Liu / Ramakrishna / Mohideen | Melt Electrospinning | Buch | 978-0-12-816220-0 | sack.de

Buch, Englisch, 218 Seiten, Format (B × H): 152 mm x 229 mm, Gewicht: 410 g

Liu / Ramakrishna / Mohideen

Melt Electrospinning

A Green Method to Produce Superfine Fibers
Erscheinungsjahr 2019
ISBN: 978-0-12-816220-0
Verlag: William Andrew Publishing

A Green Method to Produce Superfine Fibers

Buch, Englisch, 218 Seiten, Format (B × H): 152 mm x 229 mm, Gewicht: 410 g

ISBN: 978-0-12-816220-0
Verlag: William Andrew Publishing

Melt Electrospinning: A Green Method to Produce Superfine Fibers introduces the latest results from a leading research group in this area, exploring the structure, equipment polymer properties and spinning conditions of melt electrospinning. Sections introduce the invention of melt electrospinning, including the independent development of centrifugal melt electrospinning and upward melt electrospinning, discuss electro magnetization of melt and the testing method of fiber performance by means of different polymers and self-designed devices, cover simulation, and introduce principle methods and improvement measures of centrifugal melt electrospinning.
Liu / Ramakrishna / Mohideen Melt Electrospinning jetzt bestellen!

Zielgruppe

Researchers in materials, chemistry, mechanical engineering, and medicine; chemical engineers; pharmaceutical scientists; protective clothing specialists; battery membrane electrode specialists, energy storage specialists, adsorption filtration and other specialists

Autoren/Hrsg.

Liu, Yong
Ramakrishna, Seeram
Mohideen, Mohamedazeem M.
Li, Kaili

Fachgebiete

Weitere Infos & Material

1. Preface2. The Device of Melt Electrospinning3. Formation of Fibrous Structure and Factors in Melt Electrospinning4. DPD simulation of melt electrospinning 5. Experimental Study on Centrifugal Melt Electrospinning6. 3D Printing by Melt electrospinning

Liu, Yong
Yong Liu is an Associate Professor and Director of the Polymeric Nanocomposite Laboratory at Beijing University of Chemical Technology. He attained his PhD from the Institute of Chemistry, Chinese Academy of Science. He has held a postdoctoral position at Tsinghua University, as well as at Cornell University as a visiting associate professor. He focuses on preparation and application of polymers and nanocomposites, and his research is unique in providing a polymer physics understanding of melt electrospinning. Yong Liu has published over 80 articles in peer-reviewed journals and presented at over 20 conferences, and holds multiple patents.

Li, Kaili
currently a postgraduate at Beijing University of Chemical Technology. Her research focuses on the movement of molecular chains about the fiber produced by centrifugal melt electrospinning and the dissipative particle dynamics simulation. She has published several articles in peer-reviewed journals.

Ramakrishna, Seeram
Seeram Ramakrishna is the Director of the Center for Nanofibres and Nanotechnology at the National University of Singapore (NUS), which is ranked among the top 20 universities in the world. He is regarded as the modern father of electrospinning. He is an elected Fellow of UK Royal Academy of Engineering (FREng); Singapore Academy of Engineering; Indian National Academy of Engineering; and ASEAN Academy of Engineering & Technology. He is an elected Fellow of the International Union of Societies of Biomaterials Science and Engineering (FBSE); Institution of Engineers Singapore; ISTE, India; Institution of Mechanical Engineers and Institute of Materials, Minerals & Mining, UK; and American Association of the Advancement of Science; ASM International; American Society for Mechanical Engineers; American Institute for Medical & Biological Engineering, USA. He is an editor of Elsevier journal Current Opinion in Biomedical Engineering.

Mohideen, Mohamedazeem M.
Ph.D. at Beijing University of Chemical Technology (BUCT). He is doing his research work under the guidance of Prof Yong Liu. He completed his master degree in Materials Science from Anna University, India in 2018. He finished his master dissertation work on quantum dots

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