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Electroforming is a technique used by jewellery makers as well as ceramicists and glass artists. It allows the manufacture of delicate and/or irregular shapes that would be difficult to achieve by other means, as well as repetition pieces (using moulds), which can also be difficult to make. For jewellery, electroforming means that relatively lightweight and delicate shapes can still be made rigid and strong, and that fastenings, etc., can be attached to difficult or irregular shapes. It also allows intricate details to be faithfully reproduced (coating a spider's web in gold to make jewellery, for example).
"This is a concise handbook of materials, techniques, and formulas for transferring thin coatings of metal to other metals, fibers, plastics, and prefabricated or hand-sculpted objects. The techniques for depositing metals using electricity were once confined mainly to industry. But more recently craftsmen and artists have discovered how easily electroplating and electroforming can provide high-quality metal finishes."--Page 4 of cover.
If you have seen this style of jewelry called "Electroformed Jewelry", and have been interested in how it is produced then this book is for you. This book walks you through two different builds in case you want to try out the hobby before committing to the cost. The technique can be used in many hobbies not just jewelry, coating 3D printed objects, preserving organics and glass-work just to name a few. This hobby is very fun and slightly addicting so be careful once you start you will be picking up small things, electroforming it just to prove to yourself that it can be done. Then make a necklace out of it.
This clinical atlas describes the use of electroforming technology to achieve aesthetically superior restorations that are also biologically compatible. Electroforming is a process that involves the deposition of layers of gold to form aesthetic support structures featuring highly adaptable margins for a precise fit; when veneered with ceramic, these restorations also offer durability and functionality. Since electroforming can be used with titanium as well as with gold, this technology has broad potential for use with implant-supported prostheses.
Oxide Electronics Multiple disciplines converge in this insightful exploration of complex metal oxides and their functions and properties Oxide Electronics delivers a broad and comprehensive exploration of complex metal oxides designed to meet the multidisciplinary needs of electrical and electronic engineers, physicists, and material scientists. The distinguished author eschews complex mathematics whenever possible and focuses on the physical and functional properties of metal oxides in each chapter. Each of the sixteen chapters featured within the book begins with an abstract and an introduction to the topic, clear explanations are presented with graphical illustrations and relevant equations throughout the book. Numerous supporting references are included, and each chapter is self-contained, making them perfect for use both as a reference and as study material. Readers will learn how and why the field of oxide electronics is a key area of research and exploitation in materials science, electrical engineering, and semiconductor physics. The book encompasses every application area where the functional and electronic properties of various genres of oxides are exploited. Readers will also learn from topics like: Thorough discussions of High-k gate oxide for silicon heterostructure MOSFET devices and semiconductor-dielectric interfaces An exploration of printable high-mobility transparent amorphous oxide semiconductors Treatments of graphene oxide electronics, magnetic oxides, ferroelectric oxides, and materials for spin electronics Examinations of the calcium aluminate binary compound, perovoksites for photovoltaics, and oxide 2Degs Analyses of various applications for oxide electronics, including data storage, microprocessors, biomedical devices, LCDs, photovoltaic cells, TFTs, and sensors Suitable for researchers in semiconductor technology or working in materials science, electrical engineering, and physics, Oxide Electronics will also earn a place in the libraries of private industry researchers like device engineers working on electronic applications of oxide electronics. Engineers working on photovoltaics, sensors, or consumer electronics will also benefit from this book.