|
HS Code |
961861 |
| Product Name | AR Potassium Antimony Tartrate |
| Chemical Formula | C8H4K2O12Sb2·3H2O |
| Molar Mass | 667.87 g/mol |
| Purity | Analytical Reagent (AR) Grade |
| Physical State | Solid |
| Color | Colorless or white |
| Solubility In Water | Highly soluble |
| Storage Conditions | Store in a cool, dry place |
| Container Size | 500g |
| Cas Number | 28300-74-5 |
As an accredited AR Potassium Antimony Tartrate 500g factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The AR Potassium Antimony Tartrate 500g comes in a sealed, white HDPE bottle with a secure blue screw cap and printed label. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for AR Potassium Antimony Tartrate 500g: Typically 14,000–16,000 bottles, securely packed to prevent contamination and damage. |
| Shipping | Ships in secure, leak-proof packaging compliant with safety regulations for hazardous chemicals. AR Potassium Antimony Tartrate 500g is labeled according to GHS standards and packed with cushioning material to prevent breakage. Transportation is via licensed carriers, with proper documentation provided. Delivery typically takes 3–7 business days, depending on destination. |
| Storage | Store AR Potassium Antimony Tartrate 500g in a cool, dry, well-ventilated area, away from incompatible substances such as acids and strong oxidizers. Keep the container tightly closed and properly labeled. Avoid exposure to moisture and direct sunlight. Use only with appropriate chemical-resistant storage and shelving. Follow all relevant safety, handling, and disposal guidelines as specified in the material safety data sheet (MSDS). |
| Shelf Life | AR Potassium Antimony Tartrate typically has a shelf life of 3-5 years if stored tightly sealed in a cool, dry place. |
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Purity 99%: AR Potassium Antimony Tartrate 500g with purity 99% is used in analytical chemistry, where it ensures high accuracy in quantitative determination of reducing sugars. Molecular Weight 333.93 g/mol: AR Potassium Antimony Tartrate 500g with molecular weight 333.93 g/mol is used in reference standard preparations, where molecular consistency provides reliable calibration results. Solubility in Water 12g/100ml at 20°C: AR Potassium Antimony Tartrate 500g with solubility in water 12g/100ml at 20°C is used in solution preparation for laboratory titrations, where rapid dissolution improves workflow efficiency. Stability Temperature up to 110°C: AR Potassium Antimony Tartrate 500g with stability temperature up to 110°C is used in high-temperature test protocols, where compound integrity is maintained under strict thermal conditions. Assay ≥99.5%: AR Potassium Antimony Tartrate 500g with assay ≥99.5% is used in spectrophotometric analysis, where high assay value delivers consistent absorbance readings. Particle Size <80 mesh: AR Potassium Antimony Tartrate 500g with particle size <80 mesh is used in volumetric reagent formulation, where fine dispersion enhances solution homogeneity. Iron Content ≤ 0.002%: AR Potassium Antimony Tartrate 500g with iron content ≤ 0.002% is used in trace metal analysis, where low iron minimizes sample contamination. Chloride Content ≤ 0.001%: AR Potassium Antimony Tartrate 500g with chloride content ≤ 0.001% is used in purification processes, where low chloride ensures sample purity in sensitive assays. |
Competitive AR Potassium Antimony Tartrate 500g prices that fit your budget—flexible terms and customized quotes for every order.
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Producing chemicals is much more than mixing the right ingredients together; every batch reveals something about quality and consistency. AR Potassium Antimony Tartrate, which comes in a 500g package, has become a regular feature in our production lines thanks to its role across laboratories and various industries. Years spent refining this compound have shown us how tiny details at every stage—from sourcing to drying, from batch control to quality checks—can impact everything downstream for chemists and technicians.
We see Potassium Antimony Tartrate well recognized under various trade names. The AR grade signifies analytical reagent quality, meeting strict purity requirements. Delivering this level of reliability means we select our antimony trioxide and potassium bitartrate with exact care. Each lot reaches a purity that suits analytical chemistry, ensuring customers get reproducible results every time. Confidence in your reagents starts with diligence in ours.
Through our production line, we have gained a real appreciation for how consistent particle size, absence of heavy metals, and dryness affect both usability and storage. Handling Potassium Antimony Tartrate means thinking about not only chemical composition but also the finished product’s look and feel. Granules that flow smoothly into a beaker, that leave no residue on the container, and that resist caking on a humid day—these details might seem small, but they become significant hurdles in daily workflows if overlooked.
Our 500g offering gives laboratories and manufacturing teams a comfortable midpoint between cost, shelf life, and volume. We ensure that the packaging preserves the tartrate against moisture and contamination, as even slight moisture uptake can alter its performance in complexometric titrations or as a mordant in textile applications. Industry experience has taught us that purity is only half the story; presentation and stability complete the value of the product.
For those working in research, clinical analysis, or industrial quality control, differences between AR grade and lower grade chemicals translate into fewer uncertain results and rework. Other grades allow higher levels of contaminants, frequently becoming a hidden factor in inconsistent results or unexpected side reactions—a missed detail that can undermine a full day’s work. AR Potassium Antimony Tartrate is tested to ensure heavy metals and organic impurities remain below defined trace thresholds. Real-world testing during process scale up, not just lab-bench certification, forms the backbone of our QC philosophy.
Many customers ask about the difference between analytical reagent and technical grade. In analytical routines, even a few parts-per-million iron or lead can seriously skew colorimetric tests or catalyze unwanted reactions. We designed our processes to meet these realities. Filtration, repeated recrystallizations, and full trace analysis become non-negotiable steps rather than luxury extras. Over the years, feedback from research scientists and in-house validation have pushed us to maintain the strictest controls—well above basic regulatory minima—so that results stand not just for compliance but for real trust.
It’s not uncommon for us to hear back from users applying this compound beyond a simple titration. Academia still leans on Potassium Antimony Tartrate as a standard for the determination of alkali content or in the quantification of certain ions. Our production team receives frequent queries on blending this product into specialized stains for microscopy, or in glass etching. While the compound’s use as an emetic has faded, its analytical and industrial importance has only grown.
From direct experience, we’ve seen large textile operations rely on this tartrate as a mordant, fixing dyes in printed fabrics. The results—a difference between a vibrant, stable color and one that fades after washing—demonstrate why the AR grade is more than a marketing term. Any organic or metallic contaminant can lead to uneven staining or interference with dye chemistry, problems that a well-made AR product eliminates.
In our own QC labs, Potassium Antimony Tartrate features in routine water analyses to detect trace amounts of alkaloids and metals. Accuracy here translates directly into the reliability of municipal or industrial water supply reports. Because we know what impurities in the reagent can do to sensitive methods, we continually fine-tune our purification methods and train new chemists in these technical subtleties.
We approach each batch of AR Potassium Antimony Tartrate 500g with the mindset that a laboratory somewhere will depend on the results it produces. Reputation means little if the end-user can’t trace good data back to good reagents. We start with high-purity raw materials, often justified by years of joint research agreements with trusted suppliers. Every incoming consignment of antimony salt undergoes ICP-MS screening against a catalog of possible contaminants.
Crystallization steps get logged, monitored, and sampled. Packing only starts after full drying and a final homogeneity check. Our technical teams know the value of hands-on troubleshooting, tracking seasonal weather variation’s effects on caking or sticking, particularly at larger package sizes. On the few occasions customers reported flowability issues, an investigation always led to improvement—not just in production, but in raw material logistics and handling instructions as well.
Because Potassium Antimony Tartrate contains antimony, a toxic heavy metal, we work to ensure both safe handling and environmental stewardship throughout its lifecycle. Our production workflows include separation and disposal systems to prevent fugitive antimony dust or wash-water from entering municipal systems. We promote clear labeling and site training for all staff and customers, focusing on real-life exposure risks and first-response steps, rather than relying solely on compliance documentation.
Transport and packaging regulations continue to evolve, and our logistics teams adapt fast, securing approvals for every geography we serve. Transport partners receive continuous updates on best practices for handling toxic chemicals, and we collaborate with local authorities to address hazardous waste streams at the end-user site. Shared responsibility—rather than shifting burden up or down the supply chain—leads to better safety outcomes and greater trust.
No product ever stays perfect without feedback. Over years of fielding customer calls and site visits, we’ve seen some persistent questions about Potassium Antimony Tartrate. Some involve shelf life in humid regions, or storage in areas with regular electrical blackouts where conditioning is unreliable. On several occasions, users in tropical areas saw slight clumping, even inside sealed bottles. That feedback pushed us to review our packaging specification—switching to more robust seals, and adding desiccant where needed.
Waste management remains a tough issue for industrial buyers. Regulations on antimony disposal become tighter with each passing year. We’ve partnered with hazardous waste firms to offer take-back programs, and support customer education on contained neutralizing techniques. No one wants material left to accumulate in store rooms, so clear use-by dating and best-practice guides have become essential tools in building user confidence and reducing chemical left-overs.
Sizing matters, and from years of batch production, the 500g format strikes a balance for most organizations—enough to last through repeated testing, but not so much as to risk degradation before use. Some customers require larger packages for plant operations, others opt for smaller jars in high-turnover analytical labs. We ensure the physical form, whether powder or fine crystals, supports easy weighing and dissolves quickly. Dense caking or delayed dissolution can spell lost time and bad data—issues we meet with regular particle size checks and careful drying protocols.
Unlike some other reagents, Potassium Antimony Tartrate rarely arrives as a commodity where purity and traceability can be compromised. When making this compound, we stay alert to batch variations not just in the core ingredients, but in water content, trace mineral profile, and the subtleties of crystal habit that affect everything from storage to mixing. Unflagging attention to these features creates a product that meets practical needs in chemical, industrial, and educational settings.
The real-world feedback loop matters more than new marketing material. We rely on honest conversations with users: What issues do they experience? Is there an undocumented incompatibility with new analytical methods? Does a product standard support an emerging requirement from regulators or industrial codes? Many of our most valuable process improvements—such as anti-static packaging liners or enhanced moisture barriers—began as small-scale user complaints rather than top-down mandates. We don’t just serve a specification; we serve the problems that arise in day-to-day laboratory and production work.
Our R&D teams engage with scientific partners on improvements tied to shifting laboratory needs. For example, new developments in trace ion chromatography or advances in colorimetric detection have driven us to design even tighter controls over Tin and Lead impurity spikes, even when not mandated by current standards. We refine our washing and recrystallization methods with every cycle as analytical techniques become more sensitive, and demands for data reproducibility increase.
One challenge that lingers for many manufacturers—including us—stems from sustainable sourcing of raw materials. Antimony mining and refining bring environmental risks. In recent years, we have prioritized audited supply chains and green chemistry principles, focusing on suppliers with proven environmental practices and investing in wastewater recycling during production.
New packaging trials are underway, evaluating biopolymer liners versus traditional materials, searching for solutions that protect the compound while reducing landfill impact. As more customers submit extended environmental scorecards with their tenders, we see this as the right path forward, pushing us to rethink not just what we make but how we deliver it.
Behind every jar of AR Potassium Antimony Tartrate, there are people who handle, test, and rely on these chemicals. The years in production have given us a unique respect for the fine balance between batch control and customer service. Knowing where raw materials come from, understanding the inevitability of occasional mistakes, and being open to improvement, all shape our dedication to each product.
We never see chemistry as just a formula or output; every compound reaches its destination through a long line of skilled hands, careful thinking, and willingness to learn. Problems get flagged, revised, and solved on the shop floor or QC bench—not only by managers, but by staff who write up every chloride deviation or clumping report with the same seriousness as a final product sign-off.
Customer priorities shift, regulations change, and new research demands different analytic standards. Our approach as a manufacturer is to keep learning from each batch, each conversation, and each challenge—treating AR Potassium Antimony Tartrate 500g not as a finished commodity, but as a continuing project.
Manufacturing chemicals at the AR level is a daily commitment. Delivering Potassium Antimony Tartrate 500g isn’t purely about filling a spec sheet; it’s about understanding how real professionals use, question, and rely on this material. Each package reflects ongoing effort—more than a century of chemical practice comes together to meet current needs and anticipate future ones.
We find our motivation in these ongoing connections—with R&D chemists, production supervisors, safety officers, and countless technicians who make up the world of modern chemistry. Their feedback shapes improvements, just as advances in analytical standards push us to reach ever higher. As those outside our factory doors press for safer, more accurate, and more responsible chemicals, we respond by making the next batch better than the last. AR Potassium Antimony Tartrate 500g, in all its measured precision, stands as a symbol of what attentive and change-driven manufacturing can deliver, now and moving forward.
