|Statement||editors, Franz Durst, Hans Raszillier.|
|Contributions||Durst, F., Raszillier, Hans.|
|LC Classifications||TP156.C57 E87 1999|
|The Physical Object|
|Pagination||428 p. :|
|Number of Pages||428|
EUROPEAN COATING SYMPOSIUM Advances in Coating and Drying of Thin Films University of Erlangen-Nurnberg September , Editors: Franz Durst Hans Raszillier UN1VERSITATS3IBUOTHEK HANNOVER TECHNtSCHE INFORMAL IONSBIBLIOTHEK. Thin films have a great impact on the modern era of technology. Thin films are considered as backbone for advanced applications in the various fields such as optical devices, environmental applications, telecommunications devices, energy storage devices, and so on. The crucial issue for all applications of thin films depends on their morphology and the by: 8. A practical guide for ensuring a defect-free coating and drying process. For professionals in the coating and drying industry, the world is a demanding place. New, technically complex products such as fuel cell membranes, thin film batteries, solar cells, and RFID chips require coatings of extreme precision. Thin films are generally used to improve the surface properties of solids. Transmission, reflection, absorption, hardness, abrasion resistance, corrosion, permeation and electrical behaviour are only some of the properties of a bulk material surface that can be improved by using a thin film. Nanotechnology also is based on thin film technology.
coating materials and their deposition technologies. Emerging industries pro-ducing display screens, digital image projection systems, energy conserva-tion in automobile and architectural windows, and others have placed chal-lenging demands on the thin-film coating industry. We can add to that list highly specialized precision filters. The Short Course Coating and Drying of Thin Films addresses engineers, scientists and technicians working in the areas of coatings, functional films, direct printing, sensors, adhesives & tapes, battery coating, paints & automotive coatings, medical patches & diagnostics, optical foils, membrane processing, printed electronics, fuel cells and smart coatings, who intend to get insight into more . The authors study the use of thin (∼ nm) tantalum (Ta) layers on silicon (Si) as a low emissivity (high reflectivity) coating for high-temperature Si devices. Such coatings are critical to reduce parasitic radiation loss, which is one of the dominant loss mechanisms at high temperatures (above ° C). The development of a quantitative model of the perovskite thin‐film drying is essential for the understanding of thin‐film processing in large‐scale coating techniques. Once a model prediction can be expressed in terms of general quantities, which are tabulated in standard literature on drying machines, 75 it is possible to determine.
PROCEEDINGS VOLUME Advances in Thin-Film Coatings for Optical Applications III. Coating and Drying. of Thin Films. With special contributions on “Printed Electronics“ and “Battery Coatings“ Short course & workshop program in English language. May th - nd, KIT-Tagungszentrum (FTU), Seminarraum , Hermann-von-Helmholtz-Platz 1. Eggenstein-Leopoldshafen. Fundamentals and industrial applications. Thin Films and Coatings: Toughening and Toughness Characterization captures the latest developments in the toughening of hard coatings and in the measurement of the toughness of thin films and coatings. Featuring chapters contributed by experts from Australia, China, Czech Republic, Poland, Singapore, Spain, and the United Kingdom, this book. Advances In Smart Coatings And Thin Films For Future Industrial and Biomedical Engineering Applications. Product Type: Book. Thin Film Coatings for Biomaterials and Biomedical Applications. Product Type: Book. Edition: 1. First Published: Hardcover: eBook: View Product Details.