Download Free Particulate Materials Book in PDF and EPUB Free Download. You can read online Particulate Materials and write the review.

Mechanics of Particulate Materials
Advances in Particulate Materials introduces the approaches and principles associated with basic powder production, and details the most critical, state-of-the-art advancements in the area of materials processing and particulate materials. As the demands of modern technology increase, particulate materials facilitates the production of numerous advanced materials that may be utilized in aerospace, automotive, defense, chemical, and medical industries.Provides in-depth coverage of some of the most exciting and crucial developments in the area of particulate materials Covers both processing and the materials aspect of some of the emerging areas of particulate materials.
This work furnishes students and practising engineers with a guide to the principles of industrial drying of particulate and loose solids and with advice on improved design procedures. The book focuses on those processes considered by the author to be the most effective in the current field.
"This publication represents the views and expert opinions of an IARC Working Group on the Evaluation of Carcinogenic Risk to Humans, which met in Lyon, 8-15 October 2013."
The only handbook of mathematical relations with a focus on particulate materials processing The National Science Foundation estimates that over 35% of materials-related funding is now directed toward modeling. In part, this reflects the increased knowledge and the high cost of experimental work. However, currently there is no organized reference book to help the particulate materials community with sorting out various relations. This book fills that important need, providing readers with a quick-reference handbook for easy consultation. This one-of-a-kind handbook gives readers the relevant mathematical relations needed to model behavior, generate computer simulations, analyze experiment data, and quantify physical and chemical phenomena commonly found in particulate materials processing. It goes beyond the traditional barriers of only one material class by covering the major areas in ceramics, cemented carbides, powder metallurgy, and particulate materials. In many cases, the governing equations are the same but the terms are material-specific. To rise above these differences, the authors have assembled the basic mathematics around the following topical structure: Powder technology relations, such as those encountered in atomization, milling, powder production, powder characterization, mixing, particle packing, and powder testing Powder processing, such as uniaxial compaction, injection molding, slurry and paste shaping techniques, polymer pyrolysis, sintering, hot isostatic pressing, and forging, with accompanying relations associated with microstructure development and microstructure coarsening Finishing operations, such as surface treatments, heat treatments, microstructure analysis, material testing, data analysis, and structure-property relations Handbook of Mathematical Relations in Particulate Materials Processing is suited for quick reference with stand-alone definitions, making it the perfect complement to existing resources used by academic researchers, corporate product and process developers, and various scientists, engineers, and technicians working in materials processing.
Developments in Geomathematics 4: Sampling of Particulate Materials: Theory and Practice reviews the theory and practice of sampling particulate solids, such as ores and concentrates. With examples borrowed from the mining, metallurgical, and cement industries, the book examines particulate materials of vegetable and mineral origin, including cereals, oil seeds, sugar beets, granulated drosses or slags, bars, plates, and ingots. Organized into nine parts encompassing 34 chapters, this volume begins with an overview of the theory of sampling and sampling-error generating mechanisms. It then discusses the continuous selection and discrete models of the increment sampling process and the materialization of punctual increments. It explains the splitting process and its practical implementation in sampling. Lot and sample preparation, resolution of sampling problems, and problems associated with commercial sampling are also discussed. The book also describes the detection of measurement or sampling biases and inconspicuous losses of material, and the design of automatic sampling plants. This book is a valuable resource for geologists, mining engineers, metallurgists, and analysts.
Particulate Matter and Aquatic Contaminants presents eight chapters dedicated to promoting a better understanding of suspended particulate-contaminant interactions and some of the biological, microbiological, and ecotoxicological principles associated with contaminant adsorption and transportation processes. The information presented reflects information and techniques at the leading edge of "biological-contaminant" research and addresses a number of toxic contaminant issues of global concern. Particulate Matter and Aquatic Contaminants will be invaluable to environmental chemists, environmental toxicologists, water quality professionals, modelers involved in environmental transport, environmental managers, and regulators.
Written by an expert in the industry, this text addresses the specifics of contamination, including particle origination, characterization, identification, and elimination, with a special focus on quality. The author offers a clear and concise review of particle populations and their control in stability, efficacy, and predictability in the manufacture of healthcare products. He brings together information from over 100 Web sites and other sources and casts it into a practical framework that will help readers ensure their company's success. The book contains thirty-two color photomicrographs and over eighty figures, tables, and charts.