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Tamás-Bényei Péter
Development of a high-performance composite material with in-line 3D printing surface modification

TÉMAKIÍRÁS

Intézmény: Budapesti Műszaki és Gazdaságtudományi Egyetem
gépészeti tudományok
Pattantyús-Ábrahám Géza Gépészeti Tudományok Doktori Iskola

témavezető: Tamás-Bényei Péter
helyszín: Department of Polymer Engineering
helyszín rövidítés: PT


A kutatási téma leírása:

a.) Antecedents: Nowadays the application of high-performance polymer matrix composites with tailored mechanical properties and excellent damping abilities received higher importance thanks to their beneficial properties. IPN structure provides high mechanical/acoustic damping from matrix side. FDM as a special 3D printing method provides promising way to modify surface of reinforcement and to create IPN in fibre/matrix surface.
b.) Aim of research: During the PhD research after adaptation of modifier to FDM, influence of reinforcement on in-line 3D printing technology will be investigated. Printing patterns and amount of modifier will be studied, optimal technology will be selected for composite preparation. According to the results a new, tailored polymer composite material with excellent mechanical and acoustic damping abilities will be developed.
c.) Tasks, main items, necessary time:
• Literature review in the field of surface modification, and of interpenetrating networks (IPN) moreover 3D printing (approx. 6 months)
• Adaptation of modifier to FDM method, preparation of parameters (approx. 6 months)
• Analysis of influence of reinforcement on in-line FDM, study of effect of printing patterns, amount of modifier on reinforcement (approx. 18 months)
• Preparation of surface-modified composites by different manufacturing methods, comparison of methods. Selection of optimal technology (approx. 6 months)
• Sample preparation and investigation of produced composites, analysis of results and preparation of additional measurements (approx. 8 months)
• Finishing of PhD thesis, elaboration of application conditions (approx. 4 months)
d.) Required equipment: All the necessary testing and other equipment are available at the laboratory of the Department.
e.) Expected scientific results: Preparation of high-performance composite materials with increased mechanical and acoustic damping properties, adaptation of FDM for different reinforcements.
f.) References:
1. Deák T., Czigány T., Tamás P., Németh Cs.: Enhancement of interfacial properties of basalt fiber reinforced nylon 6 matrix composites with silane coupling agents, Express Polymer Letters, (4), 590-598, 2010.
2. Tamás P., Czigány T.: Effect of micro- and nanofillers on interlaminar shear strength of basalt fabric reinforced polymer composites for wind turbine blades. The 3rd International Conference of Nanomechanics and Nanocomposites, (2014) Hong Kong, China

felvehető hallgatók száma: 1

Jelentkezési határidő: 2016-10-19

 
Minden jog fenntartva © 2007, Országos Doktori Tanács - a doktori adatbázis nyilvántartási száma az adatvédelmi biztosnál: 02003/0001. Program verzió: 1.2318 ( 2016. XI. 26. )