|
HS Code |
412433 |
| Chemical Name | Epichlorohydrin |
| Cas Number | 106-89-8 |
| Molecular Formula | C3H5ClO |
| Molar Mass | 92.52 g/mol |
| Appearance | Colorless liquid |
| Odor | Chloroform-like |
| Boiling Point | 117.9°C |
| Melting Point | -57°C |
| Density | 1.18 g/cm³ (at 20°C) |
| Solubility In Water | Moderate (6.6% at 20°C) |
| Flash Point | 33°C (closed cup) |
| Vapor Pressure | 15 mmHg at 25°C |
| Refractive Index | 1.4396 |
| Viscosity | 1.2 mPa·s at 20°C |
| Auto Ignition Temperature | 432°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 typically packaged in 250 kg blue HDPE drums, tightly sealed with hazard labels indicating flammability, toxicity, and corrosiveness. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for Epichlorohydrin: Typically 80-160 drums (200L each) per container, totaling 16-32 metric tons. Properly packed and secured. |
| Shipping | Epichlorohydrin is shipped as a hazardous chemical, typically in tightly sealed steel drums or ISO tanks. It must be labeled as flammable and toxic, kept away from heat, sparks, and incompatible materials. Proper ventilation and spill containment are essential. Transportation must comply with ADR, IMDG, and IATA regulations for dangerous goods. |
| Storage | Epichlorohydrin should be stored in tightly sealed containers, away from heat, sparks, open flames, and direct sunlight. Store in a cool, well-ventilated area, away from incompatible substances such as strong acids, bases, and oxidizers. Use appropriate corrosion-resistant containers and ensure emergency spill controls are in place. Always handle with suitable personal protective equipment (PPE) to prevent exposure. |
| Shelf Life | Epichlorohydrin typically has a shelf life of 12 months when stored in tightly closed containers, away from heat and moisture. |
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Purity 99%: Epichlorohydrin with purity 99% is used in epoxy resin production, where high product consistency and superior adhesive strength are achieved. Low viscosity: Epichlorohydrin with low viscosity is used in the synthesis of synthetic elastomers, where it enables uniform mixing and enhanced polymer flexibility. Molecular weight 92.52 g/mol: Epichlorohydrin with a molecular weight of 92.52 g/mol is used in ion exchange resin manufacturing, where precise polymer architecture and efficient ion transport are obtained. Stability temperature up to 120°C: Epichlorohydrin with stability temperature up to 120°C is used in specialty coatings, where it maintains resin integrity under high-temperature curing conditions. Water content <0.1%: Epichlorohydrin with water content less than 0.1% is used in pharmaceutical intermediate synthesis, where reduced hydrolytic side reactions result in purer end-products. Boiling point 117°C: Epichlorohydrin with a boiling point of 117°C is used in glycidyl ether synthesis, where it allows controlled reaction rates and consistent molecular distribution. |
Competitive Epichlorohydrin prices that fit your budget—flexible terms and customized quotes for every order.
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Epichlorohydrin’s value in the factory comes from decades of tinkering, troubleshooting, and listening to the demands of relentless production lines. We’ve produced this compound in large quantities for years, knowing well the quirks and potential of each batch. Its reputation didn’t simply result from market hype, but real applications and the hard-won trust of process engineers. For us, it’s not about theoretical properties; reliability gets tested daily in industries that can’t afford a single missed delivery or batch inconsistency.
Our rigorous distillation keeps monochloropropanols and other by-products consistently low, and the color always aligns with industry benchmarks. Customers don’t need to gamble with unpredictable supplies; each drum remains as pure as the last. Countless tankers and railcars later, our steady quality helps customers avoid headaches during downstream processing.
We focus on purity before anything else. Production targets 99.9% minimum assay on GC, with water far below 0.1%. Every tanker, every tote, every drum runs through our on-site GC and IR checks. The process begins with industrial-grade propylene, and we control every step—no unwanted side components. We see requests for even lower moisture levels and respond with shorter transfer lines and nitrogen blanketing, not just talk.
Specifications may sound dry, but for our customers—especially in epoxy resin and elastomer synthesis—even trace impurities throw off curing. Our engineers know if a few ppm of free chlorine sneaks through, batch gels and shelf lives shrink. Over the years, we learned which resin makers care about alkali content versus those pushing for ultimate color stability. Our model ECH1100 fits into applications needing low chloride and water content, while ECH1001 runs for less demanding jobs with a cost savings.
Epoxy resin manufacturers count on epichlorohydrin for making reliable prepolymers. Polyamide and polyether builders use it to link complex chains, creating adhesives with controlled flexibility. The water treatment industry transforms it into ion-exchange resins, optimizing purification columns for municipal and food-grade streams.
We saw tire cord and specialty elastomer producers struggle with inconsistent batches from third-party sources. With our high-purity material, their cross-linking reactions evened out, producing the same cured product every batch. Laboratory users also appreciate the cleaner GC background and less work when purifying their final products.
Every application requires a careful balance between reactivity and stability. Over-chlorinated material leads to corrosion and employee safety risks—so our on-site controls never let such issues progress unchecked. Some of our long-time clients run sensitive continuous processes. For them, batch-to-batch uniformity means machines keep running instead of handing out overtime slips for troubleshooting.
There’s little room for compromise in core manufacturing industries. Too many vendors treat epichlorohydrin as just another commodity. We disagree. Purity, water content, and transport stability set manufacturers apart. Our integrated pipeline and tank farm minimize oxygen exposure. The on-site purification station sidesteps cross-contamination often seen when traders blend lots from various sources.
Other products sometimes arrive at customer tanks discolored, or with a faint “chlorine” smell, signs of partial decomposition or water absorption. After dealing with feedback from the shop floor, we learned every detail counts—from dedicated stainless systems to standardized seals, down to inspecting every gasket. This practice prevents unwanted secondary reactions in storage or during transfer.
Some buyers think all epichlorohydrin comes out the same. That’s not true when you’re building high-performance electronics, aerospace composites, or specialty papers. With most imported product, managers report plugging in new lots only to find shifts in viscosity or off-target curing curves. We don’t hear those complaints anymore after clients make the switch to our controlled lots.
Factories pushing toward lower emissions and improved workplace safety expect a chemical that fits modern standards. We heard recurring requests—reducing by-products, tighter limits on organochlorines, and more robust documentation. Over the years, our product data expanded to include full COA and trace impurity histories. Our site audits taught us that what gets written on a spec sheet means nothing unless the boots on the ground can verify it through real results.
Process development teams in the coatings sector need a partner willing to talk through root-cause problems. Our technical folks join these discussions, often tweaking reactor feeds or running pilot trials so that customer plants don’t have to risk larger failures. This practical approach built trust over years—customers rely on our updates and batch histories to predict what will happen on their own lines.
This practical support also stretches to logistics. Epichlorohydrin can’t tolerate moisture during loading or transport. We use dry nitrogen purging, humidity-controlled trailers, and carefully selected carriers. Our drivers follow tank cleaning protocols, which address concerns we’ve heard for decades. By the time our product leaves our gate, it carries not only our name but the practices shaped by collaborating with hundreds of end users.
Every kilogram that leaves our plant has passed through checks not just for technical compliance but for safety and usability in real industrial environments. Epichlorohydrin needs to be managed for safe handling, and years of incident reporting inform our employee training and process improvements. We consult with downstream safety coordinators to review their handling procedures and support risk mitigation. Regular safety bulletins and handling sessions with customer operators ensure practical, shop-floor safety rather than box-ticking compliance.
We remain committed to sustainability, not by making grand statements but by investing in cleaner burners, closed drainage systems, and leak monitoring. The changes are not just for regulation—years of process improvements have directly lessened by-product loads and emissions, which our neighbors and workforce appreciate, too.
Over the years, customer feedback has driven equipment updates and process changes. Early on, we battled the challenge of maintaining clarity in hot, humid climates. Our solution involved not just improved seals but also better venting protocols at transfers. Today, supply chain managers trust our shipments to arrive clear and trouble-free, whether in bulk railcar or small tote.
Machine learning and data tracking might sound trendy, but in our plant, these advances support day-to-day production by catching deviations quickly. Production teams have access to trend analysis software with alerts for process drift, stopping potential off-spec episodes before they impact final product. The result? End users get consistency, and our production team builds pride in what they send out.
Factories across sectors rely on our pure epichlorohydrin to eliminate resin yellowing, extend storage shelf-life, and maintain precision in catalysis. We answer technical calls not with call center scripts but with real plant engineers who know how the product gets made, loaded, shipped, and stored. Our batch certificates come signed by supervisors who walked the tanks that shift, not by unseen administrative staff.
Tackling each client’s process is the backbone of robust manufacturing. Staff chemists run case studies at production scale, confirming that ratios, catalysts, and solvent choices play well with our current lots. When clients report unexpected gelation, we set up joint experiments and troubleshoot root causes. That spirit grows from years of conversations, not promotional brochures or template answers.
Some misconceptions about epichlorohydrin only dissolve when a client tours the site. The scale, checks, and conversations with operators often clarify what goes into each specification. Our engineers welcome such visits; questions about trace aldehydes, potential contaminants, or reactivity always lead to more knowledge sharing. These interchanges built long-term business as well as better chemistry.
The world keeps changing. Large-volume users in Asia and North America ask for greener process variants. We’re busy testing glycerine-based syntheses to further lower the environmental footprint. No process change happens overnight, and the work involves careful phase control, waste process tuning, and real-world trial shipments. Each improvement starts with site walks, not conference PowerPoints.
End users press for products that support longer storage windows and even lower off-gassing. We work with them, running pilot batches to validate real-world performance. Feedback from users on the shop floor helps direct investments in filtration, neutralization, and tank monitoring. For our team, these requests mean another challenge and a chance to improve.
We also pay attention to regulatory shifts. Our teams track developments from global chemical watchdogs and respond directly, adjusting our documentation and compliance as rules change. Chemical synthesis evolves, and product grades adapt, but our focus on actionable quality never wavers.
The chemical sector moves at a pace set by real-world outcomes, not committee meetings. Over years of shipping epichlorohydrin to hundreds of plants, trends emerged—trends only someone on the ground can spot. Customers need a supplier who understands their language. We keep investing in better process controls, more rigorous batch analysis, and practical support because these make a difference in everyday plant operations.
Whether the epichlorohydrin goes into adhesives, specialty coatings, ion exchange resins, or custom intermediates, the bottom line remains—it must consistently meet performance goals, maintain safe storage, and deliver maximum value per liter. Every production run, every site visit, and every troubleshooting call with a customer drives our ongoing commitment to practical, long-term performance rather than fleeting market trends.
Building a reputation in the industry doesn’t come from chasing buzzwords—it comes from years of honest work, responding to customers, and steady process improvement. That’s the approach we continue to take with every batch of epichlorohydrin that leaves our gates. Rival products will continue to compete on price or big promises, but experience on the shop floor tells the real story.