| Titre : |
3D industrial printing with polymers |
| Type de document : |
texte imprimé |
| Auteurs : |
Johannes Karl Fink, Auteur |
| Editeur : |
Beverly [United States] : Scrivener Publishing |
| Année de publication : |
2019 |
| Autre Editeur : |
Hoboken [USA] : John Wiley & Sons |
| Importance : |
XII-326 p. |
| Présentation : |
ill. |
| Format : |
24 cm |
| ISBN/ISSN/EAN : |
978-1-119-55526-1 |
| Prix : |
148 E |
| Note générale : |
Index - Bibliogr. |
| Langues : |
Américain (ame) |
| Catégories : |
Impression tridimensionnelle
Polymères
|
| Index. décimale : |
668.4 Plastiques, vinyles |
| Résumé : |
3D industrial printing has become mainstream in manufacturing. This unique book is the first to focus on polymers as the printing material.
The scientific literature with respect to 3D printing is collated in this monograph. The book opens with a chapter on foundational issues such and presents a broad overview of 3D printing procedures and the materials used therein. In particular, the methods of 3d printing are discussed and the polymers and composites used for 3d printing are detailed.
The book details the main fields of applications areas which include electric and magnetic uses, medical applications, and pharmaceutical applications. Electric and magnetic uses include electronic materials, actuators, piezoelectric materials, antennas, batteries and fuel cells. Medical applications are organ manufacturing, bone repair materials, drug-eluting coronary stents, and dental applications. The pharmaceutical applications are composite tablets, transdermal drug delivery, and patient-specific liquid capsules.
A special chapter deals with the growing aircraft and automotive uses for 3D printing, such as with manufacturing of aircraft parts and aircraft cabins. In the field of cars, 3D printing is gaining importance for automotive parts (brake components, drives), for the fabrication of automotive repair systems, and even 3D printed vehicles. |
| Note de contenu : |
- 1. METHODS OF 3D PRINTING : History - Basic principles - Uses and applications - Magnetic separation - Rapid prototyping - Solution mask liquid lithography - Vat polymerization - Hot lithography - Ambient reactive extrusion - Micromanufacturing engineering - Analytical uses - Chemical engineering - Rotating spinnerets - Objects with surface microstructures - Lightweight cellular composites - Textiles
- 2. POLYMERS : Polymer matrix composites - Sequential interpenetrating polymer network - 3D printable diamond polymer composite - Adhesives for 3D printing - Voronoi-based composite structures - Graphene oxide reinforced complex architectures - Multiwalled carbon nanotube composites -s Multifunctional polymer nanocomposites - Additive manufacturing - Visible light-curable and visible wavelength-transparent resin - Poly(ether ether cetone) - Lasers - Ultra-high molecular weight PE - Production of PP polymer powders - Acrylate-based compositions - Standards - Particle-free emulsions - Shape memory polymers - Water-soluble polymer - Water-washable resin formulations - Extremely viscous materials - Photopolymer compositions - Crosslinked polyemrs - Recycled plastics - 3D printed fiber reinforced portland cement paste - Polymer-derived ceramics
- 3. AIRPLANES AND CARS : Airplanes - Cars
- 4. ELECTRIC AND MAGNETIC USES : Electric uses - Magnetic uses
- 5. MEDICAL APPLICATIONS : Basic procedures - 3D printed organ models for surgical applications - Bioinks - Presurgical simulation - Models with integrated soft tactile sensors - Dental applications - Fluidic devices - 3D bioprinting of tissues and organs - Biomedical devices - Soft somatosensitive actuators
- 6. PHARMACEUTICAL USES : Drug release |
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3D industrial printing with polymers / Beverly [United States] : Scrivener Publishing (2019)
