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HS Code |
828801 |
| Chemical Name | Divinyl Diethylene Glycol Ether |
| Cas Number | 764-10-9 |
| Molecular Formula | C8H14O3 |
| Molecular Weight | 158.19 g/mol |
| Appearance | Colorless liquid |
| Boiling Point | 225-227°C |
| Density | 1.02 g/cm3 at 20°C |
| Refractive Index | 1.443-1.445 |
| Solubility In Water | Miscible |
| Flash Point | 95°C (closed cup) |
As an accredited Divinyl Diethylene Glycol Ether factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Divinyl Diethylene Glycol Ether is supplied in a 500 mL amber glass bottle with a secure screw cap and hazard labeling. |
| Shipping | Divinyl Diethylene Glycol Ether should be shipped in tightly sealed containers, protected from heat, sparks, and open flames, as it is a flammable liquid. Transport according to local, national, or international regulations for hazardous chemicals, ensuring labeling and documentation are compliant with safety and environmental guidelines. Handle with caution to prevent leaks. |
| Storage | Divinyl Diethylene Glycol Ether should be stored in a cool, dry, well-ventilated area, away from heat sources, sparks, and open flames. Keep container tightly closed and protected from direct sunlight and moisture. Store separately from oxidizers, acids, and bases. Use proper grounding and bonding for containers to prevent static discharge. Ensure all storage procedures comply with local regulations and safety guidelines. |
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Purity 99%: Divinyl Diethylene Glycol Ether with 99% purity is used in high-performance polymer synthesis, where improved mechanical strength and durability are achieved. Viscosity Grade Low: Divinyl Diethylene Glycol Ether of low viscosity grade is used in UV-curable coatings, where enhanced flow and surface leveling are provided. Molecular Weight 186 g/mol: Divinyl Diethylene Glycol Ether at a molecular weight of 186 g/mol is used in specialty adhesives, where precise crosslinking density is ensured. Boiling Point 255°C: Divinyl Diethylene Glycol Ether with a boiling point of 255°C is used in heat-resistant resins, where elevated thermal stability is maintained. Stability Temperature 180°C: Divinyl Diethylene Glycol Ether stable up to 180°C is used in electronic encapsulation, where reliable long-term insulation is delivered. Water Solubility High: Divinyl Diethylene Glycol Ether with high water solubility is used in hydrophilic resin formulations, where rapid dispersion and uniform mixing are achieved. Refractive Index 1.456: Divinyl Diethylene Glycol Ether with a refractive index of 1.456 is used in optical polymer manufacturing, where high transparency and clarity are obtained. Melting Point -25°C: Divinyl Diethylene Glycol Ether with a melting point of -25°C is used in flexible elastomer production, where low-temperature processability is improved. Color <10 APHA: Divinyl Diethylene Glycol Ether with color below 10 APHA is used in light-sensitive coating systems, where color interference is minimized. Residual Vinyl Content <0.2%: Divinyl Diethylene Glycol Ether with residual vinyl content less than 0.2% is used in biomedical hydrogels, where cytocompatibility and purity are critical. |
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Divinyl Diethylene Glycol Ether, often recognized in technical settings under its molecular identity as C10H18O3, brings something special to laboratories and industrial floors. Manufacturers search for chemicals that offer a blend of reliability and efficiency, especially when the stakes ride on product performance. From coatings to adhesives, this compound steps up to the plate, forging strong links and boosting performance where it counts.
What makes Divinyl Diethylene Glycol Ether truly stand out comes down to the way it strengthens products in real-world settings. Take the paints and coatings industry as an example. Many products crumble under conditions where flexibility and adhesion matter most. This ether bridges the gap between surface protection and workability, lending itself to tough, glossy finishes that weather both time and exposure. In adhesives, the molecular backbone supports a firm yet adaptable bond, creating solutions for tapes and glues that need to perform in demanding environments, from car assembly lines to electronics.
Every bottle or drum of Divinyl Diethylene Glycol Ether shares a few defining traits. A colorless, transparent liquid signals its ready-for-use consistency. The moderate viscosity, neither sticky nor overly runny, helps it mix smoothly with other chemicals. Unlike some ethers, it carries a faint, hardly-noticed scent – a sign of minimal impurities and careful handling during synthesis. Boiling at around 235°C, it deals well with higher processing temperatures, supporting a broad range of manufacturing methods. Water solubility offers another bonus, making cleanup easier and expanding compatibility. In a world of specialty glycols and vinyl ethers, these features hit the mark for engineers and lab managers.
After years working with specialty coatings, the difference in using Divinyl Diethylene Glycol Ether speaks for itself at the mixing table and in the final product. It dissolves tough resins that balk at other solvents and leaves mixes smooth, workable, and predictable. There’s less bubbling, fewer surface flaws, and a lasting finish that customers notice. Peeling paint around a steel frame or a failed adhesive joint sparks complaints, lost contracts, and rework. Gone are the headaches when this compound makes up part of the blend.
Every molecule built in a lab serves a purpose. The ether linkage and vinyl groups of Divinyl Diethylene Glycol Ether offer both reactive and nonpolar interactions. During polymerization, they link up with resins, lending flexibility within a polymer matrix. This shapes coatings that stretch and recover, rejecting cracks and flaking. Where other molecules produce brittle films, this one introduces resilience. In adhesives, it acts as a spacer and binder, letting two unfriendly surfaces unite without sacrificing strength.
The ether family covers a sprawling range of chemicals, but subtle differences matter. Compared to common glycol ethers, Divinyl Diethylene Glycol Ether boasts a unique vinyl functionality that unlocks crosslinking potential in resins and polymers. Many glycol ethers operate as solvents but stop short of participating in reactions. Here, the vinyl group doesn’t just sit idle; it bonds and transforms with the system, permanently changing the structure. The result: more permanent bonds, enhanced resistance to water or solvent attack, and coatings with extended lifespans.
Mono-vinyl and non-vinyl ethers also turn up in paints and adhesives, but their options for customization lag behind. Dual vinyl groups in this compound allow for greater variability in end-use properties, from flexibility to cure speed. Formulators chasing specific outcomes—fast drying, improved toughness, or altered gloss—gain more control by swapping other ethers for this one.
As with any active industrial chemical, knowledge about safe handling speaks volumes. Direct skin contact brings irritation, so protective gloves and eyewear make sense at the bench or production line. Proper ventilation clears vapors, even if odors remain faint. These safety habits go beyond company policy—they reflect lessons learned over decades of chemical work. Old hands know: trust the label, keep a spill kit close, and never assume yesterday’s safe routine holds up when scaling up a process.
Unlike some other ethers prone to forming dangerous peroxides, this compound stays stable with normal care. Choosing chemicals with a better safety track record builds confidence for both managers and staff. With clear guidelines, workplace exposure levels remain well within recommended limits, promoting a safer shop floor and protecting reputations across departments.
The modern marketplace revolves around verifiable quality. Divinyl Diethylene Glycol Ether, when sourced from reputable suppliers, usually comes backed by detailed Certificates of Analysis and traceable batch documentation. I remember a time before these safeguards, when supply chain surprises led to entire batches thrown out after a molecule turned up short on spec. Today, dependable quality means less reworking and lost time—an edge that makes a difference during tight production schedules.
Environmental responsibility in chemical manufacturing involves both raw material selection and end-of-life considerations. Divinyl Diethylene Glycol Ether gives an edge due to its relatively low volatility, reducing harmful emissions during processing. The ability to combine high performance with reduced environmental footprint appeals to forward-thinking buyers and regulatory agencies alike. Using a versatile, low-odor compound also means less reliance on heavier solvents that raise red flags under environmental laws. Less downtime for air quality checks and fewer red tags from inspectors translate into smoother operation and fewer compliance headaches.
Looking at broader impacts, the shift toward more sustainable chemistry often means swapping out legacy solvents and specialty monomers. Divinyl Diethylene Glycol Ether supports this transition, delivering performance without the baggage of older, more hazardous alternatives. It’s rare to find a chemical that solves production issues without introducing new headaches for wastewater treatment or disposal. In my own experience, moves to greener compounds build goodwill both within organizations and with environmentally minded customers.
Labs and research departments depend on molecules that let them push boundaries—trying new formulas, chasing breakthroughs in performance or cost savings. Divinyl Diethylene Glycol Ether holds special value as a starting point for innovative polymer designs. By tuning the ratio of this ether to other resin components, researchers can test new adhesives that flex and set faster, or create paints that shrug off weather and abrasion. It performs not just as a carrier, but as a true contributor in the final material.
The presence of two vinyl groups leads to a broader network during crosslinking. This lets scientists dial in flexibility or hardness in ways that single-function monomers can’t match. Blending experiments that would falter with other solvents sail smoothly when this compound takes the lead. For small teams with big ideas, the freedom this brings has real commercial impact.
Sensitive equipment, from consumer gadgets to industrial sensors, demands adhesives that hold firm but flex without shattering delicate parts. Engineers look for chemicals that won’t corrode circuits, that stay stable across wide temperature ranges, and that work well with automated dosing machines. Divinyl Diethylene Glycol Ether ticks these boxes. In real-world tests, adhesives and encapsulants made with this compound show less yellowing over time, stronger bonds through cycles of heat and cold, and easier processing on high-speed lines.
Compared to acrylate-based monomers, it often reduces the required initiator load and helps minimize outgassing. The end result is less residue, fewer failures, and happier assembly technicians. I’ve seen companies pivot to this molecule after a spate of warranty claims and cut their defect rate within months. It’s hard to overstate the peace of mind that comes from knowing each drop contributes to reliability.
There are plenty of ether options on the market, from mono-vinyl to straight glycols, each with loyal followers. Experience shows that many lack either the flexibility or reactivity needed in today’s advanced materials. Diethylene glycol monoethyl ether might offer solvency but doesn’t provide the same reactive sites for crosslinking. Polyethylene glycol ethers can make blends too viscous for common spray equipment. Divinyl Diethylene Glycol Ether hits the sweet spot—enough activity for tough jobs, without trading away ease of use or environmental acceptability. Replacing older, off-the-shelf glycol ethers with this compound can streamline inventory and cut rework since the results tend to stay on target batch after batch.
Working in regulated industries means tracking every additive. Divinyl Diethylene Glycol Ether, supported by thorough product documentation, keeps compliance managers on solid ground. Its low odor and lower volatility slot in well with workplace exposure limits, making industrial hygiene targets easier to meet. Where food contact or medical device applications appear on the horizon, manufacturers still run their own regulatory checks. Having a clean safety history and clarity on composition shortens audits and clears barriers to new markets.
Few chemicals balance performance, workplace acceptability, and a smooth regulatory path as well as this one. The certainty that comes from robust data—on everything from shelf life to byproducts—gives regulators and purchasers confidence when signing off on large contracts. Dependable sourcing lets risk managers sleep at night, whether running a small label print shop or a vast electronics factory.
Watching new projects unfold, it’s clear that Divinyl Diethylene Glycol Ether keeps showing up in the plans of smart formulators. There’s always an urge to push materials just a bit further—more resistant coatings for outdoor gear, adhesives that work in subzero temperatures, paints that keep color three years into harsh sunlight. Each time, this compound proves adaptable, quietly raising the bar for what synthetic resins and polymers can deliver.
Even veteran chemists admit that not all ethers are created equal. The presence of twin vinyl groups hands researchers a wider toolkit. Blending it with acrylics, polyesters, or epoxies lets custom designers walk the line between cost, speed, and durability without reaching for a whole new set of unknown additives. Over the years, seeing old favorites pushed aside by new breakthroughs, the professionals who pay attention notice which products stick around. Divinyl Diethylene Glycol Ether holds its ground—delivering consistent results while giving room for invention.
No product sails through life without hiccups. Field work sometimes uncovers surprises: unexpected surface leaching, compatibility snags with new pigments, odd shifts in cure time. Years on plant floors taught the importance of detailed pilot runs before full-scale rollout. It’s not always obvious which new ingredient will interact poorly with legacy equipment or untested resins. That’s why experienced teams loop in raw material suppliers early in the R&D process, requesting more detailed application guides or reaching out to laboratories specializing in analytic chemistry.
In my own experience, old protocols from a different glycol ether sometimes require adjustment for batch order or mixing temperature. Early glitches—sticking valves, foaming, occasional off-odors—often trace back to insufficient mixing or incompatible anti-foam agents. Working with seasoned chemical reps and tapping into shared resources speeds up troubleshooting and keeps production humming.
Companies can address challenges upstream by setting up structured trials and ongoing tech support partnerships. Suppliers who value honest feedback typically respond with improved documentation, tailored recommendations, or even slight tweaks in synthetic routes to boost purity or stability. Such partnerships push both the product and the industry forward, and it’s gratifying watching a well-advised change in mixing protocol or storage conditions slash complaint rates for an entire product line.
Looking to the future, the pressure mounts for chemists and industry leaders to blend high performance with environmental stewardship. The trend toward waterborne adhesives and low-VOC paints creates both opportunity and responsibility. Divinyl Diethylene Glycol Ether fits here, pairing high activity with lower emissions than many legacy ingredients. In technical forums, discussions highlight its ability to support shift from solvent-heavy to water-heavy systems without losing the edge in durability or reactivity.
At trade shows and in supplier meetings, conversation often turns to sustainable raw materials. This compound holds promise as part of bio-sourced syntheses, offering an avenue toward circular materials economy without retooling whole factories. Researchers tinker with green-based routes and test plant-based glycols for compatibility, hoping to marry sustainability with the time-tested chemistry that Divinyl Diethylene Glycol Ether already delivers.
In the beaker and on the assembly line, some chemicals fade into the background, while others play a central part in product success. Divinyl Diethylene Glycol Ether has built its reputation among professionals who value reliability, flexibility, and a clear path to both quality and compliance. Its unique structure, practical handling benefits, and adaptability across tough industrial applications make it a leading choice for producers pushing into tomorrow’s markets. While every new project may pose a challenge, experience, data, and a history of success keep this ether on the short list for forward-thinking manufacturers and hands-on creators alike.
