zeolite y2021-07-07T07:31:35+08:00

Project Description

Zeolite Y

Professional zeolite y quality supplier

 

Nay
Item Unit Min Typical Max Analytical Method
Relative crystallinity % 87 90 X-ray diffractometer
Total specific surface m2/g 680 700 N2 adsorption
Pore volume ml/g 0.35 N2 adsorption
silica-alumina ratio / 5 5.2 27 XRF
Na2O wt% 12 13 Flame photometric analysis
L.O.I. wt% 18 22 Gravimetric analysis
D50 um 5 6 laster scatter distrioution
RUSY-2
Item Unit Min Typical Max Analytical Method
Relative crystallinity % 60 70 X-ray diffractometer
Cell parameter ×10-10m 24.45 24.49 24.52 X-ray diffractometer
Total specific surface m2/g 600 630 N2 adsorption
Na2O wt% 1.2 1.5 Flame photometric analysis
SO42- wt% 0.2 0.4 XRF
Re2O3 wt% 1.5 2.5 Chemical analysis
L.O.I. wt% 8 10 Gravimetric analysis
Lattice collapse temperature 1015 Differential scanning calorimeter
D50 um 5 6 laster scatter distrioution
RUSY-8
Item Unit Min Typical Max Analytical Method
Relative crystallinity % 52 57 X-ray diffractometer
Cell parameter ×10-10m 24.52 24.56 24.6 X-ray diffractometer
Total specific surface m2/g 590 620 N2 adsorption
Na2O wt% 1.5 1.8 Flame photometric analysis
SO42- wt% 0.2 0.4 XRF
Re2O3 wt% 7 8.5 9 Chemical analysis
L.O.I. wt% 8 10 Gravimetric analysis
Lattice collapse temperature 1010 Differential scanning calorimeter
D50 um 5 6 laster scatter distrioution
RUSY-12
Item Unit Min Typical Max Analytical Method
Relative crystallinity % 55 60 X-ray diffractometer
Cell parameter ×10-10m 24.57 24.6 24.64 X-ray diffractometer
Total specific surface m2/g 590 610 N2 adsorption
Na2O wt% 1.5 1.8 Flame photometric analysis
SO42- wt% 0.2 0.4 XRF
Re2O3 wt% 11 12.5 13 Chemical analysis
L.O.I. wt% 5 10 Gravimetric analysis
Lattice collapse temperature 1005 Differential scanning calorimeter
D50 um 5 6 laster scatter distrioution
USY-0
Item Unit Min Typical Max Analytical Method
Relative crystallinity % 70 75 X-ray diffractometer
Cell parameter ×10-10m 24.42 24.44 24.52 X-ray diffractometer
Total specific surface m2/g 600 630 N2 adsorption
Na2O wt% 1.2 1.5 Flame photometric analysis
SO42- wt% 0.2 0.4 XRF
L.O.I. wt% 6 10 Gravimetric analysis
Lattice collapse temperature 1030 Differential scanning calorimeter
D50 um 5 6 laster scatter distrioution
DAY-12
Item Unit Min Typical Max Analytical Method
Relative crystallinity % 70 75 X-ray diffractometer
Total specific surface m2/g 24.42 24.46 24.48 N2 adsorption
silica-alumina ratio / 10 10.5 13 XRF
Na2O wt% 0.1 Flame photometric analysis
SO42- wt% 0.2 0.4 XRF
L.O.I. wt% 15 Gravimetric analysis
Cl- wt% 0.2 0.4
D50 um 5 6 laster scatter distrioution
DAY-20
Item Unit Min Typical Max Analytical Method
Relative crystallinity % 60 65 X-ray diffractometer
Cell parameter ×10-10m 24.32 24.33 24.35 X-ray diffractometer
Total specific surface m2/g 580 610 N2 adsorption
Pore volume ml/g 0.38 N2 adsorption
silica-alumina ratio / 19 22 24 XRF
Na2O wt% 0.05 Flame photometric analysis
L.O.I. wt% 7 10 Gravimetric analysis
D50 um 5 6 laster scatter distrioution

We can produce y zeolite according to your requirement.

Email: y@yzeolite.com

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