Suqing
|
Ionic Form
|
Total Capacity min(meq/ml) |
Water Retention (%) |
Shipping Weight (g/ml) |
Specific Density (g/ml) |
Maximum Reversible Swelling |
Remarks
|
Gel-type polystyrene based strong cation exchange resins
|
001×4 |
Na |
1.40 |
52~58 |
0.75~0.80 |
1.18~1.25 |
Na→H
10%
|
Mainly used in water softening, demineralization and antibiotic extraction |
001×4H |
H |
1.25 |
58~65 |
0.72~0.78 |
1.10~1.20 |
001×7 |
Na |
1.90 |
45~50 |
0.78~0.85 |
1.25~1.29 |
Na→H
8~10%
|
Domestic gel type standard. Suitable for softening and demineralization. |
001×7H |
H |
1.80 |
51~56 |
0.73~0.80 |
1.17~1.25 |
001×7FC |
Na |
1.90 |
45~50 |
0.78~0.85 |
1.25~1.29 |
For floating bed with high flow rate |
001×7MB |
Na |
1.90 |
45~50 |
0.78~0.83 |
1.25~1.29 |
With good mixture and separation properties with anion resins in mixed bed |
001×8 |
Na |
2.0 |
43~48 |
0.78~0.88 |
1.26~1.30 |
Na→H
5~8%
|
International gel type standard. Suitable for softening and demineralization. Used also in amino acids and antibiotics. |
001×8FC |
Na |
2.0 |
43~48 |
0.78~0.88 |
1.26~1.30 |
001×8MB |
Na |
2.0 |
43~48 |
0.78~0.88 |
1.26~1.30 |
001×10 |
Na |
2.2 |
37~42 |
0.80~0.88 |
1.28~1.32 |
Na→H
3~5%
|
For water treatment and Biochemical extraction. |
001×10H |
H |
2.0 |
43~59 |
0.78~0.83 |
1.22~1.28 |
001×16 |
Na |
2.4 |
28~36 |
0.83~0.89 |
1.30~1.35 |
|
Mainly used in antibiotic extraction |
SQ-66 |
Na |
1.5 |
35~45 |
0.78~0.88 |
1.15~1.25 |
|
Partially sulphonated resin for softening. Significant saving in salt usage. |
SQ-68 |
Na |
1.9 |
45~50 |
0.78~0.88 |
1.25~1.29 |
10% |
Non-solvent cation resin. Very low contamination. Especially suitable for drinking water treatment. |
Macroporous polystyrene based strong cation exchange resins
|
D001 |
Na |
1.8 |
45~50 |
0.78~0.85 |
1.25~1.28 |
Na→H
5~8%
|
Very high resistance to oxidation, physical breakage, osmotic shock fracture and organic fouling. Suitable for water and chemical treatment. |
D001H |
H |
1.7 |
50~55 |
0.75~0.80 |
1.16~1.24 |
D001FC |
Na |
1.8 |
45~50 |
0.78~0.85 |
1.25~1.28 |
D001MB |
Na |
1.8 |
45~50 |
0.78~0.85 |
1.25~1.28 |
YJ-1 |
H |
4.8(meq/g) |
≤1 |
|
|
|
Used for the removal of aldehydes in ethylene glycol. Up to 90% of the aldehydes can be removaed. |
SQD-61 |
Na |
1.80 |
45~55 |
0.75~0.85 |
1.25~1.28 |
|
With superior mechanical strength and excellent resistance to organic fouling, SQD-61, combined with SQD-92, is used in the recycling water treatment in glycol and methyl ethyl ketone production. |
SQD-65 |
H |
2.0 |
45~55 |
0.75~0.85 |
1.18~1.26 |
|
High exchange capacity. Mainly be used for conversion of Vc-Na and Vc, and the exchange capacity is higher than SQD-65
|
SQD-67 |
Na |
2.4 |
30~40 |
0.80~0.90 |
1.30~1.40 |
Na→H
10% |
Macroporous polyacrylate based weak cation exchange resins |
112 |
H |
4.3 |
40-50 |
0.72~0.82 |
1.15~1.25 |
OH→Na
105% |
Extraction of medicament. |
D113→-III |
H |
4.3 |
45~50 |
0.74~0.80 |
1.14~1.20 |
OH→Na
65% |
Excellent resistance to physical breakage, osmotic shock fracture and organic fouling. High total and working capacity. Suitable for softening and dealkalization. FC for floating bed and SC for double-layer bed. |
D113→-III FC |
H |
4.2 |
45~50 |
0.72~0.78 |
D113→-III SC |
H |
4.5 |
45~50 |
0.74~0.80 |
SQD-85 |
H |
10.5 (meq/g) |
50~60 |
0.7~0.8 |
1.10~1.20 |
OH→Na
95%
|
With excellent kinetic properties, mainly used in water treatment and antibiotic adsorption |
SQD-88 |
H |
10.0 (meq/g) |
55~65 |
0.7~0.8 |
1.10~1.20 |
OH→Na
70%
|
Made from methacrylic acid. With excellent organic fouling resistance, mainly used in Vitamin B12 extraction. |
