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All Right Reserved
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HS Code |
394520 |
| Chemical Name | Hyaluronic Acid Salt |
| Other Name | Sodium Hyaluronate |
| Molecular Formula | C14H21NO11Na |
| Molecular Weight | 403.31 g/mol |
| Appearance | White to off-white powder |
| Solubility | Highly soluble in water |
| Cas Number | 9067-32-7 |
| Ph 1 Solution | 5.5 - 7.5 |
| Odor | Odorless |
| Storage Condition | Store in a cool, dry place |
| Stability | Stable under recommended storage conditions |
| Use | Humectant and moisturizer in cosmetics |
| Source | Biotechnologically produced or extracted from rooster combs |
| Bulk Density | 0.3 - 0.5 g/cm³ |
| Melting Point | Decomposes before melting |
As an accredited Hyaluronic Acid Salt factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | White, tightly sealed HDPE bottle containing 100g Hyaluronic Acid Salt; labeled with product name, batch number, purity, and safety information. |
| Shipping | Hyaluronic Acid Salt should be shipped in tightly sealed containers, protected from moisture and light. It is generally non-hazardous, but packages should be clearly labeled and handled with care. During transit, maintain a cool, dry environment to preserve product integrity. Follow regulatory guidelines for storage and shipping of laboratory chemicals. |
| Storage | Hyaluronic Acid Salt should be stored in a tightly sealed container, away from light and moisture, in a cool, dry place—preferably at 2–8°C (refrigeration). Avoid exposure to heat, humidity, and incompatible substances. Storage conditions should prevent contamination or degradation, ensuring the material remains stable, dry, and free from microbial growth. Always follow manufacturer guidelines for optimal shelf life. |
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Purity 98%: Hyaluronic Acid Salt with purity 98% is used in dermatological serums, where enhanced moisture retention and low impurity content ensure optimal skin hydration. High Molecular Weight 1.5 MDa: Hyaluronic Acid Salt with high molecular weight 1.5 MDa is used in ophthalmic formulations, where extended ocular surface residence time promotes sustained lubrication. Viscosity Grade 800,000 cps: Hyaluronic Acid Salt with viscosity grade 800,000 cps is used in injectable joint therapies, where superior viscoelasticity provides effective shock absorption and lubrication for articular cartilage. Stability Temperature 60°C: Hyaluronic Acid Salt with stability temperature 60°C is used in high-temperature cosmetic processing, where thermal stability preserves active performance during manufacturing. Particle Size <10 µm: Hyaluronic Acid Salt with particle size less than 10 µm is used in transdermal drug delivery systems, where fine particle dispersion enables improved bioavailability and absorption. Melting Point >200°C: Hyaluronic Acid Salt with melting point above 200°C is used in advanced wound dressings, where thermal resistance maintains structural integrity during sterilization processes. Endotoxin Level <0.05 EU/mg: Hyaluronic Acid Salt with endotoxin level below 0.05 EU/mg is used in pharmaceutical injectables, where low pyrogenicity ensures patient safety and complies with regulatory standards. pH Range 6.5–7.5: Hyaluronic Acid Salt with pH range 6.5–7.5 is used in eye drops, where physiological pH compatibility minimizes irritation and enhances user comfort. Bulk Density 0.4 g/cm³: Hyaluronic Acid Salt with bulk density 0.4 g/cm³ is used in tablet manufacturing, where optimal flowability and compressibility improve production efficiency. Osmolarity 280–320 mOsm/kg: Hyaluronic Acid Salt with osmolarity 280–320 mOsm/kg is used in infusion solutions, where isotonic balance supports safe intravenous administration. |
Competitive Hyaluronic Acid Salt prices that fit your budget—flexible terms and customized quotes for every order.
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The process of making hyaluronic acid salt keeps us focused—quality and consistency always demand close attention. In our production lines, this material comes off reactors and filtration units in precise lots. We don’t need to speculate about what goes into each batch. Every sack or drum we ship holds the result of microbial fermentation, purification, and carefully controlled crystallization. You can see this effort in the transparency, clarity, and water solubility every time you weigh out a sample.
Our team measures every variable: molecular weight, moisture, endotoxins, and trace proteins. The numbers stay predictable, batch after batch, so formulators don’t scramble to adjust their mixing tanks or recalibrate their lines. We’ve handled hundreds of tons over the years. Issues don’t get ignored. If impurities creep above specification, we catch it and troubleshoot—swapping filters, adjusting fermentation cycles, revisiting enzyme timing. This is the kind of work that shapes reliable product, not just the glossy paperwork of certificates.
This material turns up in a variety of finished goods. The biggest volumes head into skincare and medical device manufacturing. Our sodium hyaluronate consistently hits the target range of molecular weights, often 0.8 to 1.5 million Daltons for topical and injectable grades. Some customers buy high-molecular-weight grades to build viscosity and hydration in gel serums. Others request low-weight fractions, which deliver easier skin penetration or enhance bioavailability in oral products.
Handling the crystalline or powdered form, you can practically feel the smooth, tack-free flow. No clumping, no dust storms, and no agglomeration headaches. This lets the product disperse fast when stirred into water. Labs have told us the rehydration profile means less mixing time, less clogging at fill-nozzles, and easier scaling from pilot batches to commercial production.
Cosmetic brands use our ingredient to claim “deep moisture” and “plumping” effects, but the science really develops in industrial and pharmaceutical spaces. Cross-linked derivatives, hydrogels, and injectable viscoelastic solutions all get their backbone from this salt. Thanks to careful upstream and downstream controls, our hyaluronic acid salt passes the microbial and pyrogen tests that strict medical customers require. Orthopedic device developers demand those rigorous standards for every intra-articular or ocular application.
Hyaluronic acid salt isn’t all the same. Our receiving dock sometimes gets samples from market competitors. Side by side, we run chromatography and impurity panels. The low-grade stuff clumps and won’t dissolve cleanly, blowing up viscosity during pilot trials. Impurity markers, odd odors, or yellow tint point to cut corners in fermentation or failed drying steps. This is where we step up—fixing minor upstream details, switching to higher purity water, and training fermenter operators to check every batch.
Customers report that granule size, free-flowing consistency, and absence of insoluble particles save hours in batch processing. Some new buyers who once tried commodity products even send back feedback: no more clogged mesh screens, less powder loss in blending, and smoother product launches. Some have seen significant cost savings due to better mixing and less waste. Our engineers like to call this “quiet supply”—no surprises, no recalls, no explaining why a batch fails under pressure.
Our quality team checks molecular weight, pH, and solubility, plus heavy metals and endotoxin counts on every production lot. We see hyaluronic acid sodium salt with heavy metal levels well below 1 ppm, endotoxins in the low EU/g range, and protein residues held so low they dodge protein stains in most test kits. Tensile viscosity tests, particle imaging cameras, and high-end GPC analyzers run every week on lot samples. These checks aren’t just fancy buzzwords—they mean formulators and production teams get material with no weird surprises.
We never chase purity just for marketing. Our customers rely on clean, free-flowing powder that hydrates instantly. The non-gelling, non-sticky feel in water comes directly from controlled polymerization and efficient drying techniques. Overheating or under-drying ends up making a sticky mess—something junior operations staff learn on their first shift.
The core grade we manufacture most is sodium hyaluronate for broad-spectrum use, from 0.8 to 1.5 million Dalton. Specialty projects sometimes call for finely-tuned fractions, and we split off ultra-high-molecular-weight grades for research and advanced wound care products. Our plant also produces lower-weight grades, down to 30,000 to 300,000 Dalton, often used in supplements or where low viscosity is key.
Some batches get slightly tweaked moisture content (under 10%) for customers with strict shelf-life protocols. These tweaks happen in-line and not through re-drying outside the main process stream, thus avoiding any heat degradation or clumping. Our powder usually runs at 5-8% moisture, always tightly monitored to suit long-haul shipments to desert climates or high-humidity regions. It’s about understanding real customer handling, not aiming for a “best-case scenario” spec that collapses in non-lab conditions.
Over years of scale-up, we’ve seen every hiccup—batch foaming, minor contamination, flaky gel phases—and found solutions so the final product delivers. Some days it means re-calibrating autoclaves, other times fixing fermenter pH probes that drift over time. Personnel training directly affects output. As the crew grows, we spend more time teaching what real “clear” hyaluronic acid salt looks, feels, and smells like. You can’t automate that with sensors or remote cameras.
We’ve learned customer priorities—cosmetic companies stress color and clarity; medical customers look for aggregate-free material with pyrogen readings under 0.25 EU/mg; supplement makers focus on raw flow and water uptake. Adjusting our fermentation and recovery methods, we address these requests instead of offering cookie-cutter products. Real partnerships start with technical support, not just logistics.
Third-party sellers like to talk about volume and reach. We live on the factory floor. Every morning starts with gear checks—calibrated pH meters, clean lines, and sterilized fermenters. Each tonne of sodium hyaluronate runs through sequential purity, moisture, and molecular integrity controls. Our operators trim batch conditions, troubleshoot pumps, or check microbial control points, not just once but with every new lot.
Drying and milling lines get cleaned and inspected between runs to prevent cross-contamination, particularly for medical grades. Our raw material buyers evaluate glucose and yeast for fermentation and verify traceability to make sure no mystery contaminants make their way in. This “no surprises” attitude ensures the end user—whether a contract manufacturer or leading multinational—receives material with consistency they can see and measure.
Some supply partners ask about traceability for audits. Because we run our own tanks and downstream lines, we offer lot-to-lot records, analyst signatures, and cross-checked readings. No batch leaves without full documentation from fermentation start to product bagging. Our archiving procedures pull up these records long after shipping, so repeat clients trust in the quality and compliance.
Every customer question comes straight to the production office—rare flavors, cloudy dissolution, or documentation for import. We supply answers because we know where the material came from, how it was dried, and the steps taken during fermentation. Some calls come from busy technical teams needing solubility benchmarks to tweak mixing lines. Others involve regulatory documentation for audits or special labeling needs.
We address these requests by sharing genuine lab data, not generic marketing lines. New customers, especially those switching suppliers, often call about lot transition issues. Their former material might clump or create variable viscosity in finished goods. Our operations team talks through rehydration steps, grade selection, and pilot blending tips learned by running hundreds of internal tests—not just reporting what industry guidelines recommend.
Rarely does a day pass without discussing challenges—static buildup in dry environments, temperature instability during shipment, or differences in handling between batches. We dig into every one to keep delivery consistent and performance predictable.
The feedback loop matters. Some personal care brands use our sodium hyaluronate for its transparency and feel—a point of pride in skin serums or sheet masks. Their teams praise the instant, non-tacky texture with water, so blending into emulsions or hydrogels goes fast. In medical device assembly, the request centers on pyrogen-free status and low residue, enabling safe use in wound dressings, lubricating gels, or synovial injections.
Pharmaceutical and supplement formulators often point to tight particle size distribution—no large clumps or stubborn crystals. They save hours since powders flow out of bags, blend into other raw materials, and don’t hang up in pneumatic lines or auger conveyors. Contract manufacturers note lower dust, so workers experience less irritation or exposure. These aren’t theoretical concerns. We design dryers, screeners, and pack-out equipment around human factors based on first-hand operator feedback.
Sodium hyaluronate sourced from us rarely needs reformulation or troubleshooting when switching away from lesser grades. Some ingredients look fine on paper but cause batch-to-batch variation, fail regulatory scrutiny, or create headaches at scale-up. We use high-spec fermentation inputs and clear, monitored water. Finished product runs through high-grade filters and dryers to remove microbial, protein, and heavy metal residues.
Other manufacturers sometimes push high-yield but poorly washed materials, creating yellowed color or unwanted odor. We lab-test every lot for these sub-visual indicators before shipment. Polysaccharide degradation, mold or off-notes, and odd impurities get caught and pulled out of the supply chain before a client ever opens a drum.
Our powder maintains pH stability, true white appearance, and consistent hydration time—so no process engineer gets an unpleasant surprise in the mixing tank. Unlike commodity material, which can behave unpredictably, our product acts as a stable performer in varied environments. Quality stays high, whether the material ships to desert, tropics, or high-altitude climates.
Even with years of production, challenges never stop. Global logistics stress any supply chain, making moisture uptake, temperature spikes, and contamination a constant worry. We solve this with improved packaging—moisture barrier bags, tamper-evident seals, and export-grade drums. Factory floors sometimes deal with shifting humidity or temperature swings, so our storage and handling protocols restrict warehouse airflow, control temperature, and minimize risk of condensation or microbial exposure.
Some end users try to save pennies sourcing offspec or generic material, only to spend hours and lost profit handling rework or product recalls. Our choice is to focus on steady, high-validation grade material, minimizing those hidden costs. This strategy pays off for customers measuring efficiency, rework rate, and regulatory compliance year after year.
When regulatory environments shift—new cosmetics laws, pharmaceutical requirements, or cross-border certifications—our documentation flows directly from in-plant records. No outsourced confusion or lost audit trails. Customers with new product launches, R&D runs, or large-scale rollouts call us for on-the-spot tech support. We know which adjustments work and which shortcuts actually create risk.
Our product doesn’t just occupy space in a spec sheet—it gets built to handle real process lines, human teams, and regulatory scrutiny. Blending it into emulsions or base gels goes smoothly, requiring no complex tricks. Results don’t hinge on a “perfect day” in the lab. Shipments stay stable even after long transit in variable warehouse conditions.
Team experience stretches every part of our operations—from raw fermentation inputs to drum sealing and shipment tracking. Genuinely tested and inspected, each shipment stands up to both in-house scrutiny and customer process validation. Our sodium hyaluronate serves the current landscape: versatile enough for personal care, sturdy enough for pharmaceuticals, consistent enough for any regulated industry oversite. Real knowledge, lived on the manufacturing floor, shapes the product every time.
