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HS Code |
736735 |
| Chemical Name | Lead Acetate |
| Chemical Formula | Pb(C2H3O2)2 |
| Molar Mass | 325.29 g/mol |
| Appearance | White crystalline solid |
| Solubility In Water | Very soluble |
| Melting Point | 280°C (decomposes) |
| Density | 3.25 g/cm³ |
| Cas Number | 301-04-2 |
| Boiling Point | Decomposes before boiling |
| Odor | Slightly acetic |
| Toxicity | Highly toxic |
| Ph | Slightly acidic (in solution) |
| Synonyms | Sugar of Lead, Lead(II) acetate |
| Stability | Stable under normal conditions |
| Uses | Laboratory reagent, dyeing, hair dye |
As an accredited Lead Acetate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Lead Acetate is packaged in a sealed, labeled 500g HDPE bottle with hazard warnings, product details, and safety instructions. |
| Shipping | Lead acetate must be shipped as a hazardous material due to its toxicity and environmental risks. It should be securely packaged in airtight containers, properly labeled according to UN1616 regulations, and accompanied by safety data sheets. Shipment must comply with all local and international regulations for toxic substances. |
| Storage | Lead acetate should be stored in a tightly sealed container, kept in a cool, dry, well-ventilated area away from incompatible substances such as strong acids, strong bases, and oxidizers. Storage areas must be secure and labeled as containing toxic materials. Avoid moisture and direct sunlight. Ensure containers are non-reactive and regularly checked for signs of leakage or deterioration. |
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Purity 99%: Lead Acetate with purity 99% is used in laboratory analytical procedures, where it ensures high accuracy in qualitative and quantitative analyses. Trihydrate Form: Lead Acetate trihydrate is used in pigment manufacturing, where it enhances color consistency and dispersion. Melting Point 280°C: Lead Acetate with a melting point of 280°C is used in textile dyeing processes, where it improves mordant fixation and dye adherence. Particle Size < 50 µm: Lead Acetate with particle size less than 50 microns is used in battery electrolyte formulations, where it increases homogeneity and reaction rates. Stability Temperature 25°C: Lead Acetate with stability at 25°C is used in cosmetic hair product synthesis, where it maintains oxidative stability and shelf life. Molecular Weight 325.29 g/mol: Lead Acetate with molecular weight 325.29 g/mol is used in ceramic glazing, where it delivers controlled fluxing properties and uniform glaze texture. Low Moisture Content: Lead Acetate with low moisture content is used in gold and silver refining, where it minimizes contamination and maximizes precious metal recovery. High Solubility: Lead Acetate with high solubility is used in water treatment applications, where it improves precipitation efficiency for sulfide removal. |
Competitive Lead Acetate prices that fit your budget—flexible terms and customized quotes for every order.
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There’s a difference you can see and measure, straight from the manufacturing line to the actual barrel: when we make lead acetate, every step— raw material intake, temperature control, precise filtration— takes place under our roof. Lead acetate, as a chemical, has earned its place in both legacy applications and newer technical processes. We have seen how research, industrial partners, and even fine arts sectors put their trust in products made with stable quality, clear lab checks, and honest transparency. There’s no substitute for what you witness in the plant: crystalline powder or flakes, each batch showing stark purity and consistent, reliable moisture level.
Our lead acetate usually carries a chemical formula Pb(C2H3O2)2·3H2O, which experienced technicians here have come to recognize by sight and feel. Standard specification leans on over 99% assay for the trihydrate, and we back this with every certificate of analysis. On a physical level, what leaves the plant matches scientific expectations: clear monoclinic crystals, free-flowing, rarely off color, with batch-run moisture well within range. The product’s dissolution in water is checked daily— clean solution, slight sweet odor, nothing drifting from the test result norms you’d expect from actual hands-on quality control.
Those who use this chemical in dye manufacture or as a laboratory reagent know that off-spec material wreaks havoc— we’ve seen it ourselves. In pigment factories, one out-of-spec shipment might throw an entire batch’s color off. In gold refining labs, any trace impurity matters, and we’ve tested alongside our clients enough to understand why real, measured purity builds trust. Compared to lead nitrate or lead carbonate— both of which some customers ask about when developing their own process lines— our lead acetate brings easier handling and a distinct solubility profile. Not all lead salts dissolve at the same speed or to the same finish; our chemists have studied the comparisons in the same conditions customers face.
Clients from across the textile, dyeing, and printing sectors return because our manufacturing process makes repeat orders possible. Historically, lead acetate plays a prominent role in dye mordant steps and as a fixing agent for a wide variety of coloring processes— especially where permanence and clarity matter. It goes into gold extraction as a refining aid, enters lab benches for qualitative analysis, and even surfaces occasionally in technical cosmetic applications (always requiring thoughtful regulatory compliance).
In the leather industry, some tanneries still work with traditional practices, and they report that well-purified lead acetate helps produce robust, richly dyed leathers, something we’re able to support because we cross-check impurities down to the smallest fraction. We have seen high school and academic labs put these crystals to work for classical reactions— such as the old “lead sulfide” test for hydrogen sulfide— where other materials can give false positives or haze.
There’s another side with ongoing research. Newer initiatives in analytical chemistry use our batches to calibrate instruments or as test standards. Crafting batches that match ISO and analytical standards means knowing the full background of every single precursor chemical and not cutting corners— labs rely on that history, which we document with production batch logs held for years.
Let’s talk production choices— we manufacture lead acetate from specific refined lead oxide and food-grade acetic acid, always with water quality kept to lab benchmarks. That gives a trihydrate form that’s distinct from lead nitrate (made off nitric acid) or from the dense, unreactive powder of lead carbonate. Each material finds its demand, but if users seek high solubility, direct reactivity, and clear end-product, lead acetate wins out.
Lead nitrate offers strong oxidizing action and sees some use in pyrotechnics or specialized explosives industries, but users needing gentle reactivity or lower risk of exothermic reactions turn to lead acetate. In pigment manufacture, acetate dissolves cleanly in both hot and cold water, leaving minimal sediment, while others require extra dissolution steps. For our partners in the electroplating sector, acetate batches offer enough stability to enable consistent electrodeposition— a property we monitor regularly by running our own small-scale baths as part of QC checks.
Some competitors substitute chemically similar inputs, sometimes to save cost, causing trace elements like iron, copper, or even bismuth to creep up in the final product. That stops batch-to-batch reliability cold. In our own processing, the absence of detectable iron and heavy metals (other than lead) ensures technical users don’t see unwanted byproducts, off-color finishes, or instrument interferences.
We’ve always taken seriously the risks and responsibilities with lead compounds. Nobody working near the main reactors or packaging lines needs reminding that lead acetate can be hazardous. We train all staff not only in proper respirator and glove protocols but in everyday best habits. Regular worksite medical reviews and exposure audits cut down on both error and complacency; we’re not strangers to occupational health authorities and believe vigilance pays dividends for long-term employees and customers alike.
Our product batches comply with national and international directives covering heavy metal transport, labeling, and end use. This means clear hazard communication, batch-level testing for total lead content, and ongoing review of workplace limits matched by our air and water discharge logs. Whether dealing with an established customer or a new client prepping for their first routine shipment, everyone gets access to full documentation, batch traceability, and robust guidance on containment and disposal.
Years of producing lead acetate have taught us that shortcuts in batch production show up right where you don’t want them: downstream at a customer’s workbench, in the middle of a large-scale manufacturing run, or even during final product certification. That’s why we carry out not just routine batch analysis, but also random sample checks with independent third-party labs. Our certificates of analysis go out with every shipment, and detailed spectral data is available to any client who requires it. We don’t dress up test results— actual numbers come from real benchwork and instrumental trace scans, not assumed values.
The team who reviews the final product before sealing every drum has clear incentive to keep detail work tight— we track complaints and returns, and each flagged shipment spurs review of both process and raw material sourcing. This in-house discipline ensures our outbound product stays fit for critical end-uses, whether an art conservator is restoring a century-old canvas or an industrial partner is scaling up dye runs for export.
As lead acetate’s environmental risks are widely known, we put considerable planning into both on-site controls and post-customer guidance. All process water runs through multi-stage lead recovery before discharge, capturing as close to zero residual metal as we can. Waste solids are shipped off as hazardous materials, handled by specialists— no corners cut in the disposal chain.
Clients often seek counsel on best practices for lead waste handling, and we share tested methods from our own operations. Chemical neutralization, high-integrity barrier packaging, and strict transport documentation form the backbone of our recommendations. We believe that by sharing our own live data on emissions, water and air quality, and employee exposure rates, we help our partners maintain good standing with regulatory bodies.
There’s been increasing pressure in recent years— both regulatory and reputational— to reduce reliance on heavy metals in industry. Where possible, we’ve worked alongside research teams to find alternative raw materials or process aids. Still, many applications continue to demand genuine lead acetate, either for technical legacy reasons or for performance no alternative yet matches. As a manufacturer, we remain engaged with researchers aiming to partially or fully substitute safer chemicals, but we do not take risks with current output quality in the name of expediency.
Manufacturing is a dialog, not a monologue. Each time a customer, auditor, or peer raises a concern or technical requirement, our production and QA response teams meet to review existing protocols. Decades of direct feedback have led us to redesign batch reactors, install state-of-the-art filtrate sensors, and purchase more advanced titration and impurity testing equipment. It’s a cycle: real-world experience meets shop floor innovation, then returns to the customer in tangible improvements— cleaner material, safer handling, more consistent performance.
Industry groups and technical societies pull us into regular discussions about best practices, latest analytical methods, and regulatory trends. We bring our actual batch records, not just marketing gloss. Our staff attend chemical safety roundtables, submit for factory audits, and keep working relationships with university and governmental labs— all to ensure we stay on the right side of both safety and innovation.
As a direct manufacturer, we field calls weekly from both end users and resellers looking for guarantees and explanations impossible from shops a few steps removed from the process. We know every fingerprint on the process chain, from inbound raw materials to the warehouse transfer scanner, so we can answer: how was this batch made, who checked it, what exactly went into it? If an error emerges, we can also fix it— retrace steps and re-run analysis, something a distributor relying on third-party factories can’t manage.
Some buyers find they receive imported or relabeled goods with varying crystal habits, lumped powder, or moisture absorption well above standard. In our facility, we reject anything that does not measure up to visual and technical benchmarks. Moisture pickup, incorrect crystal formation, or discoloration gets immediately flagged and returned to process. That level of discipline only comes with firsthand manufacturing, and clients seeking guaranteed performance see the benefits as soon as the seal is broken on a fresh barrel.
Being a manufacturer in a tightly regulated and technically demanding field demands visible, ongoing investment: better analytical tools, cleaner process lines, more staff training, and transparent batch records. Each order reflects years of learning from failures, as much as from successes, and our lead acetate shows that legacy. The best practices for handling, batch certification, and regulatory navigation aren’t abstract for anyone who spends a day in a chemical plant— they’re routine, and they matter at every turn.
For those evaluating lead acetate— whether an established buyer or a new entrant to the field— the best measure of quality comes from consistency, transparency, and open lines between manufacturer and user. Our role doesn’t end at shipment; we remain ready to consult, explain, and back up every lot number with real data and live knowledge. Decades inside this business have shown that reputational capital grows from what you deliver when nobody is watching, not just what you promise on paper.
The road ahead keeps changing, both technically and from outside pressures. As end-users evolve, and as society asks sharper questions about heavy metal chemistry, we keep our doors open to those conversations. It has always been possible to make a product good enough for the inspection table. Doing so for the real world— across art, industry, and science— takes honest effort, detailed manufacturing records, and skilled hands at every stage. That’s the standard we serve, and the standard we intend to keep beating.
