Registration Dossier

Identification

Chemical structure
Display Name:
Zeolite, phosphor and titanium containing, crystalline, synthetic, non fibrous
Molecular formula:
M2/nO [TiO4/2]t [SiO4/2]x [AlO4/2]y [PO4/2]z * wH2O, n is the valence of the cation M, predominantly Na and H, and for both is n=1; x and z can range from 0.25 to 0.75, y and t can range from 0.05 to 0.3 and x+y+z+t=1, and w is the number of water molecules typically between 4 and 40. The composition based on the oxides present in the zeolite is typically: Al: 14-27 % K/Na: <5 % Si: 0.1-5 % P: 12-25 % Ti: 0.05-5 %
IUPAC Name:
Zeolite, phosphor and titanium containing, crystalline, synthetic, non fibrous

Type of substance

Composition:
UVCB
Origin:
inorganic

Total tonnage band

Total range:
10 - 100 tonnes per annum

REACH

Registered as:
FULL
Submitted:
Joint Submission

Publication dates

First published:
17-Aug-2016
Last modified:
25-May-2020

Chemical safety assessment

Performed for this substance:
YES

Compositions open all close all

Type:
legal entity composition of the substance
State Form:
solid: bulk


Constituent 1
Chemical structure
Reference substance name:
Zeolite, phosphor and titanium containing, crystalline, synthetic, non fibrous
Molecular formula:
M2/nO [TiO4/2]t [SiO4/2]x [AlO4/2]y [PO4/2]z * wH2O, n is the valence of the cation M, predominantly Na and H, and for both is n=1; x and z can range from 0.25 to 0.75, y and t can range from 0.05 to 0.3 and x+y+z+t=1, and w is the number of water molecules typically between 4 and 40. The composition based on the oxides present in the zeolite is typically: Al: 14-27 % K/Na: <5 % Si: 0.1-5 % P: 12-25 % Ti: 0.05-5 %
IUPAC Name:
Zeolite, phosphor and titanium containing, crystalline, synthetic, non fibrous

Registrants / Suppliers Details open all close all

Registrant / Supplier Registered Updated
Clariant Produkte (Deutschland) GmbH Am Unisys-Park 1 65843 Sulzbach am Taunus Germany 2016

Administrative data open all close all

  • 01-2120120377-62-0000

Contact Persons responsible for the SDS