|
HS Code |
616529 |
| Cas Number | 22248-79-9 |
| Chemical Name | 1,2,3,4,10,10-Hexachloro-1,4,4A,5,8,8A-Hexahydro-1,4:5,8-Exo,Endo-Dimethanonaphthalene |
| Appearance | White to off-white crystalline solid |
| Molecular Formula | C10H10Cl6 |
| Molecular Weight | 373.82 |
| Purity | >75% |
| Melting Point | 160-165°C |
| Boiling Point | Decomposes before boiling |
| Solubility | Insoluble in water, soluble in organic solvents |
| Density | 1.75 g/cm³ |
| Vapor Pressure | Very low at room temperature |
| Odor | Odorless or slight chloroform-like |
| Stability | Stable under normal conditions |
| Storage Conditions | Store in a cool, dry, well-ventilated area |
| Hazard Class | Harmful if swallowed or inhaled |
As an accredited 1,2,3,4,10,10-Hexachloro-1,4,4A,5,8,8A-Hexahydro-1,4:5,8-Exo,Endo-Dimethanonaphthalene [Content >75%] factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Sealed 25 kg fiber drum, lined with polyethylene bag, labeled with chemical name, hazard warnings, batch number, and handling instructions. |
| Shipping | Shipping of **1,2,3,4,10,10-Hexachloro-1,4,4A,5,8,8A-hexahydro-1,4:5,8-exo,endo-dimethanonaphthalene [Content >75%]** must comply with hazardous materials regulations. Product should be securely packed in sealed, chemical-resistant containers, clearly labeled, and shipped under appropriate temperature and security conditions, with documentation according to international and local transport regulations for dangerous goods. |
| Storage | Store 1,2,3,4,10,10-Hexachloro-1,4,4a,5,8,8a-hexahydro-1,4:5,8-exo,endo-dimethanonaphthalene ([content >75%]) in a tightly sealed container, away from heat, sparks, open flames, and incompatible materials (such as strong oxidizers). Keep in a cool, dry, well-ventilated area. Use secondary containment and ensure storage locations are clearly labeled and secure to prevent unauthorized access. |
Applications of 1,2,3,4,10,10-Hexachloro-1,4,4A,5,8,8A-Hexahydro-1,4:5,8-Exo,Endo-Dimethanonaphthalene [Content >75%] in Industrial Manufacturing1,2,3,4,10,10-Hexachloro-1,4,4A,5,8,8A-Hexahydro-1,4:5,8-Exo,Endo-Dimethanonaphthalene, with an assay above 75%, serves as a specialized halogenated raw material for advanced sectors requiring effective intermediates and additives. The following sections outline key downstream uses in real industrial fields where technical formulation, compliance, and processing standards determine integration and end-application performance. 1. Crop Protection Intermediates for Insecticide SynthesisMajor agrochemical companies rely on this compound as a strategic intermediate in the synthesis of chlorinated cyclodiene insecticides. The material is charged during critical closed-system reactions, typically under controlled temperature and inert atmosphere. Chlorination and condensation steps require precise stoichiometry to avoid by-product generation. Plant QCs often analyze purity and isomeric composition to ensure consistent batch reactivity. Its integration supports high-output synthesis lines producing active ingredients, which are later formulated into commercial crop protection agents. Industry compliance standards
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2. Industrial Wood Protection and Termiticide FormulationWood treatment product manufacturers utilize the compound in concentrated blends for timber and soil protection, particularly for railway sleepers, utility poles, and durability-critical construction woods. Application requires tight control of dissolution and dispersion, as chloro-organics must deliver both surface and systemic protection. Products undergo proportioning based on timber density and local regulatory limits, with downstream formulation lines blending the raw input with carrier solvents, emulsifiers, and antifungal agents. Final form factors vary according to project and market, including concentrate liquids and ready-to-use emulsions. Industry compliance standards
Typical usage ratio
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3. Production of Polymer Flame Retardant Masterbatches and AdditivesPolymer compounders use this halogenated molecule as a key flame retardant intermediate, especially for PVC, polystyrene, and specialty rubber applications. During compounding, precise metering is critical to ensure homogeneity and thermal stability. Addition occurs at the melt-blend or pre-mix stage in extruders, where compatibility with plasticizers and base resins is validated by rheology and LOI (Limiting Oxygen Index) testing. Masterbatch formulations differ based on end-use, balancing fire safety against mechanical and optical requirements. Industry compliance standards
Typical usage ratio
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4. Intermediate for Pharmaceutical Synthesis of Chlorinated Bicyclic PrecursorsSelect pharmaceutical ingredient manufacturers incorporate this compound as a critical intermediate for synthesizing chlorinated bicyclodecane scaffolds. Chemistry teams introduce the intermediate under controlled environment with validated processes to minimize side reactions and improve isomeric yield. Reaction monitoring involves in-process HPLC and NMR, followed by purification steps tailored to downstream product specifications. Suitable only for technical API routes, the material's integration aligns with cGMP and regulatory documentation flow. Industry compliance standards
Typical usage ratio
Downstream process integration
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Competitive 1,2,3,4,10,10-Hexachloro-1,4,4A,5,8,8A-Hexahydro-1,4:5,8-Exo,Endo-Dimethanonaphthalene [Content >75%] prices that fit your budget—flexible terms and customized quotes for every order.
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In the world of chemical manufacturing, some compounds play an unsung but critical role in shaping finished products and advanced materials. 1,2,3,4,10,10-Hexachloro-1,4,4A,5,8,8A-Hexahydro-1,4:5,8-Exo,Endo-Dimethanonaphthalene, commonly known in production environments by its CAS number or simpler trade names, falls into the category of highly specialized intermediates. This compound, especially in concentrations greater than 75%, carries decades of evidence-based applications in synthetic chemistry and the development of specialty products.
Over years of scaling up synthesis, batching, and purification, our technical team has seen the challenges and rewards that come with producing a tightly specified material. Meeting this content threshold isn't just a marketing exercise. The difference between material at 75% and something at a lower purity means more predictable handling, reliable yield, and lower risk of downstream complications. This isn’t just about compliance; it’s about keeping processes running smoothly and reducing material loss.
Our clients, especially those serving the crop protection and specialty chemical sectors, rely on this compound as a foundation in their formulas. Because of the chemical structure, it provides a platform for further halogenation, oxidation, and substitution. Formulators working in our facility see less need for reprocessing or adjustment when the product stays above that 75% active threshold. In our own team’s hands, this translates directly into reduced rework and fewer batch failures.
In the lab, small-scale research work demonstrates that side reactions decrease as content increases. Staff responsible for QA and downstream operations request this higher assay for a reason: it’s less prone to forming troublesome residues or off-color byproducts. Processing technicians in our plant point out that the powder flows more consistently, which matters for high-speed automated handling.
Production experience sets us apart from trading houses and resellers. Our factory has spent years revising the process sequence for this compound. The chlorination stages need precise temperature and agitation control to avoid creating a mix of chlorinated byproducts. Our technical support team tracks these outcomes batch by batch and fine-tunes process conditions. The result is a reliable content over 75%, usually much higher, which our downstream partners have valued when they blend, incorporate, or further react this intermediate.
In our experience, storage and shipment conditions make a difference as well. At high content, this naphthalene derivative resists decomposition longer. Lower-content material from less controlled suppliers can lead to stability issues during transport. Over the years, we have invested in customized drying and packaging operations designed for this material, minimizing exposure to air and humidity. The goal is to keep the product as close as possible to the freshly dried condition all the way through to our client’s production line.
One difference we see between this and other similar halogenated naphthalene derivatives revolves around impurities and stability. Lower-content material often contains surface residues, partial chlorination byproducts, or moisture that interferes with some applications. Because we keep a tight rein on plant conditions and specify critical points for intermediate testing, our material consistently meets the high content rating. For manufacturers putting high demands on their inputs—especially those seeking high conversion rates or using sensitive downstream reagents—these factors spell the difference between a smooth run and an expensive rework.
Early in the process, we made the mistake of taking supplier data at face value and working with off-spec intermediates. Technicians on the line had to troubleshoot mysterious variances and lost finished product due to side reactions. That lesson drives our continued insistence on rigorous assay, active content reporting, and full traceability for every batch.
Mixing, dissolving, and reacting this compound are daily tasks for our production staff and clients alike. Small variations in content or residual solvents change the solubility or reactivity. The high-content version handles predictably in almost any solvent system our partners work with. Internal trials have shown high-content batches create a cleaner product in applications like synthesis of specialty agrochemical building blocks or advanced polymers.
Having handled low-content versions from other sources, our formulation chemists report an uptick in filter clogging and inconsistent crystallization. In contrast, batches over 75% allow for easier filtration, more consistent yields, and cleaner isolation. Over time, that lowers maintenance, waste output, and labor time spent on cleaning equipment between runs.
The structure and reactivity of this compound demand careful handling. Over the years, we have learned the value of investing in the right engineering controls, PPE, and emergency planning—not just for standards, but to protect those who work with it every day. In our facility, procedural discipline, clear labeling, and strong ventilation systems add a layer of protection beyond regulatory requirements.
Staff training includes not just rules, but hands-on practice: our team members know what to look for and how to respond. These steps have helped avoid lost time incidents and environmental releases, even as production volumes have scaled up. We recommend that users downstream adopt similar practical controls and work closely with our technical staff for advice on safe integration.
Some may see a long, technical name and assume all sources are equivalent. Direct production experience has disabused us of that notion. Our process minimizes formation of less-desired isomers; this pays dividends in product performance, since certain isomers or side-products can lead to instability or even regulatory non-compliance. Investing in analytic technology and iterative process control makes our batches consistently meet the high standard of content and purity set by demanding industrial users.
Unlike generic, lower-content or variable-grade supplies from traders, our variant withstands scalability demands and keeps impurities low enough for high-end synthesis. Testing backed up by years of in-house analytical work shows that greater consistency in the active ingredient brings about greater predictability in customers’ final steps—translating directly into yield, product appearance, and regulatory acceptance downstream.
Our clients use this intermediate to design and improve molecules that perform vital tasks: protecting crops from pests, resisting harsh environments, or delivering specialty resin properties. Because its structure includes multiple chlorine substituents and the unique bridging, it reacts selectively to create new functionalized derivatives. For generations of chemists, this compound has offered a pathway that combines robust physical properties and a predictable reactivity profile.
Manufacturing scale and regularity matter. We supply the compound with repeatable characteristics because we know that downstream partners use it for both exploratory R&D and large-scale manufacturing. Internal cross-department efforts have reinforced the need for batch-to-batch consistency, especially when clients feed this compound into multi-stage synthesis where surprises can become very expensive.
Getting a high-content, low-residue product out of each batch doesn't come without challenges. Chlorination reactions throw off significant heat and require careful staging. Inexperience can lead to uncontrolled exotherms, process runaway, or formation of dangerous impurities. Our operations team remembers early missteps—overly aggressive chlorination left us with off-color product and high cleaning costs. By methodically refining reaction conditions and cleaning regimes, we have brought both risks and batch variation down.
Packaging also proved to be more critical than anticipated. Moisture pickup and degradation were higher in early storage trials, especially during export shipments. No generic packaging worked—our engineers and plant staff worked together to pilot and scale up a custom packaging film and liner system, tuned specifically for the permeability and storage life of this compound. This level of investment is only possible for producers who know the handling quirks firsthand, not just from a distant supplier listing.
Every lot’s certificate reflects multiple in-process checks, not just a final spot analysis. Checking incoming raw materials prevents errors from compounding; QC by both instrument and wet chemistry checks proves out each batch before release. Teams have direct access to production and analytical data and can respond rapidly at any sign of inconsistency. We see real benefits—a faster, tighter feedback loop shortens troubleshooting, tightens deliveries, and keeps our clients' plants running.
Audits from major industrial partners have further refined our methods. Navigation of regulatory frameworks and documentation requirements happens in lockstep with our own team’s efforts; those who use the compound in regulated end products see added value in the way we maintain traceability and documentation on every delivery. There’s a clear link between QA practices inside the plant and customer peace of mind down the chain.
As manufacturers, the responsibility for each kilogram produced goes far past the plant gate. Over two decades, we have evolved our facility to minimize chlorinated emissions, capture process residues, and manage effluents reliably. This compound, by its very structure, calls for special handling to avoid environmental burdens. Early on, routine third-party audits and self-initiated process changes led us to reduce both direct and fugitive emissions sharply.
Waste minimization doesn’t stop at the plant. We have invested in recycling off-spec material and reusing compatible packaging within the manufacturing flow, reducing upstream resource use. Clients ourselves, we know the importance of partnering to recover or neutralize offcuts and residues—a lesson learned from hard-won experience in managing both costs and compliance across regions and supply chains.
Being the manufacturer lets us pass on more than a specification sheet. Teams that develop and scale new formulas benefit from firsthand guidance on mixing, solubility, and reaction steps. Our technical group stays connected to production and R&D, offering insight into both process optimization and troubleshooting. If a client’s process hits a snag, we have the data and history to pinpoint the source—whether it’s operator error, external supply quality, or quirks of the compound’s handling.
Our chemists and engineers understand that the difference between a successful and failed process often comes down to subtle interactions. Through years of troubleshooting, we bring a depth of knowledge that helps partners get the most out of each batch. Repeat customers count on us for more than raw materials—they expect answers when critical syntheses or scale-ups demand guidance.
No process stays static. Over the years, field feedback from clients and our own R&D have led to improvements in both yield and ease of use. Early challenges, such as caking, static charge buildup, and powder flow interruptions, have led to upgrades in material handling, anti-caking agents, and process control. Every modification is logged and tracked, reinforcing a cycle of refinement that passes directly to clients in the form of a more reliable, user-friendly product.
Test batches sent to development partners have driven small, meaningful pivots in plant operation—from drying regimes to in-line filtration design. Our plant and lab work as one team. This approach, rooted in direct feedback and hands-on experience, provides practical improvements, not just theoretical gains. Customers in turn benefit from higher up-time, easier process integration, and cleaner end materials.
At the heart of all high-specification chemical supply lies the question of trust: can the material perform as described, batch after batch, and can quality be proven? We stand on a track record built not on promises or abstract claims but on batches delivered, audits passed, and processes improved. Our clients know they can trace every lot directly to a facility where operators, supervisors, and technical leads all have a stake in the product’s outcome.
Building this compound takes skill, care, and investment in every detail—from sourcing quality reactants to training staff, maintaining documentation, and staying on top of ever-changing regulations. The result is a compound that performs, not just in the lab, but on full industrial scale. Responses to customer issues, large or small, are always informed by our ongoing production experience and a continual desire to do better.
Innovation doesn’t end with a stable process or a successful run. New areas of application for this compound arise as researchers and manufacturers expand its potential, from advanced polymers to novel agrochemical actives. Our R&D team explores incremental improvements in process control and impurity minimization, aiming to push both quality and cost-efficiency higher. Investments continue in both people and equipment, ensuring we keep pace with evolving customer needs and regulatory changes.
The commitment to improvement keeps us alert to both opportunities and risks. Experience has shown us that quality, safety, and reliability depend on the daily actions of the people making and handling this compound. Training, investment, and honest communication ensure that every ton shipped reflects our reputation and the trust placed in us by partners around the world.
1,2,3,4,10,10-Hexachloro-1,4,4A,5,8,8A-Hexahydro-1,4:5,8-Exo,Endo-Dimethanonaphthalene over 75% content isn't just another specialty chemical. Years of manufacturing, scale-up, troubleshooting, and collaboration have shaped the way we produce, test, and deliver this material. Every aspect, from process refinements to packaging and support, reflects lessons learned and a commitment to serving those whose work depends on reliable, high-quality intermediates. For every challenge, there’s a record of hands-on experience and ongoing improvement behind each shipment—because, as manufacturers, we know what’s at stake with every batch produced and every partner served.