|
HS Code |
666152 |
| Product Name | AR Sodium Hexametaphosphate |
| Chemical Formula | Na6P6O18 |
| Molar Mass | 611.77 g/mol |
| Purity Grade | Analytical Reagent (AR) |
| Physical State | Solid |
| Appearance | White crystalline powder |
| Package Size | 500g |
| Solubility In Water | Highly soluble |
| Cas Number | 10124-56-8 |
| Storage Conditions | Keep in a tightly closed container, store in a cool, dry place |
As an accredited AR Sodium Hexametaphosphate 500g factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The packaging is a sealed, white plastic bottle labeled "AR Sodium Hexametaphosphate, 500g," featuring safety instructions and manufacturer details. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for AR Sodium Hexametaphosphate 500g: Typically holds ~14–16 metric tons, packed in sealed, labeled cartons. |
| Shipping | AR Sodium Hexametaphosphate 500g is securely packed in a high-quality, airtight container to ensure product integrity during shipping. It is shipped as a non-hazardous chemical with proper labeling and documentation, following safety regulations to prevent moisture exposure or contamination during transit. Delivery typically occurs within 3–7 business days. |
| Storage | Store AR Sodium Hexametaphosphate 500g in a tightly sealed container, in a cool, dry, and well-ventilated area, away from moisture and incompatible substances such as strong acids. Keep the storage area free from direct sunlight and ignition sources. Clearly label the container, and ensure it is stored at room temperature. Always follow relevant safety and chemical handling guidelines. |
| Shelf Life | AR Sodium Hexametaphosphate, 500g, typically has a shelf life of 3–5 years when stored in a cool, dry place. |
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Purity 99%: AR Sodium Hexametaphosphate 500g with purity 99% is used in analytical chemistry, where it ensures consistent sequestration of metal ions for precise titrations. Molecular Weight 611.77 g/mol: AR Sodium Hexametaphosphate 500g of molecular weight 611.77 g/mol is applied in water treatment laboratories, where it enhances the dispersion of suspended solids for accurate turbidity measurement. Particle Size <100 µm: AR Sodium Hexametaphosphate 500g with particle size below 100 µm is used in ceramics formulation, where it improves uniform blending and surface finish quality. Stability Temperature up to 500°C: AR Sodium Hexametaphosphate 500g with stability temperature up to 500°C is used in boiler water conditioning systems, where it prevents scale formation and maintains heat transfer efficiency. Solubility in Water >25g/100mL: AR Sodium Hexametaphosphate 500g with water solubility over 25g/100mL is employed in pulp and paper laboratories, where it acts as a dispersing agent to optimize fiber separation. pH (1% solution) 6.5–8.0: AR Sodium Hexametaphosphate 500g with pH range of 6.5 to 8.0 in 1% solution is used in laboratory reagent preparations, where it maintains solution stability for consistent analytical results. Arsenic Content <0.0001%: AR Sodium Hexametaphosphate 500g with arsenic content below 0.0001% is utilized in food analysis laboratories, where it ensures minimal contamination for high-purity testing environments. Lead Content <0.0005%: AR Sodium Hexametaphosphate 500g with lead content less than 0.0005% is used in pharmaceutical quality control, where it guarantees product safety for sensitive assays. Moisture Content <0.5%: AR Sodium Hexametaphosphate 500g with moisture content below 0.5% is applied in detergent formulation labs, where it secures optimal shelf life and prevents agglomeration of powdered mixes. Chloride Content <0.03%: AR Sodium Hexametaphosphate 500g with chloride content less than 0.03% is used in electroplating baths, where it allows accurate control of ionic strength for uniform metal deposition. |
Competitive AR Sodium Hexametaphosphate 500g prices that fit your budget—flexible terms and customized quotes for every order.
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Every day, we handle batch after batch of AR Sodium Hexametaphosphate in our facility. There’s a familiar, almost predictable pattern to opening specialty drums, inspecting the off-white crystalline material, and knowing the level of purity we’re sending out. This product under our own label carries a consistent grade, carefully measured at 500 grams per bottle, designed for precise laboratory and production settings.
Over the years, we’ve watched the way customers rely on AR grade materials for work demanding accuracy and certainty. Each lot of AR Sodium Hexametaphosphate gets rigorously tested—using in-house analytical methods verified by years of side-by-side comparison with instrumental data. We source our raw sodium salts with care to avoid trace metal contamination, and the final material faces repeated washing and vacuum drying stages. Our staff monitor every run, making sure the end product meets published analytical reagent standards. The 500g packaging caters to research teams, quality-control labs, and pilot-scale production lines that cannot risk inconsistency or impurities.
The AR label here means ‘Analytical Reagent’, which refers to a level of purity needed for analytical chemistry. For each 500g batch, it’s not just the minimum content of the hexametaphosphate ion that matters, but also the levels of phosphate, iron, arsenic, and heavy metals. Tightest tolerances go into every cycle—trace lead, barium, and calcium fall within strict boundaries. Occasionally, customers ask why we still bottle in 500g rather than go more wholesale. The answer always comes back to stability and practical use: opening large drums increases ambient exposure and moisture uptake, lowering shelf-life in humid environments. Smaller packs protect material from environmental spoilage, a lesson we learned early after fielding complaints from users in coastal regions.
Our own QC chemists reach for the same bottles that ship to our clients, and that says a lot about how much confidence we put behind each package. In our own experience, poorly-sealed packs become clumpy or show caking after a month. By keeping fill levels tight, using controlled-humidity rooms for storage, and following lot tracking down to each bottle, we protect product stability from the day it’s labeled to the moment a technician opens it.
Not every hexametaphosphate is made for critical work. With technical and industrial grades, production follows a more relaxed regime—higher throughput, less attention to trace elements, and simpler filtration processes. Some suppliers even blend batches or use cheaper starting materials, saving cost but sacrificing the performance needed for research, food analysis, or pharmaceutical prep. Through decades of feedback from industry and academia, we maintain a single-source approach to the AR line: no blend lots and no substitution between runs.
Trace metals show up most often in color development, especially for labs doing colorimetric or spectrophotometric work. When manufacturing AR Sodium Hexametaphosphate, the water used in processing passes at least two separate demineralization systems. Filters see routine changes, and lots are identified for even minor deviations. This translates into a higher degree of reliability for chemists calibrating instruments or running quantitative assays with phosphate buffers. Users in water treatment and dairy analysis especially notice the difference, since even small amounts of iron or calcium can skew results or trigger unwanted precipitation.
We also avoid polyphosphate chain-length problems by carefully controlling process temperature and reaction time during polymerization. Routine FTIR testing confirms the absence of orthophosphate and low-cyclic fractions. Over the years, some industries switch to our AR grade after frustration with glassiness, inconsistent flow properties, or unresolved impurities.
Whether prepping standards in analytical chemistry or relying on it for dispersing agents in industrial treatment, the 500g AR Sodium Hexametaphosphate has proven itself repeatedly. In food labs, techs use it to keep calcium and magnesium from screwing up tests in cheese or milk samples. Chemists run soil phosphorus extraction for agricultural research hundreds of times a year, and the product remains a cornerstone for buffer preparation. Ceramics and pigment manufacturers, looking for reproducible coating or slip properties, come back to our AR grade because they can’t afford the unpredictability of technical products.
We see different methods for using the same batch. Research labs prepare analytical standards that are stable for months without notable pH drift. Environmental labs favor the AR grade when prepping water samples, avoiding background phosphate scatter for low-concentration measurement. Water treatment engineers value chain integrity, as it prevents degradation under common field conditions, reducing need for constant recalibration. Chromatography specialists note the clear advantage in baseline stability over lower-purity competitors.
In our technical support history, practicality matters more than theoretical performance. With sodium hexametaphosphate, storage, handling, and measuring take center stage. We field recurring questions about clumping, so every shipment leaves tightly sealed, and includes moisture indicator cards after requests from university labs. Direct feedback from seasoned users drove us to tweak the fill and seal design to cut down on product loss or long-term degradation.
One recurring scenario comes from dairy product quality labs. Their analysts, working under tight timeframes, need each reagent to stay free-flowing and reliable for monthly standards analysis. They add our AR Sodium Hexametaphosphate by mass directly to buffers, and never report problems dissolving or dispersing the material. Customers moving from technical to AR grade often remark on smoother dissolving and fewer undissolved residues, especially important in colorimetric calcium analysis.
We frequently talk to users who’ve found technical and industrial grades don’t pass muster for critical work. The differences spring directly from manufacturing practice, not just paperwork. Lower grades come out of larger, less-controlled systems—with minimal trace element removal, fewer washings, and broader target specifications. While these can be adequate for water softening or concrete additives where purity isn’t mission-critical, our AR production line sees regular equipment upgrades, raw input batch controls, and multi-stage product testing.
Our team once dealt with a new customer struggling with foaming in their water analysis workflow. On investigation, the non-AR grade hexametaphosphate they’d sourced showed metal interference. Switching to our AR grade eliminated both the color interference and the foaming—a reminder that impurity profile matters, not just for regulatory labs but also for quality assurance in consumer products.
Technical grades might look similar to the eye, but even tiny deviations appear in test data: spectrophotometer background readings fluctuate, titration endpoints stretch out, and chromatograms reveal extra peaks. Some food and beverage labs have failed audits or wasted working hours double-checking questionable results. Our AR bottles go into blind proficiency tests and meet known reference results—an advantage for anyone whose reputation depends on reliable data.
Industrial users often ask if AR is “overkill.” Cost poses a serious factor, especially on pilot lines. But as some have learned, batch losses and reruns from using lower-grade material can far outweigh the upfront difference. We see a growing preference for AR grade even in small-scale plant trials focused on commercialization, where consistency pays for itself.
From a manufacturing floor perspective, safety gets woven into everything. AR Sodium Hexametaphosphate follows guideline compliance not only for basic handling, but also for shipment and storage. Our packing staff wear eye protection and gloves; bulk areas receive routine air sampling to track phosphate dust levels. Once, a spill occurred outside a weigh-station, and immediate, guided cleanup procedures prevented contamination of adjacent AR product lines. We regularly audit storage rooms for humidity swings, since excess moisture affects flow properties and can promote unwanted hydrolysis over time. Regular retraining keeps these habits alive and alert, reducing product rejects and preserving analytical performance for users.
Partners often need certificates or proof of traceability on demand. We store batch data for a minimum of seven years, maintaining access to analytical results across production cycles. In rare cases, a lot fails the AR standard—the product never enters commerce, and our lab team reviews the process from filtration to bottling. Because environmental authorities and food safety labs rely on these chemical qualities, failing to meet AR spec could mean regulatory delays or setbacks for end users. Our reputation has grown around this attention to traceability and transparency.
We’ve also worked on compliance documentation to meet international standards. Global customers sometimes require translation and supporting literature demonstrating AR purity. Our in-house specialists collaborate with labs to provide straightforward support, not boilerplate paperwork. By sticking to consistently high manufacturing control, we maintain current certification records and update users about even small procedural changes.
Direct feedback teaches us more than any in-house shelf study. Our 500g AR Sodium Hexametaphosphate ships with a tamper-evident seal because a few persistent users found their stock contaminated after shared storage. After introducing desiccant packets, post-shipment flowability reports improved. We hear repeatedly that keeping the material tightly sealed in a cool, dry room is enough for typical lab use, but some teams go further. Some refrigerate partially used bottles, especially in high-humidity seasons, though in most climates, room temperature in a sealed pack suffices for retaining the free-flowing character.
During site visits, we’ve noted storage shelves stacked away from water lines and sources of vibration to reduce the odds of clumping or mechanical breakdown of the crystalline polymer. In busy analytical departments, careful rotation of inventory ensures that no bottle sits longer than necessary, maintaining maximum reliability. Our field sales engineers always recommend labeling open dates on bottles for better trace tracking and stock management.
Lab managers appreciate that the 500g size matches the scope of monthly or quarterly analytical runs, avoiding long-term open exposure. By focusing on this specific size, we sidestep much of the waste and spoilage associated with larger packaging. Smaller research labs, with limited purchasing budgets, also find it simpler to control usage and maintain inventory with these packs, cutting down on restocking frequency.
Our manufacturing plant learns from every field report, annual audit, and customer suggestion. A decade ago, packaging failures drove us to redesign seals and inner liners. Two years back, complaints about static-induced spillage prompted us to add anti-static liners to select shipments in arid regions. It’s never enough to simply meet the baseline of AR specifications; direct user outcomes determine whether our product makes the grade.
We maintain partnerships with technical colleges and national labs, sending samples for side-by-side usability comparisons with competitors. These field tests help us spot any gap between factory quality and real-world expectations. Honest evaluation leads to ongoing investment in both production and workflow, and every bug, from labeling durability to lot code readability, receives a methodical response cycle.
User education also plays a defining role. A good number of AR Sodium Hexametaphosphate users come from non-chemistry backgrounds. We worked to make our handling instructions straightforward, answering recurring questions about solubility limits, shelf stability, and residue minimization. Over time, this reduced avoidable waste and prevented troubleshooting headaches for new users.
Our factory pays close attention to the sourcing of sodium carbonate and phosphoric acid—the building blocks for AR Sodium Hexametaphosphate. After years of adjusting to market price swings and supply disruptions, we developed long-term supply contracts ensuring stable quality without spot-market volatility. These relationships allow for consistent lot-by-lot performance, despite changing regulatory pressure or sector demand.
Waste minimization gets built into each cycle. By recycling wash water after testing and using energy-efficient vacuum dryers, we shrink our footprint. Solid waste from process equipment is confined, labeled, and taken off-site for appropriate treatment, with regulatory audits at every stage. Customers want assurance that their reagent bottles don’t carry unnecessary environmental impact, and we keep them updated about steps to minimize process energy and raw material waste.
We make it a habit to listen not only to feedback from regular purchasers, but also to reports from occasional customers. Labs scaling their operations sometimes describe unexpected jumps in chemical demand or new methods requiring even tighter impurity controls. By maintaining flexible workflow lines, our plant adapts without skipping quality assurance steps. Some of our longer-term clients have even visited to see production in person, verifying the steps we use to protect AR status from batch contamination or raw material variations.
With each advance in analytical instrument sensitivity, the bar raises for manufacturers of chemical reagents. We see it in customer requests for batch-level certificates, lower detection limit guarantees, and even direct impurity profiling. In response, our factory invested in more advanced instrumental analytics and brought in specialists to refine our methods for detecting ultra-trace contaminants. The need for trust grows as methods evolve, and our reputation hinges on not just meeting but anticipating these demands.
Large university research departments and multinational R&D teams frequently rely on technical partnerships with us. By providing open lines to our plant management and technical team, we help users troubleshoot novel methods, explore new use cases, or source customization of sodium hexametaphosphate batches for cutting-edge applications. It’s a two-way channel; lab reports feedback to factory, factory pushes continual improvement into the next cycle.
Day in, day out, we see chemists, process engineers, and lab staff reach for these bottles, trusting the careful control and hard-earned reliability behind each one. Our AR Sodium Hexametaphosphate 500g continues to stand as a dependable tool because every technical detail—source, purity, batch integrity, and user interaction—is built on direct manufacturing experience. Meeting standard isn’t enough; we keep learning, improving, and listening, so those who depend on precision see tangible benefits every time that bottle hits the benchtop.
