Butyl Diglycol Methacrylate shows up in the world of chemical raw materials as a clear, colorless liquid that boasts good flow and solubility in a range of monomers. Its chemical formula stands as C12H22O5, and looking at its formula gives you a sense of how the molecule comes together. Folks working in adhesives, coatings, or plastics rely heavily on its unique structure and properties. This material works as a monomer for copolymers and specialty resins, with its butyl and diglycol side chains helping plasticizers and crosslinkers do their job. HS Code for Butyl Diglycol Methacrylate usually falls under 291614, which lets companies handle import, export, and safety documentation.
This liquid feels slightly oily and delivers a density of around 1.05 g/cm³ at room temperature. The refractive index clocks in near 1.439–1.441, making it easy to distinguish by laboratory measures. It blends effortlessly into acrylate and methacrylate formulations, thanks to the presence of both butyl and diglycol functional groups. As a solid or powder, this compound rarely shows up in industrial supplies. Instead, the liquid state makes transport and dosing practical for most workspaces, whether measured by milliliter, liter, or through automatic mixing systems. Its crystalline or pearl forms do not commonly surface, so workers handle Butyl Diglycol Methacrylate as a viscous, sometimes stubborn liquid that rests comfortably in standard chemical drums.
The molecular structure of Butyl Diglycol Methacrylate features a methacryloyl group attached to a diglycol and butyl group. These features help the molecule deliver solid flexibility, toughness, and water resistance in end-products. Paint factories, dental labs, and ink manufacturers value this versatility. With its molecular weight hovering around 246–248 g/mol, technicians add precise amounts for polymer formulations in order to hit exact targets for flexibility, gloss, or bonding strength. Smart use of this raw material shines in pressure-sensitive adhesives and light-cured dental composites. Its broad use means finished products gain durability without much yellowing. When mixed with other acrylates, it improves flow properties and wash resistance, especially as coatings or paints face daily wear.
Suppliers often sell Butyl Diglycol Methacrylate above 98% purity, minimizing water and acid content for reliable performance. Each drum or bulk container will list density, acidity, color (usually APHA below 20), and monomer assay for quality checks. Although this chemical doesn’t carry the worst hazards, safety teams never let their guard down. It irritates eyes and skin, and inhaling vapor could stress the lungs. Direct contact calls for harm reduction: goggles, gloves, and good ventilation. Not every lab throws around splash goggles and nitrile gloves out of habit, but with reactive materials, complacency ends badly. Labeling as a hazardous air pollutant and careful monitoring during storage matters, given its flammability and potential to polymerize with excess heat or UV.
Anyone who has spilled Butyl Diglycol Methacrylate remembers to seal containers tight and wipe up splashes promptly. Long-term exposure, even at low levels, can trigger allergic skin reactions, especially among folks with sensitive systems. Chronic vapor exposure risks headaches and nausea, echoing concerns with other acrylate esters. To keep teams safe, companies train staff to read Safety Data Sheets (SDS) and to handle this monomer with chemical-resistant containers, stored away from peroxides, acids, or bases. Always check for good exhaust ventilation and avoid open flames—its flash point drifts around 100°C, and runaway polymerization brings its own risks if left unchecked.
Getting familiar with Butyl Diglycol Methacrylate means paying attention to every drum label and keeping up with industry standards for purity, traceability, and waste disposal. Environmental regulators keep a close watch on acrylate esters, so responsible teams collect and neutralize spills, ventilate workspaces, and dispose of waste according to local rules. Even though this chemical stands out as a reliable building block for modern coatings, adhesives, and medical applications, long-term safety and sustainability depend on staff training and thoughtful operations. Workplaces that put health and safety up front prevent chemical headaches and keep skilled teams productive. Professionals who handle Butyl Diglycol Methacrylate as a raw material know that responsible use, accurate measurement, and strict attention to documentation make all the difference for safe, sustainable production.
