Zeolite a base di Chabasite e Phillipsite 0,01/0,1 mm (pallet da 40 sacchi da 25 kg), per uso mangimistico Zeolite a base di Chabasite e Phillipsite 0,01/0,1 mm (pallet da 40 sacchi da 25 kg), per uso mangimistico Zeolite a base di Chabasite e Phillipsite 0,01/0,1 mm (pallet da 40 sacchi da 25 kg), per uso mangimistico
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Zeolite a base di Chabasite e Phillipsite 0,01/0,1 mm (pallet da 40 sacchi da 25 kg), per uso mangimistico

Cabasite and Phillipsite based zeolite 0.01 / 0.1 mm (pallet of 40 bags of 25 kg)

98,10 €
544,00 €

(Price per kilo (Kg)
0,54 €
)
In Stock

Product SKU: 000594

ZEOLITE BASED ON CHABASITE AND PHILLIPSITE 0.01 / 0.1 mm (pallet of 50 bags of 20 kg).

Group of minerals consisting of 52 mineralogical species chemically defined as "hydrated aluminosilicates of alkaline and / or alkaline-earth elements" (essentially, Na, K and Ca) and structurally constituting the family of tectosilicates with feldspar, feldspar and silica minerals. In this family of silicates, the primary structural units, tetrahedra [(Si, Al) O4], are connected to each other in the three directions of space to form three-dimensional scaffolds with a consequent ratio of tetrahedral cation (Si, Al) to oxygen of 1: 2.

Unlike what occurs in other families of silicates where the same structural units are isolated (nesosilicates, e.g. olivines), connected in a single direction (inosilicates, e.g. pyroxenes) or in two directions (phyllosilcates, e.g. clay minerals ), the three-dimensional tetrahedral scaffolding of tectosilicates gives rise to ?open? structures due to the presence of extratretrahedral cavities of increasing volume from feldspar and silica minerals to feldspar to zeolites.

The three-dimensional tetrahedral scaffolding of zeolites is "very open" (low tetrahedral density) and, as such, has large internal cavities (from 20 to 50% of the volume of the crystal) communicating with each other and with the outside through channels of molecular dimensions (from 2.5 to about 7 Å; 1 Å = 10-8 cm).

In their natural state, cavities and channels are occupied by cations (Na, K, Ca) and water molecules. The cations, necessary to balance the negative electrical charges of the tetrahedral scaffold due to the partial replacement of Si4 + with Al3 +, being weakly linked to the tetrahedral scaffold, enjoy a certain freedom of movement and can exit, through the channels, from the cavities and therefore from the crystal only if replaced by other cations having the same number of positive electric charges.

This property, known as "cation exchange capacity" (CSC), has an intensity (expressed in meq / g) increasing with the increase of the Al content in the tetrahedra and varies from about 2 meq / g in the zeolites poor in Al (clinoptilolite , ferrierite mordenite) at 3-4 meq / g in zeolites rich in Al (chabasite, phillipsite).

The water, from 10 to 20% by weight depending on the zeolite species, can be easily and more or less continuously removed by heating below 300-350 ° C with no or modest modifications of the tetrahedral scaffold.

The dehydrated zeolites have a large internal surface (up to a few hundred m2 per gram of substance) available to still host water molecules or other molecules with natural or induced polarity. The dehydration-rehydration process is reversible almost indefinitely and the absorption of polar molecules takes place according to a rigid "selection" based "primarily" on the size of the molecules and, secondly,

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