44425
Amberlite™ HPR4811 Ion Exchange Resin
chloride form, 30-35 mesh, anionic
Synonym(s):
Amberlite™ HPR4811 chloride form
Product Name
Amberlite™ HPR4811 Cl Anion Exchange Resin, Anion Exchange Resin
form
solid
moisture
48-58%
loss
~55% loss on drying, 110 °C
matrix
styrene-divinylbenzene (gel)
matrix active group
trimethylbenzylammonium functional group
particle size
25-30 mesh
500-600 μm
capacity
1.3 meq/mL by wetted bed volume
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Application
AmberLite™ HPR4811 Cl Anion Exchange Resin Marathon 11 chloride form is a strongly basic (type I) anion exchange resin specifically suited for demineralization of high organic waters and removal of organic material and color bodies. AmberLite™ HPR4811 Cl Anion Exchange Resin anion exchange resin has high uranium sorption and can be used to determine groundwater and uranium contaminant fluxes and uranium ratios in soil samples.
Strongly basic (type I) anion exchange resin specifically suited for demineralization of high organic waters, removal of organic material and color bodies, with low silica leakage. This resin meets requirements of FDA Food Additive Regulation 21 CFR 173.25.
Other Notes
The Amberlite™ Marathon™ 11 is a superior resin to the Dowex 11. The Amberlite Marathon series provides narrower particle distribution, better efficiency, and improved kinetics when compared to the gaussian Dowex products.
The Dowex Marathon™ 11 is a superior resin to the Dowex 11. The Dowex Marathon series provides narrower particle distribution, better efficiency, and improved kinetics when compared to the gaussian Dowex products.
Legal Information
Amberchrom is a trademark of DuPont de Nemours, Inc.
Amberlite is a trademark of DuPont de Nemours, Inc.
Marathon is a trademark of The Dow Chemical Company or an affiliated company of Dow
Storage Class Code
11 - Combustible Solids
WGK
WGK 3
Flash Point(F)
Not applicable
Flash Point(C)
Not applicable
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D H Phillips et al.
Water research, 42(1-2), 260-268 (2007-08-19)
Synthetic resins are shown to be effective in removing uranium from contaminated groundwater. Batch and field column tests showed that strong-base anion-exchange resins were more effective in removing uranium from both near-neutral-pH (6.5)- and high-pH (8)-low-nitrate-containing groundwaters, than metal-chelating resins
M Srncik et al.
Journal of environmental radioactivity, 102(6), 614-619 (2011-04-13)
The vertical distribution of the (236)U/(238)U isotopic ratio was investigated in soil samples from three different locations on La Palma (one of the seven Canary Islands, Spain). Additionally the (240)Pu/(239)Pu atomic ratio, as it is a well establish tool for
Valerie Stucker et al.
Water research, 45(16), 4866-4876 (2011-07-30)
Laboratory tests and a field validation experiment were performed to evaluate anion exchange resins for uranium sorption and desorption in order to develop a uranium passive flux meter (PFM). The mass of uranium sorbed to the resin and corresponding masses
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