|
HS Code |
628066 |
| Chemicalname | Decahydro-2-naphthol, mixture of isomers |
| Molecularformula | C10H18O |
| Molecularweight | 154.25 g/mol |
| Casnumber | 529-75-9 |
| Appearance | Colorless to pale yellow liquid |
| Boilingpoint | 248-250 °C |
| Meltingpoint | 26-30 °C |
| Density | 0.969 g/cm3 (at 20 °C) |
| Solubilityinwater | Slightly soluble |
| Flashpoint | 103 °C |
| Odor | Characteristic |
As an accredited Decahydro-2-naphthol, mixture of isomers factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | A 500g amber glass bottle with a secure screw cap, labeled "Decahydro-2-naphthol, mixture of isomers" and hazard information. |
| Container Loading (20′ FCL) | 20′ FCL container loading for Decahydro-2-naphthol (isomers mixture): 80–120 drums per container, securely packed to prevent leakage. |
| Shipping | **Shipping Description:** Decahydro-2-naphthol, mixture of isomers, should be transported in tightly sealed containers, protected from light and moisture. It must be shipped according to local and international chemical transport regulations, clearly labeled as a chemical substance. Handle with proper personal protective equipment and avoid direct contact or inhalation during shipping and handling. |
| Storage | **Decahydro-2-naphthol, mixture of isomers** should be stored in a tightly closed container in a cool, dry, and well-ventilated area, away from sources of ignition, heat, and direct sunlight. Keep away from incompatible substances such as strong oxidizing agents. Store at room temperature, and ensure containers are properly labeled to prevent accidental misuse or exposure. |
| Shelf Life | Shelf life of Decahydro-2-naphthol, mixture of isomers, is typically 2 years when stored in tightly sealed containers under recommended conditions. |
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Purity 98%: Decahydro-2-naphthol, mixture of isomers with purity 98% is used in fragrance intermediate synthesis, where high purity ensures reproducible olfactory profiles. Molecular weight 150.26 g/mol: Decahydro-2-naphthol, mixture of isomers with molecular weight 150.26 g/mol is used in agrochemical formulations, where precise dosing enables predictable bioactivity. Melting point 38–45°C: Decahydro-2-naphthol, mixture of isomers with melting point 38–45°C is used in specialty coatings, where controlled phase transitions support uniform film formation. Viscosity grade low: Decahydro-2-naphthol, mixture of isomers with low viscosity grade is used in lubricants, where reduced viscosity facilitates enhanced fluid mobility. Stability temperature up to 180°C: Decahydro-2-naphthol, mixture of isomers stable up to 180°C is used in high-temperature adhesive systems, where stability maintains adhesive integrity under thermal stress. Particle size <10 μm: Decahydro-2-naphthol, mixture of isomers with particle size less than 10 μm is used in fine chemical blends, where small particle size promotes homogeneous dispersion. Odor threshold low: Decahydro-2-naphthol, mixture of isomers with low odor threshold is used in perfumery bases, where minimal base note interference allows for cleaner scent formulations. |
Competitive Decahydro-2-naphthol, mixture of isomers prices that fit your budget—flexible terms and customized quotes for every order.
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Manufacturing a specialty chemical always starts with a practical need. Decahydro-2-naphthol, delivered here as a mixture of isomers, answers recurring questions from both the high-demand sectors and innovative labs. After decades of handling naphthalenic compounds, the team on the floor recognizes very clearly when a material answers the right problems. This compound, with roots in hydrogenated naphthalene, operates quietly behind the scenes in the synthesis of advanced industrial products, fragrances, flavors, and even pharmaceutical research. We watch its movement across reactors and storage tanks with a focus sharpened by hands-on experience.
In production, we take great care with both the hydrogenation step and distillation, balancing conditions to encourage a consistent spread of isomers. Unlike outsourced lots or reships from intermediaries, producing bulk Decahydro-2-naphthol on our grounds means tight control over quality from raw input to finished drum. For every shipment that leaves, our QC personnel have signed off on chemical ID checks, GC profiles, and purity thresholds. The product leaves not only with a label but also with the confidence earned from direct oversight.
Customers often ask about the distinction between Decahydro-2-naphthol in its mixture of isomers and more conventional naphthol derivatives. The differences are felt most in chemical behavior and odor characteristics. While alpha-naphthol or beta-naphthol may signal different aromatic properties, their complete hydrogenation results in a cycloaliphatic profile entirely outclassed by Decahydro-2-naphthol. Our chemists spend hours tracking these shifts because even minor contamination with aromatic starting material will twist the final scent and reactivity profile.
The mixture of isomers stands apart from purer single-compound alternatives. Where a pure cis- or trans-decalol would serve one narrow use, our practical experience argues for keeping the mixture. It mirrors customer demand—industry trends seldom chase single-isomer compounds when a practical blend lifts performance or broadens utility. Perfume chemists, for example, have fine-tuned bases and fixatives around these isomer mixes for decades. Lubricant developers and plasticizer researchers benefit from a compound able to adapt to challenging synthetic steps without a need for fine isomer separation. Every manufacturer appreciates fewer purification steps, faster process time, and reduced waste.
In our own labs and at customer sites we’ve visited, Decahydro-2-naphthol rarely sits on a shelf for long. The compound flows into intermediate steps for manufacturing musky odorants, processing as both a building block and a performance enhancer. Some fragrances, especially those striving for a fresh, cycloaliphatic base note, simply don’t settle right without this naphthol variant. Melt it, blend it, or react it—the isomer mix opens up more options for synthetic strategies.
Beyond scents, polymer chemists come back for this material as it contributes key elements in specialty resins and plasticizers. The high boiling point and relative non-volatility mean it handles heat stress without breakdown, which matters during extrusion or pressure molding. Tested batch after batch, our Decahydro-2-naphthol survived demanding thermal cycling with no breakdown or off-odor, which doesn’t always hold true with alternate compounds.
Certain agricultural and veterinary applications also pick up this compound as a backbone in specialty formulation. Here, purity and residual solvent control become more crucial. Our plant’s equipped to monitor these batch parameters closely given the increasingly sharp regulatory environment in fertilizer additives and animal health solutions.
In production, we emphasize consistency. We tune hydrogenation reactors to ensure all naphthalene inputs convert fully, followed by fractionation that divides out unsuitable fractions. The product emerges as a clear to slightly yellowish liquid, boiling above 130°C under reduced pressure, with a faint, oily scent typical of hydrogenated cyclic alcohols. In-house GC-FID runs, batch-by-batch, confirm a spread of cis- and trans-isomers, without over-concentration of a single form that could skew reactivity or performance.
Our own model for Decahydro-2-naphthol prioritizes batch stability over theoretical purity. Customers in the real world do not always need HPLC-pure compound; they need reliability across seasons. Packing this material immediately after synthesis, sealed in inert atmosphere, keeps air and moisture out. This basic measure, drilled into our production routine after lessons learned from older reactors, gives end-users the same working product every time.
Specifications reflect what we know users demand from years of feedback: no visible particulates, a set threshold for water by Karl Fischer, and a confident purity by GC, typically above 97%. More importantly, we run olfactory checks. Off-notes rarely go unnoticed by people using this chemical in perfumes or flavors, so we test the scent as carefully as we measure boiling point.
From the floor of our plant to the R&D pilots next door, we recognize that single-isomer chemicals can miss practical advantages. In a world that romanticizes ultra-purification, practical manufacturing still values robust, process-tolerant options. Our Decahydro-2-naphthol, as a mixture of isomers, stands up to variable process conditions and maintains activity without tinkering for small-scale lab purity. We picked up this philosophy after seeing dozens of customers choose the mixture consistently over the so-called “pure” compounds touted in lab catalogs.
Our operators have run pilot lots with higher single-isomer composition, only to find downstream steps stalled under non-ideal pressures or solvent changes. Sometimes, the blend’s versatility beats theoretical specificity. Whether it goes into a high-end perfume base in Europe or industrial-use plasticizer in the Americas, the product performs across all standard processing methods.
One key factor buyers miss is the assurance that comes with a vertical supply chain. Our Decahydro-2-naphthol does not change hands ten times before packaging. We track material from initial naphthalene feedstock—sourced from long-term partners—to finished product in drums, all under one roof. This traceability means we catch problems before scale-up, not after bottles arrive at a distant warehouse.
Quality control relies equally on analytical instruments and routine know-how built through years on the floor. People notice when a simple GC run doesn’t match historical data. Change in retention time or a subtle shift in odor means an investigation, not just a box on a checklist. This direct oversight creates customer confidence, not just in product quality, but in a reliable supply over years, not weeks.
Unlike suppliers who operate at arm’s length from actual production, we live with the realities of chemical manufacturing. Vent scrubbers keep air emissions within strict limits, not just to meet local standards, but to assure workers on the floor. Waste streams, especially after hydrogenation steps, receive careful handling—a necessity learned from both regulatory pressure and workers’ feedback.
Our safety team runs routine sessions on handling Decahydro-2-naphthol. While it doesn’t present major hazards compared to more active naphthols, it’s not a benign material. Teams always move and blend it inside closed loops and ventilated spaces. And if there’s ever a change, whether a new lot of raw naphthalene or a tweak in reaction pressure, communication runs up and down the team without gaps. We’ve steered clear of major incidents by putting process knowledge and worker feedback on equal footing with rules and instrumentation.
Most supply interruptions don’t start at the shipping dock—they start with feedstock. Our operation keeps a standing inventory buffer of naphthalene, monitored in real time. Raw material storage draws on lessons from unplanned shutdowns in past years, so unexpected demand spikes don’t disrupt Decahydro-2-naphthol availability. We trust our inventory system because we run reconciliation checks every month, not just at quarter-end.
Customers often remark on our lead-time stability, particularly in volatile chemical markets. We achieve this by avoiding overcommitment and keeping logistics in step with plant output. Finished goods don’t sit out in extreme conditions, since we keep them in temperature-moderated warehouses near point-of-dispatch. In summer or winter, the end-user gets the expected product—not yellowed, not hardened, not short-filled. These details only come right with direct producer control.
Each year, specialty buyers approach with new demands on batch size or tighter olfactory consistency. Producing Decahydro-2-naphthol at scale means adapting, whether that’s double-filtration or targeted side-stream purging during hydrogenation. Our team responds with practical tweaks, answering not just to spec, but to the actual end use we know from years of feedback.
We also understand the reality of customer-site blending. Lab visitors talk about pumpability and pouring characteristics, not just numbers on a sheet. We’ve redesigned drum linings and pour spouts after reports of persistent sticking with older container designs. This prevents wasted material and keeps operations running smoothly on the receiving end.
The chemical industry doesn’t move on projections alone; reliable supply, consistent quality, and process flexibility still win repeat business. Across market cycles, Decahydro-2-naphthol remains in steady demand for companies looking for proven building blocks with minimal drama. We adapt to market price shifts by locking in energy and raw material rates whenever possible, keeping final product cost predictable for buyers who depend on medium or long-term contracts.
Customers who once purchased small lots via distributors routinely move to direct partnerships with manufacturers when they see tangible consistency in product quality and shipping schedules. We don’t try to undercut speculative spot prices but focus on long-haul relationships and technical support. If a run needs tweaking for a niche application, we take that feedback to the process lab, and usually turn around a sample batch in days, not weeks.
Raw material volatility and regulatory tightening increasingly challenge specialty chemicals. In response, we invest in both process improvement and staff training. Advanced purification systems, enhanced GC analysis, and robust feedback channels outpace slow-moving regulatory updates. We invest profits into more closed-loop systems and better source tracing, eliminating surprises from contamination or speculation.
Years back, the team built a side-by-side comparison plant to test alternative hydrogenation catalysts. This trial, costly in the short term, paid dividends both in final product consistency and energy cost. Those lessons now drive better yields and reliability, down to reduced waste and improved energy footprint. When environmental laws change, we’re already running ahead of compliance dates, because our process improvements stem from the same operational experience that kept customers satisfied year after year.
Buyers get more than a product spec sheet with each order. Our support team—drawn from plant operators, chemists, and packagers—can answer process-specific questions from the field. If a drum samples “off,” we respond with analytical backup and a commitment to replace or rectify, not just a finger-point at batch records. Decades of practical manufacturing experience stand behind both the product and every technical reply.
Innovation from lab partners flows straight into our process pipeline. We’ve trialed alternate solvent systems, reaction pathways, and filtration methods based on customer feedback. If a process request comes through, we review it not from a distance, but hands-on, often sending a production engineer to observe customer plant operations and adjust supply accordingly.
Decahydro-2-naphthol, as we produce it, reflects both the capabilities of dedicated manufacturing and the adaptability driven by real-world demands. Years of incremental improvements, operator knowledge, and direct customer feedback shape every batch. Anyone seeking more than just another chemical drum—who wants assurance of both quality and insight—benefits from working directly with a manufacturer that controls every step, faces the same challenges, and delivers with consistency and honesty.
