scholarly journals Fractal dendrite-based electrically conductive composites for laser-scribed flexible circuits

2015 ◽  
Vol 6 (1) ◽  
Author(s):  
Cheng Yang ◽  
Xiaoya Cui ◽  
Zhexu Zhang ◽  
Sum Wai Chiang ◽  
Wei Lin ◽  
...  
Keyword(s):  
Electrically Conductive ◽  
Conductive Composites

Possibilities of Utilization of Waste Materials in Production of Electrically Conductive Composites on Silicate Basis

2021 ◽  
Vol 321 ◽  
pp. 171-176
Author(s):  
Jana Majerová ◽  
Rostislav Drochytka
Keyword(s):  
Nickel Powder ◽  
Cement Composite ◽  
Wire Drawing ◽  
Waste Materials ◽  
Electrically Conductive ◽  
Conductive Composites ◽  
Steel Wires ◽  
The Subject ◽  
Conductive Properties ◽  
Functional Fillers

The electrical conductivity of concrete can be achieved by adding steel wires or functional fillers. Commonly used fillers are nanotubes, carbon black, nickel powder and so on. These fillers are expensive, but there is a possibility to use waste materials. This is the subject of this experiment. The conductive properties of conductive sand, sludge from the wire drawing process, iron grinding dust waste and waste carbon were verified. From these fillers, waste carbon showed the best electrical properties (impedance). The impedance of the waste carbon was 0.31 Ω and the impedance of the cement composite containing 70% of the weight of waste carbon was less than 670 Ω.

Electrically Conductive Composites Based on Chitosan and Graphene Stabilized by Pluronic F-108

2018 ◽  
Vol 60 (5) ◽  
pp. 678-682
Author(s):  
B. Ch. Kholkhoev ◽  
A. S. Buinov ◽  
S. A. Bal’zhinov ◽  
V. G. Makotchenko ◽  
V. E. Fedorov ◽  
...  
Keyword(s):  
Electrically Conductive ◽  
Conductive Composites

scholarly journals Stiff and electrically conductive composites of carbon nanotube aerogels and polymers

2009 ◽  
Vol 19 (21) ◽  
pp. 3370 ◽  
Author(s):  
Marcus A. Worsley ◽  
Sergei O. Kucheyev ◽  
Joshua D. Kuntz ◽  
Alex V. Hamza ◽  
Joe H. Satcher, Jr. ◽  
...  
Keyword(s):  
Carbon Nanotube ◽  
Electrically Conductive ◽  
Conductive Composites

Low-Temperature Fusible Silver Micro/Nanodendrites-Based Electrically Conductive Composites for Next-Generation Printed Fuse-Links

ACS Nano ◽  
2017 ◽  
Vol 11 (8) ◽  
pp. 7710-7718 ◽  
Author(s):  
Rui Yang ◽  
Yang Wang ◽  
Dang Wu ◽  
Yubin Deng ◽  
Yingying Luo ◽  
...  
Keyword(s):  
Low Temperature ◽  
Next Generation ◽  
Electrically Conductive ◽  
Conductive Composites

Electrical Properties of Carbon Nanotube-Reinforced Polymer Composites

2016 ◽  
Vol 685 ◽  
pp. 569-573
Author(s):  
Sergey M. Lebedev ◽  
Olga S. Gefle ◽  
Ernar T. Amitov ◽  
Mikhail R. Predtechensky ◽  
Alexander E. Bezrodny
Keyword(s):  
Carbon Nanotubes ◽  
Carbon Nanotube ◽  
Polymer Composites ◽  
Single Walled Carbon Nanotubes ◽  
Reinforced Composites ◽  
Electrically Conductive ◽  
Conductive Composites ◽  
Reinforced Polymer ◽  
Processing Properties ◽  
Walled Carbon Nanotubes

Novel electrically conductive SWCNT-reinforced composites were studied in this work. Incorporating SWCNT into CB/polymer composites provides lowering the percolation threshold. Adding a small quantity of single-walled carbon nanotubes into CB/polymer composites allows reducing CB content in electrically conductive composites and improving rheological and processing properties.

scholarly journals Synthesis and characterization of electrically conductive silicone rubber — TiB2 composites

2019 ◽  
Vol 2 (2) ◽  
pp. 49
Author(s):  
Aparna M Joshi ◽  
Anjali A Athawale
Keyword(s):  
Silicone Rubber ◽  
Fine Particles ◽  
Morphological Characterization ◽  
Synthesis And Characterization ◽  
Electrically Conductive ◽  
Conductive Composites ◽  
Micron Size ◽  
Temperature And Pressure ◽  
Conductive Silicone Rubber

In this paper, electrically conductive composites comprised of silicone rubber and titanium diboride (TiB2) were synthesized by conventional mixing methods. Fine particles of TiB2 (in micron size) and 10 parts per hundred parts of rubber (phr) proportion of carbon black (XC-72) were used to make the composites with HTV silicone rubber. The composites were cured at appropriate temperature and pressure and the effect on the electrical properties was studied. The resistance of the silicone rubber is ~ 1015Ω which decreases to 1–2 kΩ in case of composites with negligible effect of heat ageing. The hardness increases by ~ 35% simultaneous to the decrease of ~ 47% in the tensile strength. Morphological characterization indicates the homogeneous dispersion of the fillers in the composite.

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