Investigation of the Influence of Fillers of Various Nature on the Properties of Polyether Sulfone and Determination of the Possibility of Using Composites on their Basis in 3D-Printing

Azamat L. Slonov; Azamat A. Zhansitov; Ismel V. Musov; Elina V. Khakyasheva; L.Kh. Kuchmenova; S.Yu. Khashirova

doi:10.4028/www.scientific.net/MSF.935.11

Paper Titles

Spectrophotometric Study of Complex Compounds of Polyacrylate and Polymethacrylate of Guanidine, and also of Composites on their Basis with Fe (II) Ions
p.1

Study of the Geometric Characteristics of Carbon Fiber Fillers on the Properties of Polyphenylene Sulfone
p.5

Investigation of the Influence of Fillers of Various Nature on the Properties of Polyether Sulfone and Determination of the Possibility of Using Composites on their Basis in 3D-Printing
p.11

Development of Composite Materials for 3d Printing on the Basis of Polyphenylenesulfone
p.15

Mechanical Properties of Samples of Polyphenylene Sulfone Obtained by the 3D-Printing Method
p.21

Methods for the Synthesis of Polyethereketone
p.27

Thermal Stability of Polyetherketones
p.31

Investigation of the Crystallization of Polyetherketones by the Differential Scanning Calorimetry Method
p.36

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Investigation of the Influence of Fillers of Various Nature on the Properties of Polyether Sulfone and Determination of the Possibility of Using Composites on their Basis in 3D-Printing

Abstract:

The results of the studies of the effect of excipients of mineral and organic origin on the mechanical properties of polyether sulfone based on 4,4'-dihydroxydiphenyl and 4,4'-dichlordiphenylsulfone are adduced. It has been shown that the introduction of hard fillers is accompanied by the increased modulus and reduced ductility of the polymer matrix, the intensity of these effects depends on the concentration, shape and particle size additives. It was revealed that the composites with talc and discrete carbon fibers were characterized by higher mechanical properties. Their test as materials for FDM 3D printing method shows the highest suitability composites with talc for this technology.

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Periodical:

Materials Science Forum (Volume 935)

Pages:

11-14

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.935.11

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Online since:

October 2018

Authors:

Azamat L. Slonov, Azamat A. Zhansitov, Ismel V. Musov, Elina V. Khakyasheva, L.Kh. Kuchmenova, S.Yu. Khashirova

Keywords:

3D Printing, Carbon Fiber, Composite Materials, Polyether Sulfone, Talc

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