Effect of graphite and common rubber plasticizers on properties and
However, the incorporation of large amounts of mineral fillers into the composites strongly decreases their processing performance. In order to improve extrusion properties of these composites,...
Effect of graphite and common rubber plasticizers on properties and
Ceramizable composites are highly filled polymer dispersion composites which create stiff porous and durable ceramic structure when exposed to fire or elevated temperature. However, the incorporation of large amounts of mineral fillers into the composites strongly decreases their processing performance. In order to improve extrusion properties of these composites, plasticizers like
Effect of graphite and common rubber plasticizers on properties and
In order to improve extrusion properties of these com- posites, plasticizers like triethylamine, ethylene glycol, naphthalene, dibutyl phthalate and graphite were used. Extrud- ability of the composite mixes was examined as an indicator of their processing performance. After the vulcanization, mechanical properties of the composites were tested.
Effect of graphite and common rubber plasticizers on properties and
(2025) Imiela et al. Journal of Thermal Analysis and Calorimetry. Ceramizable composites are highly filled polymer dispersion composites which create stiff porous and durable ceramic structure when exposed to fire or elevated temperature.
Journal of Thermal Analysis and Calorimetry | Volume 138, issue 4
Effect of graphite and common rubber plasticizers on properties and performance of ceramizable styrene–butadiene rubber-based composites Authors (first, second and last of 8)
- What are the benefits of graphite platelets?
- The incorporation of graphite platelets resulted in optimum balance between enhancing extrudability and preserving satisfactory mechanical properties and ceramization performance.
- What plasticizers are used to improve viscoelastic properties?
- The following plasticizers were used to improve viscoelastic properties, namely triethylamine [TEA], ethylene glycol [glycol], naphthalene, dibutyl phthalate [DBP], graphite PMM-11/99,5 (grain size 50 µm) produced by KOH-I-NOOR GRAFIT s.r.o. Czech Republic.
- How to improve the extrusion properties of composites?
- However, the incorporation of large amounts of mineral fillers into the composites strongly decreases their processing performance. In order to improve extrusion properties of these composites, plasticizers like triethylamine, ethylene glycol, naphthalene, dibutyl phthalate and graphite were used.
- Why is graphite composite stiffer than other composites?
- The static tensile results suggest that the graphite particles exhibit strong interactions with the SBR polymer matrix, possibly between the aromatic graphene sheets and aromatic rings from styrene mers of the SBR rubber [ 33 ]. This makes the graphite composite stiffer than the rest of the composites.
- Is glass dust a fluxing agent for ceramifiable silicone rubber composites?
- The combination of glass dust and glass fiber as fluxing agents for ceramifiable silicone rubber composites. RSC Adv. 2017;7:38805. Feipeng L, Wei Y, Weihong G, Ting W, Quiying L. Preparation and properties of ceramifiable flame-retarded silicone rubber composites.
- What are the fluxing agents for ceramifiable silicone rubber composites?
- Feipeng L, Lihong C, Qiuying L, Ting W, Xinyuan G, Weihong G. The combination of glass dust and glass fiber as fluxing agents for ceramifiable silicone rubber composites. RSC Adv. 2017;7:38805.
