Manganese Lactate shows up as a manganese salt derived from lactic acid. People see it traded around under CAS number 640-72-6, attached to international shipments with HS Code 29181100. Its chemical formula stands at C6H10MnO6, and a closer look at its structure reveals two lactate groups binding to a single manganese(II) ion. At room temperature, this compound appears as a solid, either in pearl, crystalline, powder, or flake form — it fits its physical type depending on the manufacturing route. Some companies keep it in a powdered state for easier measuring, others opt for a pearl or granular form when it's intended for feed or trace element use, and occasionally, a solution or even a crystalline state is chosen for certain industrial or laboratory protocols. This flexibility in presentation matters to users who count on accuracy and consistency, whether they are filling capsules, adjusting formulations, or mixing up solutions in a lab beaker.
Manganese Lactate carries a molecular weight of 233.08 g/mol. It stays stable under normal storage conditions and avoids clumping because of its relatively low hygroscopicity. The density of this chemical, often measured as a solid, averages between 1.8 and 2.0 g/cm³. Its water solubility works out as another critical trait, since dissolving it forms clear, colorless solutions — an attribute essential for scientific, nutritional, and some industrial uses where clarity signals purity. If kept dry, the substance doesn’t break down easily, maintaining its state even after months on the shelf.
High-quality Manganese Lactate should show a Manganese content close to 23.5%, with minimal heavy metal contamination — below 10ppm lead, less than 2ppm arsenic, and almost undetectable cadmium and mercury. Specifications usually list purity above 99%, limiting impurities like sulfates, chlorides, or insoluble material. Flake, powder, and pearl forms each serve a specific purpose: powder blends quickly into liquids and dry mixtures, flakes resist dust formation and offer easier measurement, pearls prevent caking, and crystal forms are chosen for precise lab applications. Solutions prepared from the solid carry over these purity standards, letting manufacturers trust the end result. Every raw material batch runs through rigorous analysis for both property consistency and compliance with REACH, GHS, and regional standards.
Though not classified as extremely hazardous, Manganese Lactate deserves caution — exposure to dust or prolonged skin contact can cause irritation. Inhaling small particles over long periods could impact respiratory health, especially for workers on high-output production lines. Safe practices call for protective gloves, dust masks, and eye protection. Spill response stays simple: sweep, avoid sending particles airborne, and ventilate the space. Storage works best in a cool, dry place, sealed tight in original or compatible containers to avoid contamination or accidental caking. As a chemical handling veteran, I’ve dealt with similar manganese salts. Even a short lapse in attention creates cleanup headaches, so regular training and good habits help keep trouble at bay. Proper labeling with GHS hazard pictograms and keeping a tidy, well-ventilated workspace support ongoing worker health. Beyond workplace safety, proper waste disposal matters: avoid pouring leftovers into sewers or tossing with everyday trash, since manganese in the environment can harm aquatic life.
Producers in the supplement, food enrichment, animal nutrition, and specialty chemical industries all turn to Manganese Lactate as a raw material. It often features in trace mineral blends for livestock feed, where precise dosing prevents both deficiency and toxicity. Scientists and food technologists rely on its solubility and reliable bioavailability to fortify cereals, flour, or beverages that lack natural manganese. As a laboratory precursor, it acts well in synthesis steps for specialty chemicals or catalysis research. All this utility depends squarely on consistent quality and traceability of each incoming lot. I remember the headaches caused by a single out-of-spec batch in a supplement project — sudden delays, repeat tests, tight rescheduling. That shows just how crucial stable supply, clear documentation, and transparent product properties stay across the value chain.
Concerns about heavy metal impurities and the traceability of origins have grown sharper. Modern suppliers offer full analytical certificates, batch numbers, and clear information about raw material sourcing. This transparency aligns with food and pharma sector demands — especially as audits and regulatory checks step up globally. Automated blending, dust extraction systems, and stricter PPE policies answer both product consistency and worker safety concerns. At the supply chain level, evaluations look at environmental impact from mining or lactic acid fermentation, so customers choose partners showing steps toward sustainable production. Transport and storage practices, right down to moisture-proof packaging and precise labeling, reflect a steady shift to higher standards across developed and emerging markets. The growth of stricter chemical hazard rules — like Europe’s REACH or GHS protocols — keep firms on their toes, but also mean end users and communities can trust what shows up inside barrels and bags.
Manganese Lactate comes in forms that suit different applications — from loose powder for lab use, to solid pearls or flakes for animal feed and industrial blending, to liquid and crystal for advanced chemical synthesis. Its molecular structure supplies bioavailable manganese in a stable, highly soluble form. The density, typical at 1.8–2.0 g/cm³, matters for accurate dosing and storage. Purity, low heavy metal content, and full analytical documentation separate reputable suppliers. Safe, hazard-aware handling stays vital: mind the dust, use protective gear, and follow disposal guidance to guard people and the environment. Product quality links directly to secure sourcing, reliable analysis, and steady efforts toward greener, safer, and more transparent chemical supply chains.
