Polymers that, when combined with silicates, allow the development of deflocculants with enhanced capabilities (tailored to each type of mass).
Organic cohesion and resistance in crude oil
Polymers used as bulk deflocculants act as agents that improve deflocculation between particles, providing greater fluidity to the slip and facilitating atomization.
Polymers for porcelain
They improve deflocculation in high-density, low-water-content masses.
Zirconium oxide base
High whiteness and opacifying power engobe, designed to hide the color of the paste and enhance aesthetic cleanliness.
Large format polymers
They provide additional deflocculation in large parts and those with high technical requirements.
Polymers for technical systems
Designed for applications where less water usage is required.
Customized solutions
Polymers tailored to each composition and pressing technology.
Greater deflocculant power
It facilitates the handling and transport of the slip.
Improvement of the atomization process
It reduces viscosity in atomization, allowing for higher quality atomization.
Structural stability
It promotes dimensional integrity before the cooking cycle due to the high quality of the atomization
Adaptation to each factory
Technical adjustment according to humidity, pressing pressure and actual production parameters.
Improves mechanical resistance before cooking.
It provides additional cohesion during the compaction of the piece.
Reduces the risk of cracking in large parts.
Polymers tailored to each mineral composition and production process.
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They act as deflocculants that improve the rheology of the slip.
Yes. Proper dosage can significantly increase handling resistance because it results in a higher quality atomization.
Yes, but combined with body binders that allow for increased mechanical resistance (in green).
No. They are formulated to perform their function in the raw phase without negatively affecting their behavior during cooking.
Everything you need to know about ceramic polymers
Organic additives for deflocculation and mass fluidity.
Ceramic polymers are advanced organic additives that, when strategically combined with silicates, act as high-performance deflocculants in the preparation of the ceramic mass. Their primary function in the industrial environment is to optimize particle separation during grinding, significantly increasing the fluidity of the slip and guaranteeing a more stable and energy-efficient atomization process.
The integration of these polymers in high-production lines allows for the formulation of pastes with a higher solids content without penalizing viscosity. Furthermore, when combined with binding agents or body binders, they significantly reinforce the mechanical strength of the green piece, minimizing breakages prior to firing and ensuring stable behavior for the manufacture of high-performance technical porcelain.
