Datasheet summary
IX ALITE HPR1210 H BAG25L
PDF datasheet mirror for IX ALITE HPR1210 H BAG25L (DuPont). Verify with OEM before design.
Summary
Product identification
- Product Name: DuPont™ AmberLite™ HPR1210 Na Ion Exchange Resin
- Type: Uniform Particle Size, Gel, Strong Acid Cation Exchange Resin
- Historical Reference: Previously sold as AMBERJET™ 1200 Na Ion Exchange Resin
Applications
- Industrial softening
- Demineralization (when the sodium-form is preferred by the user)
System Designs
Compatible with all system technologies, including:
- Co-current
- Counter-current / Hold-down
- Packed beds
- Mixed beds
Typical Properties
Physical Properties
- Copolymer: Styrene-divinylbenzene
- Matrix: Gel
- Type: Strong acid cation
- Functional Group: Sulfonic acid
- Physical Form: Dark brown, translucent, spherical beads
Chemical Properties
- Ionic Form as Shipped: Na⁺
- Total Exchange Capacity: ≥ 2.0 eq/L (Na⁺ form)
- Water Retention Capacity: 43 – 49% (Na⁺ form)
- Particle Size:
- Particle Diameter: 620 ± 50 µm
- Uniformity Coefficient: ≤ 1.20
- < 300 µm: ≤ 0.1%
- > 850 µm: ≤ 10.0%
- Stability:
- Whole Beads: ≥ 98%
- Swelling:
- Na⁺ → H⁺: 8-10%
- Density:
- Particle Density: 1.29 g/mL
- Shipping Weight: 850 g/L
Suggested Operating Conditions
- Temperature Range (Na⁺ form): 5 – 150°C (41 – 302°F)
- pH Range:
- Service Cycle: 1 – 14
- Stable: 0 – 14
Hydraulic Characteristics
- Estimated bed expansion as a function of backwash flowrate and temperature is shown in Figure 1.
- Estimated pressure drop as a function of service flowrate and temperature is shown in Figure 2. These expectations are valid at the start of the service run with clean water.
Product Stewardship
DuPont expresses concern for all users of its products and the environment. This concern forms the basis of its product stewardship philosophy. Customers are encouraged to review their manufacturing processes and applications of DuPont products for health and environmental quality. Safety Data Sheets should be consulted prior to use.
WARNING: Oxidizing agents such as nitric acid can attack organic ion exchange resins, potentially leading to violent exothermic reactions. Consult knowledgeable sources before using strong oxidizing agents.
Disclaimer: This extraction may miss figures, footnotes, or revisions. Contractual data must match the OEM PDF revision used on the project.
Official datasheet (PDF)
Curated from selected public technical reference material for discovery and preliminary comparison. This summary is not a substitute for a current certified manufacturer datasheet. Verify revisions and design limits before use.