By Ian M. Hutchings, Visit Amazon's Graham D. Martin Page, search results, Learn about Author Central, Graham D. Martin,
Whilst inkjet know-how is well-established on domestic and small place of work computers and is now having expanding influence in advertisement printing, it will possibly even be used to deposit fabrics except ink as person droplets at a microscopic scale. this enables metals, ceramics, polymers and organic fabrics (including dwelling cells) to be patterned directly to substrates below special electronic regulate. This procedure bargains large power benefits for production, when you consider that inkjet tools can be utilized to generate buildings and capabilities which can't be attained in different ways.
Beginning with an outline of the basics, this bookcovers the most important elements, for instance piezoelectric print-heads and fluids for inkjet printing, and the methods concerned. It is going directly to describe particular purposes, e.g. MEMS, published circuits, lively and passive electronics, biopolymers and dwelling cells, and additive production. precise case experiences are incorporated on flat-panel OLED monitors, RFID (radio-frequency id) production and tissue engineering, whereas a complete exam of the present applied sciences and destiny instructions of inkjet expertise completes the coverage.
With contributions from either educational researchers and best names within the undefined, Inkjet expertise for electronic Fabrication is a complete source for technical improvement engineers, researchers and scholars in inkjet expertise and method improvement, and also will entice researchers in chemistry, physics, engineering, fabrics technology and electronics.
Chapter 1 creation to Inkjet Printing for production (pages 1–20): Ian M. Hutchings and Graham D. Martin
Chapter 2 basics of Inkjet expertise (pages 21–44): Graham D. Martin and Ian M. Hutchings
Chapter three Dynamics of Piezoelectric Print?Heads (pages 45–86): J. Frits Dijksman and Anke Pierik
Chapter four Fluids for Inkjet Printing (pages 87–112): Stephen G. Yeates, Desheng Xu, Marie?Beatrice Madec, Dolores Caras?Quintero, Khalid A. Alamry, Andromachi Malandraki and Veronica Sanchez?Romaguera
Chapter five while the Drop Hits the Substrate (pages 113–139): Jonathan Stringer and Brian Derby
Chapter 6 production of Micro?Electro?Mechanical platforms (MEMS) (pages 141–158): David B. Wallace
Chapter 7 Conductive Tracks and Passive Electronics (pages 159–181): Jake Reder
Chapter eight published Circuit Board Fabrication (pages 183–206): Neil Chilton
Chapter nine energetic Electronics (pages 207–235): Madhusudan Singh, Hanna M. Haverinen, Yuka Yoshioka and Ghassan E. Jabbour
Chapter 10 Flat Panel natural Light?Emitting Diode (OLED) screens: A Case examine (pages 237–253): Julian Carter, Mark Crankshaw and Sungjune Jung
Chapter eleven Radiofrequency identity (RFID) production: A Case learn (pages 255–274): Vivek Subramanian
Chapter 12 Biopolymers and Cells (pages 275–305): Paul Calvert and Thomas Boland
Chapter thirteen Tissue Engineering: A Case learn (pages 307–324): Makoto Nakamura
Chapter 14 Three?Dimensional electronic Fabrication (pages 325–342): invoice O'Neill
Chapter 15 present Inkjet expertise and destiny instructions (pages 343–362): Mike Willis