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HS Code |
861036 |
| Product Name | Fluoroalkyl Acrylate Adduct Aqueous Solution (50%) |
| Appearance | Milky white liquid |
| Active Content | 50% |
| Ph Value | 7.0 - 9.0 |
| Density | 1.05 - 1.15 g/cm3 |
| Ionic Type | Anionic |
| Viscosity | 50 - 300 mPa·s (at 25°C) |
| Water Solubility | Miscible |
| Boiling Point | >100°C |
| Storage Temperature | 5 - 35°C |
| Flash Point | Non-flammable |
| Application Field | Textile, paper, leather, construction |
| Shelf Life | 12 months |
| Cas Number | Proprietary/mixture, varies by manufacturer |
| Stability | Stable under recommended storage conditions |
As an accredited Fluoroalkyl Acrylate Adduct Aqueous Solution (50%) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Packaged in a 25 kg high-density polyethylene (HDPE) drum, securely sealed, labeled "Fluoroalkyl Acrylate Adduct Aqueous Solution (50%)". |
| Container Loading (20′ FCL) | 20′ FCL container typically loads 18–20 metric tons of Fluoroalkyl Acrylate Adduct Aqueous Solution (50%) in IBC drums or plastic barrels. |
| Shipping | The **Fluoroalkyl Acrylate Adduct Aqueous Solution (50%)** should be shipped in tightly sealed, chemical-resistant containers, protected from heat and direct sunlight. Label containers in accordance with hazardous material regulations. Transport via dedicated chemical carriers, ensuring compliance with local and international shipping guidelines for industrial chemicals. Avoid freezing and mechanical shock during transit. |
| Storage | Fluoroalkyl Acrylate Adduct Aqueous Solution (50%) should be stored in tightly closed containers, in a cool, dry, and well-ventilated area away from direct sunlight, heat sources, and incompatible substances such as strong acids and oxidizers. Protect from freezing. Keep container upright to prevent leaks and ensure appropriate secondary containment to avoid environmental contamination in case of spills. |
| Shelf Life | Fluoroalkyl Acrylate Adduct Aqueous Solution (50%) typically has a shelf life of 12 months when stored in tightly sealed containers. |
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Purity 50%: Fluoroalkyl Acrylate Adduct Aqueous Solution (50%) with a purity of 50% is used in water-based protective coatings, where it enhances hydrophobicity and stain resistance. Viscosity 200 mPa·s: Fluoroalkyl Acrylate Adduct Aqueous Solution (50%) with viscosity 200 mPa·s is used in textile finishing, where it provides durable water repellency and easy-clean properties. Molecular Weight 15,000 Da: Fluoroalkyl Acrylate Adduct Aqueous Solution (50%) with a molecular weight of 15,000 Da is used in paper surface treatments, where it imparts oil resistance and improved barrier properties. pH 6.5: Fluoroalkyl Acrylate Adduct Aqueous Solution (50%) at pH 6.5 is used in floor polish formulations, where it ensures chemical stability and uniform gloss development. Particle Size <100 nm: Fluoroalkyl Acrylate Adduct Aqueous Solution (50%) with particle size below 100 nm is used in automotive clear coats, where it delivers enhanced surface smoothness and scratch resistance. Thermal Stability up to 120°C: Fluoroalkyl Acrylate Adduct Aqueous Solution (50%) with thermal stability up to 120°C is used in industrial metal coatings, where it provides long-term protective performance under high-temperature conditions. Surface Tension 21 mN/m: Fluoroalkyl Acrylate Adduct Aqueous Solution (50%) with surface tension of 21 mN/m is used in ink formulations, where it improves wetting and spreading on non-porous substrates. Storage Stability 12 months: Fluoroalkyl Acrylate Adduct Aqueous Solution (50%) with storage stability of 12 months is used in architectural paints, where it guarantees consistent water repellency and shelf-life performance. |
Competitive Fluoroalkyl Acrylate Adduct Aqueous Solution (50%) prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615371019725 or mail to sales7@bouling-chem.com.
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Tel: +8615371019725
Email: sales7@bouling-chem.com
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Manufacturing chemicals for performance coatings, water repellent formulations, and specialty polymers has always demanded a deep understanding of both molecular science and end-user challenges. Through our decades creating high-functional acrylates, including the fluoroalkyl acrylate adduct aqueous solution (50%), we’ve learned the importance of balancing reliable chemistry with real-world applications. We’ve crossed hurdles—regulatory shifts, raw material shortages, and unexpected formulation issues—to keep production lines running and performance standards high.
Making water-based products behave like high-end solvent-based materials taught us to push boundaries with every new batch. This adduct represents that journey. We built our process to assure consistent batch quality—tight range on molecular weight distributions, narrow tolerance for active ingredient content, and clarity during the emulsion phase, because these details directly impact downstream success. From raw material sourcing to reactor setup and filtration, workers in our plant understand the consequences of drift or contamination. We audit incoming fluoroalkyl monomers for specific chain length profiles and polymerize under carefully controlled temperatures, so end users see the same performance every time: high repellency, lasting durability, and clean compatibility with a variety of resins and additives.
True value in a fluoroalkyl acrylate adduct doesn’t just come from surface-level chemistry. Our adduct in a 50% aqueous solution form brings several distinctions. We’ve committed years to refining the polymerization process until we achieved a blend that offers high active solids with a shelf-stable, low-foam, and low-viscosity profile. Many users report frustration with heavily stabilized emulsions that lose activity over time, or with solutions that need constant agitation. By tuning surfactant concentrations and testing for colloidal stability at a range of storage temperatures, we offer a stable dispersion that resists phase separation long after shipment.
High fluorine content is only the baseline. What really impacts performance is functional group placement and chain-end fidelity in the adduct. Our in-house analysis—using NMR and FTIR on production samples—lets us verify these features closely. This means formulators get a product that reacts predictably every time: less troubleshooting during batch scale-up, more confidence when applying to textiles, masonry, or paper coatings. Each shipment is tracked back to its reactor run, checked for both free monomer and oligomer content, so surprises in downstream processing stay rare.
We don’t push specs just for regulatory compliance. Solids content—to 50% by weight, as measured by our gravimetric methods—comes out as described because we calibrate alongside in-process QC, not just at final fill. pH buffers are selected for their chemical inertia with fluoroacrylate chemistry, staying within a pH window that avoids gelation and breakdown. Viscosity remains low for easy dosing and blending. Hard water tolerance is guaranteed because we run pilot trials in well, tap, and softened water, then look for haze or precipitation.
End-users in textile and carpet treatment tell us that off-odors or yellowing can cause reworks. To tackle that, we screen each batch for volatile byproducts and color using UV-Vis spectrometry before release. Those details aren’t just laboratory checkmarks; they drive real savings for users who hate re-blending or surprise downtime. We maintain transparent data logs and batch histories, so our customers in specialty coatings and construction materials can meet their own spec sheets with confidence.
Applications for this adduct stretch across industries, from eco-conscious paints for building exteriors to anti-stain and anti-graffiti barriers, floor finishes, and fabric protectors. Working with clients scaling up these applications, we’ve seen the pitfalls of inconsistent adduct chemistry—slipperiness, gloss loss, or surface blooming. Our process responds by holding a firm line on molecular weight and particle size distribution, giving users a reliable backbone that binds readily into acrylic lattices or polyurethane hybrids.
For formulators, the biggest value often comes not in theoretical maxima but in predictable mixing. We keep the solution at a stable 50% so that dilution and integration into existing water-based systems becomes a repeatable process. Supporting teams in pilot plants or R&D centers, we share insights from our own in-house testing on shear stability, crossover compatibility with nonionic and anionic latexes, and resistance to demulsification during high-shear mixing. By pulling samples during our own milling and dispersion steps, we can advise on how to avoid pitfalls that eat up project timelines downstream.
Where other suppliers might see a sale, we see a partnership—because every major innovation or quality improvement we make often starts with a customer phone call about a batch behaving differently after months of storage or transit. Our technical team assists in troubleshooting by reviewing not just COAs, but by recreating exact mixing and application conditions in our own pilot bays. Through this hands-on time, we close the gap between lab assay and line application.
What differentiates this adduct solution from straight fluoroacrylate monomers or copolymer dispersions is more than just the physical state. Adducts provide tightly controlled surface energy modifications without the long cure or high VOC levels that plagued previous-generation water repellents. We run direct comparison trials in our own facility, benchmarking against both competitor imports and lower-cost alternatives. The difference in water bead-up and stain resistance on test panels is not simply measurable, it’s repeatable.
Reliance on imported products often exposes customers to long lead times and batch-to-batch variability. By controlling our process from raw monomer sourcing to adduct formation and final filtration, we reduce those risks. Our plant runs semi-continuous batches, with in-line QC checkpoints from raw blend to final blend. Direct communication between manufacturing and technical teams keeps improvements flowing upwards—whether that means adjusting a surfactant blend for better freeze/thaw or recalibrating reactor temperature curves after raw material changes.
One common challenge for high-fluorine polymers lies in balancing robust water and oil repellency with flexibility and adhesion. Some commercial offerings drive too hard toward high fluorine density and end up brittle or chalking under real-use conditions. Our adduct’s proprietary backbone structure grew out of extensive weathering and abrasion tests—cycling coatings through sun, rain, freeze, and traffic wear—alongside side-by-side application in field trials. Over time, we’ve adjusted co-monomer selection and crosslinking levels to strike a practical balance, so results in the lab translate on site.
Years working through regulatory evolution around fluorochemistries taught us not to cut corners with environmental and user safety. Our team has participated directly in local and international working groups on PFAS alternatives and surface chemistry stewardship. This adduct’s formulation meets stringent limits on residual monomers and achieves fluorine content without the persistent long-chain PFAS structure regulators now avoid. Through careful choice of precursor monomers and cleansing cycles, we minimize free acid and unreacted starting material.
Customers needing detailed data for environmental, health, and safety documentation receive full analytical packages—routinely measured for total fluorine, organic fluorine speciation, and residual volatile content. We pursue ongoing research on biodegradable fluoropolymers and have integrated pre-compliance practices for ever-tighter EU and Asian market requirements. These investments arise not from outside pressure but from our own recognition that long-term viability depends on proactively pushing chemistry beyond today’s limits.
Whether a user formulates self-crosslinking latexes or wants to enhance hydrophobicity in masonry sealers, real-world results depend on more than just pouring from a drum. Our technical support group has spent years refining not only chemical performance but also the training and troubleshooting needed so users achieve the best from every kilogram they buy. We keep samples from every reactor fill, logging them for months in accelerated aging trials. If a client faces an issue—such as haze during mixing, drop in repellency, or pH drift—we review the plant history and track back to manufacturing logs to provide real insight, not just theoretical advice.
Beyond application, downstream affects each stage. For carpet manufacturers seeking to boost stain resistance under harsh cleaning cycles, our teams have run one-on-one tests mixing the adduct with various resin and crosslinker technologies, then monitored chemical integrity and repellency after multiple wash cycles. These case studies have prevented production downtime and improved product value for our partners. No off-the-shelf product matches this embedded expertise.
Key to using this adduct efficiently is its stability in liquid form. We package the solution in lined drums or totes after rigorous final filtration and anti-foam treatment. Over years shipping to warehouses from tropical to subarctic zones, we’ve tailored our surfactant system to provide robust freeze/thaw endurance. Even after several cycles, users find minimal phase separation, allowing for direct re-blending with gentle mixing. Where other materials break down or suffer from excessive thickening, ours retains pumpability and shelf life, because our laboratory constantly stress-tests storage and shipping conditions.
We include detailed storage guidance based on field studies—temperature ranges, agitation advice, drum headspace limits—not just lab data. If unexpected precipitation or surface skin occurs, customers can count on our rapid investigation and solution reports. In partnership with drum and tote suppliers, we also developed liner materials that avoid organic extraction, based on tests with aged samples under real use conditions.
Looking back through our company’s history, it’s clear that consistent output and honest support have built trust with users in every industry we supply. Over half our improvements since the first fluoroalkyl acrylate batch came directly from shop-floor suggestions and user feedback, not top-down marketing. By grounding each process revision in production reality—adjusting for real-world water conditions, pumping demands, or end-use durability—we design not just for today’s laboratory but for the actual demands of every day.
From batch record transparency to on-site troubleshooting, we ensure a continuous link between our plant and every user. Our logistics crew tracks each drum by lot and provides rapid reporting, so users never wait for answers when the stakes are high. We don’t rest on one-off quality; our team believes reliability gets proven with each shipment, not just promised on spec sheets.
Fluoroalkyl acrylate adducts, especially in stable aqueous concentration, have reshaped waterborne coating and repellent technologies. Through continuous improvement and hands-on troubleshooting, we’ve seen how robust backbone chemistry, strong end-group control, and consistently managed solids content translate into time saved and results achieved for users. With every batch and every partnership, our aim remains clearer: to provide the tools formulators need—not just chemicals, but the trust and information to use them well.
We will keep driving innovation, pushing for safer, more efficient, and more powerful solutions, because we see the daily results in our partners’ success. As regulations shift and demands rise, our experience manufacturing high-quality fluoroalkyl acrylate adduct aqueous solution (50%) will continue to provide the dependable performance and chemical support required for tomorrow’s breakthroughs.
