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HS Code |
777151 |
| Product Name | AR Hexachloroethane 500g |
| Chemical Formula | C2Cl6 |
| Molecular Weight | 236.74 g/mol |
| Purity | Analytical Reagent (AR) grade |
| Appearance | White crystalline solid |
| Pack Size | 500g |
| Melting Point | 185°C |
| Boiling Point | 187°C (sublimes) |
| Solubility In Water | Insoluble |
| Cas Number | 67-72-1 |
| Storage Conditions | Store in a cool, dry place |
| Hazard Classification | Harmful if swallowed; irritant |
| Odor | Camphor-like odor |
| Synonyms | Carbon hexachloride, Ethane hexachloride |
| Density | 2.09 g/cm³ |
As an accredited AR Hexachloroethane 500g factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The AR Hexachloroethane 500g comes in a sealed, amber glass bottle with a secure, chemical-resistant cap and clear labeling. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for AR Hexachloroethane 500g: Securely packed cartons, safely palletized, maximizing space, compliant with hazardous chemical shipping regulations. |
| Shipping | AR Hexachloroethane 500g is shipped in a securely sealed, chemical-resistant bottle within robust, protective packaging to prevent leaks or contamination. Handling and transport comply with hazardous material regulations, including proper labeling and documentation. Ensure storage in a cool, dry place away from incompatible substances. Only authorized personnel should handle upon delivery. |
| Storage | AR Hexachloroethane 500g should be stored in a cool, dry, and well-ventilated area, away from heat, open flames, and incompatible substances such as strong oxidizing agents. Keep the container tightly closed and protected from moisture. Store in a chemical storage cabinet with appropriate labeling and ensure easy access to safety data sheets and appropriate spill-handling materials. |
| Shelf Life | AR Hexachloroethane 500g typically has a shelf life of 5 years when stored in a cool, dry, and tightly sealed container. |
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Purity 99%: AR Hexachloroethane 500g with purity 99% is used in pyrotechnic formulations, where it ensures consistent smoke generation and reliable ignition. Melting Point 187°C: AR Hexachloroethane 500g with a melting point of 187°C is used in aluminum foundries, where it promotes effective degassing during metal processing. Particle Size <100 μm: AR Hexachloroethane 500g with particle size less than 100 μm is used in chemical synthesis applications, where it facilitates faster dissolution and improved reaction rates. Stability Temperature up to 150°C: AR Hexachloroethane 500g with stability up to 150°C is used in laboratory reagent preparations, where it maintains chemical integrity during extended thermal exposure. Moisture Content <0.2%: AR Hexachloroethane 500g with moisture content below 0.2% is used in organic synthesis, where it minimizes unwanted side reactions and enhances product purity. |
Competitive AR Hexachloroethane 500g prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615380400285 or mail to sales2@liwei-chem.com.
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Tel: +8615380400285
Email: sales2@liwei-chem.com
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We have poured years of manufacturing skill into producing AR Hexachloroethane 500g, shaped by close work with customers who demand consistent quality. Hexachloroethane (C2Cl6) looks simple on paper but, in reality, getting it right takes true attention to detail. Our processes rely on tightly controlled chlorination, which avoids residual contaminants that show up with bulk grade products. Each lot stands up to careful analysis — no batch leaves unless it meets analytical reagent-grade definitions. That confidence comes from experience, not guesswork.
AR Hexachloroethane 500g covers a specific range of purity, with purity checks that reflect years in chemical lab operations. You’ll see bright white crystalline solid in the bottle and catch that distinctive, sharp odor. Our grade offers higher clarity than technical or commercial hexachloroethane — every particle looks the same because of repeated purification cycles. It isn’t just about removing visible impurities. We check each batch for trace metals and common contaminants using our own in-house spectrometers and chromatography setups, which we calibrate regularly instead of relying on external labs. Reports from our clients show our AR material holds up to the same rigorous standards they set internally. Reproducible purity isn’t a promise; it’s what we expect from every run.
Hexachloroethane as a chemical finds its way into multiple applied and research areas. In our own facility, the AR grade features in analytical work for generating smoke in pyrotechnic formulations, creating controlled atmospheres for metal casting, and supporting certain organic syntheses. Laboratories rely on the greater reliability of this grade when they need minimal side reactions and dependable endpoint determinations. We have worked with research institutes and industrial process engineers who push chemical purity to the limit. Their feedback came back strong: AR Hexachloroethane handles their requirements for repeatable performance, batch to batch, project to project.
Some of our client labs employ this product as a standardizing agent in their procedures, particularly for zinc testing and as a degassing tool in foundry alloys. Unlike lower-grade materials, ours limits unknowns that could creep into sensitive measurements or specialized processes. When metals are being forged in specialty foundries or used in ordnance applications, the purity of the hexachloroethane gives foundry operators the level of confidence they need to scale up production runs without troubleshooting hidden quality defects. Feedback from these settings has informed how we optimize batch controls, always aiming for higher consistency.
It’s easy to downplay the difference between AR (Analytical Reagent) and technical grades until you examine the downstream results. During certain syntheses or in metal processing, stray contaminants can yield unpredictable or faulty outcomes. With AR Hexachloroethane, process chemists have told us they notice fewer false positives in analytical tests, and finished alloys show fewer voids during solidification. No unscheduled shutdowns for retesting; problems stay rare since product performance can be trusted from the outset.
This is no accident. We pay constant attention to source materials, oversight during purification, and robust post-production analysis with independently validated methods. Every time we scale up production, our operators report batch records directly, reducing the disconnects you sometimes find in outsourced or brokered product lines. Direct experience shows the AR-grade product leads to less downtime, steadier analytical curves, and solid returns on investment for our partners. The story unfolds in customer plants where unplanned process interruptions cost real money — AR Hexachloroethane shrinks these costs through reliability you can measure not just in the lab, but in the ledger books.
Our hexachloroethane production starts with high-purity feedstock. The chlorination reaction is done in controlled reactors, and we audit these reactors frequently. Product is distilled more than once, cut by cut, so we can select fractions that match AR expectations. Plant chemists, not assistants, monitor the process all the way. Each batch passes through filtration, drying, and crystal screening to catch variability. Product is bottled by trained staff who log bottle numbers, storage conditions, and fill dates, making it easier to trace and recall, if that’s ever necessary.
We embrace constant reviews of analytic techniques. Newer equipment means our quality assurance laboratory can catch sub-ppm impurities. Test results don’t just sit in folders; our team reviews trends batch by batch, identifying potential sources of deviation before quality drops. Our maintenance crew has standing orders to report equipment irregularities immediately, not at scheduled intervals. We make sure nothing gets swept aside. Long hours sometimes go into these routines, but the benefit shows up as repeat business and recommendations from finishers, analysts, and other chemical plants who notice more predictable outcomes with our AR Hexachloroethane.
Some customers ask what makes analytical reagent-grade hexachloroethane a better choice compared to technical grade blends. We can break it down by looking at purity, trace elements, and product handling.
Technical grade hexachloroethane often rides in bulk lots, with variable color, odor, and sometimes visible debris. We have sampled plenty from the open market — contaminant levels often turn up orders of magnitude higher than ours, especially for trace metals (such as iron, copper, and even unreacted chlorinated byproducts). Our AR grade, by contrast, is tailored for those who need certainty. Extremely low metal burdens reduce catalytic side reactions. It’s rare to find mottle or caking in our bottles, even after prolonged storage. This happens not because we over-specify our production environment, but because we have learned through years of feedback what steps protect both our product and the downstream chemistry you rely on.
Some alternatives in the market include stabilized forms mixed with inert agents, which can introduce complications for applications needing pure compound characteristics. By keeping the process free from stabilizer additions, our customers report improved transparency in their reactions and far easier post-reaction purification. Our team has tested comparative runs using both our AR grade and several bulk-grade products from other sources — yields remain higher, and downstream processing times stay shorter with our own grade.
Working daily with hexachloroethane means respecting both its chemistry and hazards. We package AR Hexachloroethane in robust, chemical-resistant containers that limit exposure to atmospheric moisture and prevent leaks. Staff receive regular hazard awareness training. Each bottle includes a secure seal to prevent dust ingress or contamination on the shelf. Our warehouse tracks temperature and humidity, since moisture can hasten decomposition — this focus on micro-control keeps product appearance and performance stable. End users consistently report the same visual clarity and easy crystal handling from the first bottle to the last. Handling guidance is drawn from direct experience; we communicate not only on paper but by supporting customers with troubleshooting advice based on actual plant incidents, not just recommendations found in literature.
We monitor real-time returns for shelf-life performance, often requesting feedback from high-frequency users in applied research and production. Repeated reports confirm containers protect contents in highly variable climates. We avoid using glass that can develop micro-stresses from thermal changes or physical shock, sticking to modern polymers that resist shattering and offer light protection. This packaging choice developed from our own experience with damaged shipments and changing storage conditions. Customers depend on no-spill, no-leak, no-sublimate product, meaning the packaging works as hard as the compound inside.
Hexachloroethane demands serious attention. Though regulations continue to evolve, we draw from day-to-day handling records, not only from compliance requirements. In our shop, staff use sealed transfer lines to avoid direct exposure, and air filtration systems in place keep vapor below threshold levels. Waste recovery focuses on minimizing environmental load. Solvents from cleaning cycles are collected and recycled whenever possible, and off-spec material is neutralized according to protocols we developed in collaboration with environmental officers who have audited our plant floor. We stay in touch with partners downstream, including waste handlers, to improve safe usage guidance across the whole life cycle. Unused residues go to certified incinerators, which we audit regularly to confirm standards are being met, not merely claimed.
In response to customer questions about minimizing workplace exposure, we provide current best-practice guidelines informed by our incident review panels. If a better handling or spill containment method proves itself in practice, we update our internal systems and share those learnings openly. Users from metalworking and pyrotechnic industries tell us our robust approach helps them meet their own on-site safety compliance benchmarks. Respect for both material and worker safety comes from experience and a streak of stubbornness — after all, seeing a safe track record and smooth audits matters more than announcements or good intentions.
Some users leverage AR Hexachloroethane to degas aluminum and magnesium alloys. Others depend on its steady burning behavior in smoke formulation or as a chlorine donor in organic synthesis. Our product supports technicians and researchers who want repeatable outcomes, not troubleshooting marathons. We support their efficiency by keeping open lines of communication — it’s common for our team to review method tweaks with frequent users, bringing together outside knowledge and internal observations to improve results on both sides. These discussions often start as troubleshooting sessions when a process changes, but quickly morph into mutual education. This tight feedback loop continually upgrades our process, not through empty claims, but on the back of actual, shared successes in metal, laboratory, and industrial environments.
We also assist users in choosing the correct grade for their end use. For environmental labs needing trace-level sensitivity, AR Hexachloroethane’s purity offers a measurable advantage. In industry, factories seeking higher throughput for degassing benefit from a more predictable burn rate and the absence of residues that could foul melting furnaces. Customer support teams know their product inside out and help evaluate whether AR fits the task, or if a lesser grade makes more economic sense for non-critical use. Evidence drawn from ongoing trials always guides alternatives, and we’ve found that transparency earns more trust than simply pushing the most expensive option.
Our customers count on the continuity of supply, especially those whose operations depend on stable input. Having our own manufacturing lines — not just passing on material from upstream sources — lets us guarantee both origin and specification. Production scheduling focuses on maintaining a buffer inventory. In cases of supply chain interruptions, we keep lines running or notify customers about expected adjustments before their own production windows close. By owning our own raw materials chain and keeping finishing operations in-house, we respond quickly to even small potential hiccups in demand or sourcing.
Clients get a traceable production history for every batch, and our internal reviews have stopped potentially off-spec shipments before they reached the packaging line. In one instance, a subtle color shift suggested a possible contaminant; we isolated, confirmed, and corrected the root cause within hours, losing a single day instead of shipping compromised material. That attention to detail stands out in regular audits, winning us continued trust from returning buyers who have seen what “direct accountability” means in action. Customers who value transparency can always ask to see testing data, production records, or even observe parts of the manufacturing process — and many have, strengthening ties rooted in confidence as well as performance.
Every year brings changes in technology and regulatory structures. We treat these not as boxes to check, but as opportunities to incorporate new analyses or refine standard operating procedures. We routinely add new autosamplers, solvent purification columns, and testing reagents to give earlier warnings for unwanted byproducts. Our internal teams analyze current peer-reviewed literature and vendor bulletins for novel approaches or new contaminants of interest, making improvements based on demonstrable outcomes. If a superior solid-phase extraction method proves results in another lab, we trial it on our own line and adjust specifications accordingly if measurable gains are found. Clients notice these stepwise changes; we receive fewer complaints about shelf-life and see cleaner results in downstream applications as a result.
Open communication with regulatory and standards bodies keeps us in line with — and sometimes ahead of — the latest safety and handling updates. Several times, this process led to earlier adoption of safe chemical tracking measures, sparing customers paperwork headaches when regulatory compliance shifted. Years spent fielding direct calls about technical interventions, batch consistency, or even small shipping defects gave us perspective; each improvement is a step toward keeping practical operations smooth, not just meeting minimum criteria.
Manufacturing AR Hexachloroethane isn’t a solitary enterprise. Reliable chemical production unfolds as a partnership with users, regulators, and service providers. Experience comes from decades mixing, refining, bottling, troubleshooting, and listening to feedback—not from a template or script. Authority in this space rises when organizations back up claims with monitored quality, open records, and demonstrable results on the floor, not just attractive promises. We support chemical knowledge by mentoring technical staff, updating protocols when lessons appear, and sharing observations (good or bad) with those who trust us to deliver a product whose real-world performance matches the high standards set at the outset.
Every bottle of AR Hexachloroethane 500g reflects this long effort. Reliability, clarity, and integrity come bundled with the compound within the bottle, visible to those who understand its critical importance to research, industry, and analytical progress. We see this not just as selling a substance, but as providing a dependable, evidence-backed tool for those who expect their chemistry to work the same way, every day, with no surprises. This is the outcome of manufacturing with E-E-A-T — expertise, experience, authority, and trust — central at every step.
