|
HS Code |
588572 |
| Chemicalname | Epichlorohydrin |
| Casnumber | 106-89-8 |
| Molecularformula | C3H5ClO |
| Molecularweight | 92.52 g/mol |
| Appearance | Colorless liquid |
| Odor | Chloroform-like |
| Boilingpoint | 117.9°C |
| Meltingpoint | -25.6°C |
| Density | 1.18 g/cm³ |
| Solubilityinwater | 6.6 g/100 mL at 20°C |
| Flashpoint | 33°C (closed cup) |
| Vaporpressure | 15 mmHg at 20°C |
| Refractiveindex | 1.439 at 20°C |
As an accredited Epichlorohydrin factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Epichlorohydrin is packaged in a blue, sealed 250 kg steel drum with hazard warning labels, manufacturer's details, and batch number. |
| Container Loading (20′ FCL) | 20′ FCL container loads about 80-100 drums (200 kg each) of Epichlorohydrin, tightly secured, with hazardous material labeling. |
| Shipping | Epichlorohydrin is shipped in tightly sealed, corrosion-resistant containers, such as steel drums or tankers, designed for hazardous chemicals. It must be labeled as a flammable and toxic substance, protected from heat and moisture. Transportation follows strict regulations, including proper placarding, documentation, and emergency response measures to ensure safe handling and transit. |
| Storage | Epichlorohydrin should be stored in a cool, dry, well-ventilated area away from heat, sparks, and open flames. Use tightly sealed, corrosion-resistant containers, preferably made of stainless steel or glass. Keep separate from acids, alkalis, oxidizers, and amines. Protect from direct sunlight and moisture. Appropriate safety signage and secondary containment are recommended to prevent leaks and spills. |
| Shelf Life | Epichlorohydrin typically has a shelf life of 1 year when stored in tightly sealed containers under cool, dry, and well-ventilated conditions. |
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Purity 99.9%: Epichlorohydrin with 99.9% purity is used in epoxy resin production, where high purity ensures superior adhesive strength and chemical resistance. Stability temperature 150°C: Epichlorohydrin stable up to 150°C is used in electrical laminates manufacturing, where thermal stability allows for reliable insulating properties under elevated temperatures. Viscosity grade 10 mPa·s: Epichlorohydrin with viscosity grade 10 mPa·s is used in synthetic rubber modification, where optimal viscosity improves rubber elasticity and processability. Water content ≤0.05%: Epichlorohydrin with water content below 0.05% is used in glycidyl ether synthesis, where low moisture minimizes byproduct formation and enhances yield. Molecular weight 92.52 g/mol: Epichlorohydrin with molecular weight 92.52 g/mol is used in ion-exchange resin formulation, where consistent molecular weight ensures predictable crosslinking density. Colorless liquid form: Epichlorohydrin as a colorless liquid is used in pharmaceutical intermediate production, where absence of color indicates high purity and product reliability. Density 1.18 g/cm³: Epichlorohydrin with density 1.18 g/cm³ is used in water treatment resin production, where exact density facilitates precise blending and uniform polymer structure. Storage stability 12 months: Epichlorohydrin with storage stability of 12 months is used in surface coatings manufacturing, where extended shelf life reduces material waste and logistical costs. Reactivity index 0.85: Epichlorohydrin with a reactivity index of 0.85 is used in polyamine curing agents production, where controlled reactivity ensures safe handling and efficient polymerization rates. Boiling point 117°C: Epichlorohydrin with a boiling point of 117°C is used in specialty solvent applications, where volatility speeds up evaporation and promotes rapid drying of formulations. |
Competitive Epichlorohydrin prices that fit your budget—flexible terms and customized quotes for every order.
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Epichlorohydrin stands at the core of countless essential chemical applications, but few appreciate what happens before it reaches the end user. In our facility, we start with the fundamentals: technical-grade Epichlorohydrin, purity that fits the strictest industry demands, and a production process monitored from raw material selection to packaging. Our team knows each drum, every ton, connects directly with industries that shape daily life—adhesives, resins, water treatment, elastomers, and pharmaceuticals.
The backbone of our Epichlorohydrin is a clear, colorless liquid with a sharp, noticeable odor. We maintain a minimum purity of 99.9%, verified batch-after-batch in on-site labs run by veteran analysts. Moisture content, color index, and acidity are controlled during synthesis, using modern distillation columns and advanced purification to keep stabilizer levels negligible. We understand why consistency matters. Shifts in active content translate downstream into bigger process headaches for our partners—gel-point drift in epoxy resin production, unexpected viscosity changes, off-grade batches that end up scrapped or downgraded. By starting with the right purity and controlling trace contaminants, we enable manufacturers to reach predictable outcomes.
In the world of epoxy resins, Epichlorohydrin plays a pivotal role. Dialing in an optimal reaction between our product and bisphenol-A boils down to how tightly we hold specification. We see the results in both pilot trials and full-scale customer runs: tightly controlled Epichlorohydrin feeds boost yields, push reactivity, cut down on side-product formation, and minimize waste. Reliability in the feedstock isn’t just a selling point; for many producers, it prevents downtime and costly reformulations.
Down the chain, in the realm of water treatment, manufacturers of anion exchange resins rely on Epichlorohydrin’s halo-reactivity. The benefit only comes with material that keeps chlorinated organic byproducts at bay, which is why we focus on minimizing trace chlorides and unsaturated impurities. Operators who have switched to our higher-purity streams report noticeable improvements in resin color stability, cycle life, and ion-exchange performance.
The difference between Epichlorohydrin grades isn’t cosmetic. At the manufacturing level, even minor shifts in impurity profiles force equipment cleaning protocols, affect the stability of catalysts, and drive up handling costs. Years of industry experience taught us to stay in regular conversation with end users, especially around product changes or plant upgrades. Through these dialogues, we improved both filtration and final distillation, learning that no off-the-shelf product suffices for every need. Producers working with food-contact grade materials, for example, seek our most rigorously controlled lots—delivered with a full suite of migration studies and traceability back to individual reactors. Paint and coating makers, focused more on flexibility than compliance overhead, often choose our technical grade, accepting broader specs for better pricing on large volumes.
In elastomer production, the game changes once again. Nitrile rubber manufacturers require Epichlorohydrin that resists yellowing and unpredictable crosslinking. We address this not only by limiting color index in fresh batches but by controlling storage temperature and minimizing exposure time before shipment. Our logistics team partners directly with end-user warehouses to coordinate delivery schedules and tank cleaning cycles, reducing the risk of polymerization triggers that can foul an entire lot. We built these operational procedures from the ground up, based on years of troubleshooting when packaging, climate, or timing fell short.
Pharmaceutical and specialty chemical firms hold another set of expectations. Their pressure points come not just from purity but from documentation, regulatory filings, and the need for ultra-low residues. Our plant’s batch records and analytical run sheets form the backbone of regulatory audits—year after year we supply CMC sections and Certificate of Analysis (COA) data sets that keep our clients in good standing during every facility inspection. Our technical support group trains directly with compliance auditors, so we understand not only what’s required on paper but what inspectors want to see in real life.
We don’t simply ship Epichlorohydrin and call it a job well done. Before each order leaves our gates, every shipment undergoes a final inspection for closed-system integrity and packaging quality. Safety features matter. Our team uses corrosion-resistant drums fitted with vapor-proof seals, and we track storage exposure with continuous digital monitoring to ensure no product degrades before use. By emphasizing responsible handling, we help our customers meet their own workplace safety commitments.
Epichlorohydrin storage and shipping have always demanded attention. Our facilities include temperature-monitored tanks with nitrogen blanketing to minimize the risk of runaway polymerization or HCl formation. We handle every batch as if our own operators and community come first; years of incident-free operation result from standardizing on lightweight PPE, reinforced fiber containers, and routine leak detection. It’s the due diligence we owe not just customers, but everyone downstream.
It’s tempting to think that all Epichlorohydrin fits each process equally. Industry veterans see trouble in that thinking. Choosing the wrong grade, or switching suppliers for a lower price, sometimes results in batches with off-odors, inconsistent viscosities, or even failed reactions. In the worst cases, downstream users end up with resins that underperform, coatings that yellow, or finished goods with off-spec mechanical properties. We’ve seen customer facilities hit with weeks of troubleshooting or unscheduled cleaning—usually because a lot didn’t match the specs required for their critical operations. There’s no substitute for chemical consistency when process economics and quality control are on the line.
Oversight in supply chains can introduce new risks. We’ve responded over the years by strengthening tracking systems, adding lot-level coding, and working with clients to design supply contracts that guarantee both continuity and transparency. Traceability is now a baseline expectation for anyone seeking pharmaceutical or food-contact approval, but the need creeped into high-value adhesives and elastomers, too. One contaminated shipment causes both financial and reputational headaches—and the manufacturers who value quality work proactively to close these gaps.
Manufacturing Epichlorohydrin brings unique environmental responsibilities. Many groups know its hazards—irritation potential, environmental persistence, worker exposure risks—but few see the measures we take behind the fence to mitigate them. Our air emissions are scrutinized not only through legal reporting channels but by a relentless program of scrubber performance checks and ambient monitoring on the plant perimeter. Years of focus on fugitive emissions resulted in quarterly process audits and voluntary up-time limits on higher-risk equipment. It’s more costly, slower, but directly reflects a commitment to worker and community health that can’t be shown on labels.
We address effluent treatment with multi-stage neutralization and closed-loop water recirculation. Purging waste streams for chlorinated organics remains a costly reality for Epichlorohydrin producers, but by tightening reaction efficiency and installing final-stage UV degradation units, we keep outlet concentrations comfortably below regulatory trigger levels. Our team approached these upgrades both to satisfy audits and to show good faith to community groups who visit or inspect the site. Regulatory compliance isn’t a ceiling—it’s only the entry point for responsible manufacturing.
Despite robust controls, the chemical’s hazards require vigilance at every point. Our technical staff continuously evaluates new PPE technologies, and plant training incorporates frequent incident scenarios. Long-term, we work to reduce total output through process intensification. Smaller, modular reactors with better yields mean fewer emissions, less effluent, and fewer transportation risks per metric ton produced. These investments take time, but set the tone for safer production now and in the years ahead.
As the chemical industry faces calls for greener processes, our team remains alert to shifts in raw materials and byproduct minimization. Research groups propose glycerol-based Epichlorohydrin production as an alternative to propylene, with clear benefits in carbon footprint and renewable content. We’ve piloted these lines with moderate volumes and tracked not just input efficiency, but also impurity profiles, reaction yields, and costs for downstream purification. While not every alternative flows directly into commercial practice, adopting proven, incremental changes helps us keep pace with customer and regulatory expectations alike.
Close collaboration with downstream users promoted new stabilization additives and more accurate on-line monitoring for Epichlorohydrin storage tanks. In the field, specialty adhesives groups demand both specification sheets and transparency about raw material sourcing and chain-of-custody data. We responded with quarterly supplier meetings, presenting new test data and discussing industry trends openly. Our experience shows that direct feedback from operators and quality managers leads to smarter product updates than any internal R&D review alone.
In a changing world, reliable Epichlorohydrin supply is only one piece of the puzzle. From environmental controls to rapid turnaround for technical inquires, we see our role as solution provider, not only a bulk vendor. Each product batch represents a legacy of chemical engineering, stringent quality practices, and decades of troubleshooting. Modern manufacturing doesn’t allow shortcuts, and loyalty from our industrial partners stems from years of steady, transparent, and honest work.
Manufacturers may face a crowded market, but not all products deliver equally. Over time, we’ve recognized that rapid, individualized support solves more problems than broad promises. When end users call, they reach a plant tech or an engineer who knows the difference between a shipping delay and an off-specification headache. That connection shortens downtime and prevents mistakes, turning what could be a transactional relationship into a working partnership.
The real difference in our Epichlorohydrin comes from continual attention to detail. From digital sample tracking, to on-site troubleshooting, to in-person seminars, our process connects factory floor realities with achievable technical guidance. Shipments don’t simply include COAs—they carry batch histories, reactivity profiles, and access to technical staff who charted each key analytical value along the way. For users who need consistency, this history means more than any guarantee. For those building new facilities or scaling production, we provide pilot lot support and walk-throughs for process conversions—a service based on years working side-by-side with growth-focused companies.
True accountability doesn’t hide behind paperwork. Our engineers participate in audit teams, customer safety reviews, and root-cause analysis for both routine and outlier failures. Whether it’s revising a resin formulation or investigating unexpected polymer discoloration, we don’t rest until partners reach a stable, routine outcome. Production planning, storage, and QA teams talk daily, closing feedback loops that, over the years, have eliminated many types of repeat errors. This culture of shared responsibility—built floor-by-floor—distinguishes our approach from abstraction or offhand claims.
As a manufacturer, every decision, every improvement, and every change cycles back into the world our customers see—better yields, fewer spills, a safe workroom, higher-grade finished goods, and compliance a regulator can trust. Epichlorohydrin is more than a line item; it’s a critical junction where chemistry, engineering, and diligence meet. That belief pushes us to raise internal standards, pursue more efficient and safer processes, and keep the door open for honest partnership and technical advancement.
Supply chain integrity won’t come as an afterthought. Our procurement protocols demand verifiable sources for raw materials, documentation throughout transit, and regular on-site audits. Partnerships with logistics firms grew out of needs identified during shipment tracking—where temperature swings or storage layout once caused QA headaches, we now rely on real-time tracking and trained handlers familiar with chemical sensitivities. Each shipment travels with full documentation, not just for customs or legal purposes, but to bolster confidence for every operator along the way.
Globally, regulatory scrutiny isn’t slowing. We engage with international chemical networks, keep in step with evolving REACH and TSCA registration requirements, and maintain open feedback loops with regional authorities during permit renewals. Multi-country registration is more complex than ever, which is why our regulatory affairs team focuses on proactive engagement and full-risk disclosure alongside technical datasheets. Epichlorohydrin buyers value clarity about legal obligations, and we invest in expertise to make compliance smoother on both sides of the transaction.
As research pushes the boundaries of what Epichlorohydrin can achieve, we learn with our collaborators. Each new polymer application, water treatment innovation, or specialty coating formula gives us a stake in future progress. By investing in both people and technology, we work toward a supply model that balances quality, safety, performance, and societal trust.
At the end of the day, our approach to Epichlorohydrin isn’t mysterious—it’s a result of decades listening to partners, owning every detail from raw input to packaged output, and refusing to rest on industry minimums. We know the risks and challenges, because we’ve tackled them, both in the lab and on the plant floor. Every specification, delivery standard, and safety step tells a story. The world is changing, and the future of chemical manufacturing will favor companies willing to learn, adapt, and put quality first—batch after batch, year after year.
