range of industries. Sintering of advanced materials: fundamentals and processes reviews important developments in this technology and its applicationsPart one discusses the fundamentals of sintering with chapters on topics such as the thermodynamics of sintering, kinetics and mechanisms of densification, the kinetics of micros
Sintering. --- Frittage --- Additive manufacturing --- Iron --- Powder metallurgy --- Isostatic pressing --- Metallurgy --- Material Science and Metallurgy --- General and Others
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This book contains accounts of state-of-the art approaches to the physics of granular matter, from a widely interdisciplinary and international set of experts in the field. The authors include theorists such as S F Edwards, J Krug and J Kurchan; the book is also unique in reporting current experimental approaches with, importantly, a detailed account of new techniques. It will serve as an invaluable handbook for all researchers, both novice and experienced, who wish to get quickly directed to open questions in key aspects of this challenging and topical domain.
Contents:
Granular materials --- Compacting --- Compaction --- Compressing of granular materials --- Compressibility --- Isostatic pressing --- Powders --- Bulk solids --- Materials --- Fluid dynamics
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Biomass energy. --- Compacting. --- Compaction --- Compressing of granular materials --- Compressibility --- Granular materials --- Isostatic pressing --- Powders --- Bio-energy (Biomass energy) --- Bioenergy (Biomass energy) --- Biofuels --- Biological fuels --- Energy, Biomass --- Microbial energy conversion --- Energy conversion --- Fuel --- Microbial fuel cells --- Refuse as fuel --- Waste products as fuel --- Biomass as fuel --- Renewable fuels --- Renewable energy sources
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