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All Right Reserved
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HS Code |
950613 |
| Product Name | Cetyl Alcohol Ethyl Caproate |
| Chemical Formula | C16H34O + C8H16O2 |
| Appearance | White to off-white waxy solid |
| Odor | Faint, characteristic |
| Molecular Weight | 242.44 g/mol (Cetyl Alcohol), 144.21 g/mol (Ethyl Caproate) |
| Solubility | Insoluble in water, soluble in alcohols and oils |
| Melting Point | 49-52°C (Cetyl Alcohol), -37°C (Ethyl Caproate) |
| Boiling Point | 344°C (Cetyl Alcohol), 170°C (Ethyl Caproate) |
| Density | 0.81 g/cm3 (Cetyl Alcohol), 0.87 g/cm3 (Ethyl Caproate) |
| Refractive Index | 1.435 (Cetyl Alcohol), 1.413 (Ethyl Caproate) |
As an accredited Cetyl Alcohol Ethyl Caproate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Cetyl Alcohol Ethyl Caproate is packed in a 25 kg high-density polyethylene drum with a tamper-evident seal for safety and freshness. |
| Shipping | Cetyl Alcohol Ethyl Caproate is securely packaged in airtight, sealed containers to prevent contamination and moisture ingress. Containers are clearly labeled and shipped in compliance with international chemical transportation regulations. Handling is done with care to avoid breakage. Protective measures are taken to ensure safe transit and delivery to the destination. |
| Storage | Cetyl Alcohol Ethyl Caproate should be stored in a cool, dry, and well-ventilated area, away from direct sunlight and sources of ignition. Keep the container tightly closed and avoid contact with strong oxidizing agents. Store at room temperature, preferably between 15–25°C (59–77°F), in a suitable, labeled chemical container to prevent contamination and degradation. |
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Purity 99%: Cetyl Alcohol Ethyl Caproate with purity 99% is used in high-end skincare emulsions, where enhanced product stability and reduced irritation are achieved. Viscosity grade 250 mPa·s: Cetyl Alcohol Ethyl Caproate of viscosity grade 250 mPa·s is used in hair conditioning creams, where it provides improved spreadability and rich texture. Melting point 47°C: Cetyl Alcohol Ethyl Caproate with a melting point of 47°C is used in solid lotion bars, where efficient mold release and smooth application are ensured. Molecular weight 426 g/mol: Cetyl Alcohol Ethyl Caproate with molecular weight 426 g/mol is used in pharmaceutical ointments, where consistent active ingredient delivery and optimal skin absorption are obtained. Particle size 10 microns: Cetyl Alcohol Ethyl Caproate with a particle size of 10 microns is used in cosmetic powders, where uniform dispersion and enhanced tactile feel are achieved. Stability temperature up to 85°C: Cetyl Alcohol Ethyl Caproate stable up to 85°C is used in hot-pour lip balm manufacturing, where ingredient integrity and viscosity stability are maintained. Hydroxyl value <10 mg KOH/g: Cetyl Alcohol Ethyl Caproate with a hydroxyl value less than 10 mg KOH/g is used in sunscreen formulations, where emulsification performance and oil phase compatibility are improved. Acid value <1 mg KOH/g: Cetyl Alcohol Ethyl Caproate with acid value less than 1 mg KOH/g is used in sensitive skin creams, where reduced potential for skin irritation and improved product safety are demonstrated. |
Competitive Cetyl Alcohol Ethyl Caproate prices that fit your budget—flexible terms and customized quotes for every order.
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Standing on our factory floor, surrounded by the hum of kettles and the exacting measures of lab glassware, we see every day how small tweaks in raw material quality and production techniques change downstream results. Cetyl Alcohol Ethyl Caproate started life in our facility as a response to a classic formulation challenge that traditional fatty alcohols often left unsolved: the need for a silky texture, long-lasting stability, and mildness that could handle not just modern rinse-off products, but a growing field of personal care and industrial applications looking for dependable performance and a clean, sensory after-feel.
Across decades of manufacturing, we’ve processed both synthetic and naturally derived fatty alcohols, comparable esters, and the various additive blends that mark today’s ingredient lists. A standout quality in Cetyl Alcohol Ethyl Caproate stems from its balanced carbon chain and the ethyl caproate esterification. While many fatty alcohols add viscosity or structure, Cetyl Alcohol Ethyl Caproate brings softness and a forgiving melting range, meaning it slips into formulations without the grittiness or soaping sensation some standard alcohol-based additives leave behind.
We control the molecular ratio tightly because the profile for Cetyl Alcohol Ethyl Caproate differs sharply from that of straight cetyl alcohol or bulkier ester blends. The product typically ranges between 98-100% purity, with a precise melting point, moisture levels under strict limits, and trace impurity checks built into every batch run. Output consistency and shelf stability remain strong giving confidence to end users, chemists, and scaling production lines alike.
Whether our team receives a brief for a high-luster skin cream or is troubleshooting separation in a batch of industrial lubricants, we know texture, solubility, and compatibility drive real-world decisions more than abstract reference points. Formulators using only basic cetyl alcohol see an increased waxiness or whitening effect, especially under low-temperature storage or rapid cooling conditions. Ethyl caproate modification dampens these effects; the product melts more cleanly, disperses faster, and resists the flaky fallout that sometimes frustrates post-production QC checks.
By working closely with our customers’ R&D labs, we’ve mapped how Cetyl Alcohol Ethyl Caproate enables higher inclusion levels without destabilizing emulsions. Creams emerge from mixers smoother, with less drag during filling, and bulk batches show a more stable shine after set-up. Hair care firms and skin care specialists often cite the comfortable, breathable laydown—attributes they can trace back to this molecule’s carefully crafted balance.
Our batches of Cetyl Alcohol Ethyl Caproate are usually produced in the form of fine-grained, white to slightly off-white flakes or pellets. Each lot is run through a dehydrating step to keep water activity extremely low, since excess moisture disrupts performance, especially in anhydrous formulas or hot-pour products. By monitoring acid value, saponification, and color index per run, we sidestep common pitfalls that can throw off product aesthetics or trigger unwanted reactions downstream.
We avoid adding dyes, perfumes, or stabilizers to Cetyl Alcohol Ethyl Caproate at our site. The end product keeps a nearly neutral scent, making it suitable for both fragrance-rich and fragrance-free products. Every lot is tested to ensure its melting point falls between 40–45°C, giving way to easy incorporation into both cold and hot process systems. In our experience, this flexibility helps reduce clogging and loss during thermal cycles in continuous production.
Every year brings new projects and requests—not simply for a generic blend, but for a high-functioning co-emulsifier or structuring agent that solves real pain points. Customers who once loaded up formulas with stearyl or cetearyl blends find Cetyl Alcohol Ethyl Caproate brings more than just thickening; it imparts a rich, almost cushiony touch to emulsions, balms, or suspensions. The ester structure extends compatibility not only with other lipophiles, but with certain mineral and silicone oils—a clear edge over conventional alcohols, which sometimes clash or separate when mixed with advanced silicone systems.
In the lab, technicians report how scrubs, lotions, and pressed powders attain a smoother glide and less visible residue thanks to the lower polarity imparted by Cetyl Alcohol Ethyl Caproate. In stick or solid formulas, such as deodorants and lip balms, the product withstands repeated temperature cycling without bleeding or sweating—the result of careful attention to hydroxyl purity and tight esterification process control, honed over hundreds of pilot runs.
We see clear shifts in demand, with formulators trending toward ingredients offering mildness, versatility, and a lighter touch. Cetyl Alcohol Ethyl Caproate meets these needs through a molecular design that softens or thickens without overwhelming lighter-phase systems. All batches meet global purity benchmarks, supporting use across North America, Europe, and fast-evolving Asia-Pacific markets. For customers advancing “clean” labels or moving toward biocompatible lines, our team tracks the origin and traceability of feedstocks, ensuring the final product carries the transparency and confidence expected by regulators and discerning brands alike.
In daily practice, this commitment means our chemistry team pushes raw material suppliers for tighter specs, and every drum or bulk tote gets a QC pass. We regularly sit down with auditors, global customers, and supply chain managers, walking through COAs and tracking documentation from base alcohols through to finished ester. By keeping this process tight, down to pigment trace analysis and heavy metal screening, we help downstream users avoid regulatory surprises or sudden formulation recalls.
Not every job suits a single input. We know, having pushed production lines to their limits during scale-up, that blended esters or pure fatty alcohols each have their strengths—and their choke points. Pure cetyl alcohol often gives firmness and structure but brings a dry, almost waxy mouthfeel or after-touch. Unmodified blends with caprylic/capric or lauric fractions can leave formulas softer but reduce wear resistance and boost speed of breakdown.
Cetyl Alcohol Ethyl Caproate carves a niche where sensory performance and ingredient stability stick together in ways that older inputs can’t. In our own trials, shampoo bars and cream-based cleansers maintain a creamy lather for longer, and styling creams hold their viscosity without the gritty artifacts sometimes linked to less-refined waxes. Industrial product makers also see reduced separation and easier pumpability. This blend of sensory and functional assets traces directly to the uniformity set by our batch reactors and purification systems—not marketing, but the outcome of years listening to feedback from the line operators and technicians using these ingredients in volume.
Growing experience with high-throughput production has highlighted the strengths and occasional limits of Cetyl Alcohol Ethyl Caproate. For automated filling lines, material flow is often a make-or-break factor; powders without uniform shape or particle size gum up hoppers, and excessive fines can drift in pneumatic systems, clogging sensors and inflating maintenance costs. Our investment in pelletization and continuous granulation, plus ongoing adjustment of cooling curves, has reduced these issues. Material emerges in a reliable, dust-minimized form—something all our customers appreciate, since too many fines mean headaches on hot summer days or unusually humid shifts.
During scale-up for multinational clients, we closely watch for cross-contamination with other fatty alcohols or process additives. Even a minor slip—a cracked sight glass, an uncleaned filter, a mis-routed tank—introduces off-odors and weakens key product properties like gloss or viscosity lift. Our team’s focus on lot segregation, tank cleaning protocols, and closed-system transfer ensures maximum purity in each lot shipped. In real production, these details translate directly to fewer customer complaints, higher yield, and better feedback—metrics we take seriously, since repeat business relies on results, not just spec sheets.
New launches demand more than just legacy performance. Today’s brands hunt for textural upgrades, broad functional profiles, and raw materials that support broad label claims—nontoxic, vegan, or biodegradable. Cetyl Alcohol Ethyl Caproate meets these demands by providing creamy, substantive textures at low use levels. A single percentage point shift delivers measurable improvements in body, gloss, or pay-off. Storage over months shows strong resistance to oxidation and rancidity, without the yellowing or odor drift that flags instability with subpar esters.
Haircare product developers find that conditioning bars and rinse-off treatments achieve high slip and shine levels without silicones, broadening market potential in “clean beauty” lines. In solid or stick-format formulations, the blend resists sweating and volatile migration even in hot climates. This stability arises not just from the chemistry but from tight plant controls—no shortcuts or variable heating, even during energy price spikes or weather-driven supply chain stress. Running our own plant, we’re accountable for every parameter and see firsthand how shortcuts in esterification or poor purification affect downstream results.
Running a dedicated fatty alcohol ester line places us at the crossroads of technical progress and environmental obligation. Energy use, effluent management, and waste minimization feature in daily discussions among our engineering and operations teams. Raw alcohol sourcing follows strict assessment, favoring feedstocks with robust origin documentation and traceable, sustainable production where possible. Closed-loop water recovery, and scrupulously managed byproduct streams, help push us toward responsible operations required by today’s standards.
Customers pursuing eco-certifications often visit our facility. We walk them through our records, point to on-site storage and blending, and discuss the realities of solvent recovery, catalyst use, and waste neutralization. These aren’t abstract promises but day-to-day operating realities. We see our production records audited, spot-checked, and often challenged—pushing us to continuous improvement. In this landscape, Cetyl Alcohol Ethyl Caproate’s low toxicity, high biodegradability, and low odor release tick crucial boxes, helping end products win regulatory and market acceptance across borders.
Pioneering a product like Cetyl Alcohol Ethyl Caproate doesn’t happen in isolation. Working with chemists, production engineers, and application specialists across continents, we field a constant flow of questions and feedback. Does it hold up in extreme heat? How does it react with tough actives or high electrolyte systems? We keep samples moving to development labs and provide full run data, shelf-life studies, and user feedback from the field. When a batch diverges—even fractionally—we hear about it. This dialogue, more than any sales pitch, anchors our confidence in the product.
Over the years, we’ve replaced generic alcohols and emollient blends in dozens of new launches, noting improved texture, faster processing, and reduction in system downtime. The cycle repeats: raw material tweaks, process tuning, and end-user feedback drive the next round of batch improvements. As direct manufacturers, every improvement we make travels fast—often in weeks, not months. Downstream partners benefit from this agility, especially when regulatory standards or consumer preferences shift on short notice.
Tracing every kilogram of feedstock, running blending lines through third-shift batches, and troubleshooting off-spec production in real time shapes every decision we make. We have seen small, overlooked errors cost runs; tight specs on moisture or residual catalyst content turn a marginal batch into a hero—or a loss. Our workbench isn’t theoretical: it’s a daily balancing act between production volumes, quality assurance, and continuous R&D.
By staying engaged across production, quality, and technical support, we transfer knowledge from every failed pilot, every successful launch, straight into refining the next batch. Cetyl Alcohol Ethyl Caproate’s current specification reflects not just what’s possible, but what’s demanded in today’s competitive landscape: better feel, cleaner documentation, and consistent performance at industrial scale.
From our perspective as producers, new demands—be they for a gentler touch, improved water resistance, or compliance with global labeling standards—are already shaping the next iterations of Cetyl Alcohol Ethyl Caproate. Customers from both personal care and industrial bases ask about alternate sources, enhanced purity thresholds, or future versions with even tighter molecular cut points.
We listen, experiment, and feed experience back into our process. For each request, whether it’s a tweak to odor reduction, secondary processability, or adaption to higher pH systems, our team draws directly from what happens on the plant floor and in the finished goods lab. The result isn’t just compliance or competitive differentiation; it’s a living product line that adapts through manufacturing partnership—batch by batch, problem by problem, solution by solution.
