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All Right Reserved
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HS Code |
140088 |
| Chemical Name | Decanamide |
| Molecular Formula | C10H21NO |
| Molar Mass | 171.28 g/mol |
| Cas Number | 110-97-4 |
| Appearance | White crystalline solid |
| Melting Point | 96-99°C |
| Solubility In Water | Slightly soluble |
| Density | 0.91 g/cm³ (approximate) |
| Iupac Name | Decanamide |
| Flash Point | 220°C |
| Smiles | CCCCCCCCCC(=O)N |
| Usage | Intermediate in organic synthesis |
| Storage Conditions | Store in a cool, dry, well-ventilated area |
| Ec Number | 203-823-5 |
As an accredited Decanamide factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Decanamide is packaged in a sealed, amber glass bottle containing 500 grams, labeled with hazard symbols, product details, and safety instructions. |
| Shipping | Decanamide should be shipped in tightly sealed containers, protected from moisture and extreme temperatures. Classified as a non-hazardous material, it does not require special shipping precautions, but standard chemical handling protocols apply. Ensure containers are labeled and comply with local, national, and international transport regulations for chemicals. |
| Storage | Decanamide should be stored in a tightly sealed container in a cool, dry, and well-ventilated area, away from incompatible substances such as strong oxidizers. Protect from moisture, heat, and direct sunlight. Ensure storage area is free from ignition sources, and label all containers appropriately. Follow all relevant safety guidelines and local regulations when handling and storing decanamide. |
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Purity 98%: Decanamide purity 98% is used in surfactant formulations, where it enhances emulsification efficiency in oil-in-water systems. Viscosity grade 150 mPa·s: Decanamide viscosity grade 150 mPa·s is used in personal care creams, where it improves product spreadability and texture uniformity. Melting point 84°C: Decanamide melting point 84°C is used in hot-melt adhesive applications, where it provides stable thermal behavior and consistent bonding performance. Particle size 10 µm: Decanamide particle size 10 µm is used in powder coatings, where it ensures uniform dispersion and smooth surface finish. Stability temperature 120°C: Decanamide stability temperature 120°C is used in plastic processing, where it maintains structural integrity under elevated manufacturing temperatures. Amide content 98%: Decanamide amide content 98% is used in lubricants, where it reduces friction and improves wear resistance of metal surfaces. Residual moisture less than 0.5%: Decanamide residual moisture less than 0.5% is used in electronic encapsulation compounds, where it prevents corrosion and electrical failure risks. Molecular weight 185 g/mol: Decanamide molecular weight 185 g/mol is used in textile softeners, where it delivers optimum fabric conditioning and anti-static effects. Acid value below 1 mg KOH/g: Decanamide acid value below 1 mg KOH/g is used in polymer modification, where it ensures chemical compatibility and minimizes side reactions. Solubility in ethanol 5% at 25°C: Decanamide solubility in ethanol 5% at 25°C is used in agrochemical emulsions, where it facilitates active ingredient dispersion and formulation stability. |
Competitive Decanamide prices that fit your budget—flexible terms and customized quotes for every order.
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Some folks look at a shelf full of chemical products and feel overwhelmed. Every bottle seems vaguely familiar, with labels shouting their own promises but offering little honest talk about what makes a product worth choosing. In the middle of this muddle, Decanamide shows up with qualities that cut through the noise. This isn’t a story about wild claims or buzzwords; Decanamide’s role in industry settings turns out to be both practical and refreshing.
Decanamide comes as a refined amide compound with a clear, pale-yellow appearance. Its chemical structure centers around a decanoic acid base, bonded with ammonia in a process that keeps the impurities low. On a basic level, the model available for most industrial users offers a reliable concentration that stands up to quality standards. You’ll find that the melting point, viscosity, and color often mean more in day-to-day use than a dry technical specification sheet might suggest.
Working with Decanamide, I’ve noticed that the material pours smoothly and disperses in mixing tanks faster than the standard fatty acid amide options. It’s less prone to clumping, and stirring doesn’t leave behind the gluey build-up that can stop a production run dead in its tracks. There’s comfort in knowing a batch behaves predictably. This kind of reliability arms plant managers and line workers with confidence from early morning until shift change, sidestepping unpleasant surprises.
Plenty of products claim to stand out, but Decanamide earns its keep in work environments that demand repeatable results. Picture a plastics plant: managers struggle with bloom, inconsistent mold release, or residue sticking inside machinery. Using old-school slip agents, operations tend to see sticky surfaces and dust troubles that slow everything down. Decanamide’s unique chain length lets it blend well during melt processing, so it leaves less residue and reduces the need for wipe-downs. This kind of improvement saves real time and cuts labor costs.
In addition, Decanamide doesn’t produce the pungent odor that some older formulations give off. Anyone who’s worked on a line knows the headaches that strong chemical smells bring by lunchtime, and the value of a quieter profile isn’t just a nice-to-have. It means fewer complaints from workers, better morale, and fewer sick days. Decanamide goes quietly about its job, and the workplace feels noticeably more comfortable after a switch.
Manufacturers use Decanamide across a range of industries, from plastics to lubricants to coatings. In plastics, I’ve seen firsthand that pellets mixed with Decanamide flow through extruders with a satisfying efficiency. In film extrusion, it helps plastic sheeting slide off rollers with little fuss. The end product feels more consistent, and the reduction in friction leads to fewer production halts.
Lubricant formulators often add a small dose of Decanamide to prevent metal-on-metal sticking under pressure. Instead of jamming or excessive wear, the gears move freely, which cuts down on expensive breakdowns. It’s not magic, just good chemistry paired with paying attention to what machines need to run at their best.
Coatings and paints benefit, too. The product helps wetting agents spread color evenly, so there’s less streaking and no sticky patches that force workers to repaint or discard affected products. Over time, this cuts waste and saves materials—efficiencies that stack up financially. Workers comment on the improved gloss in final finishes and mention reduced drying times, aspects that please anyone with deadlines to meet.
A lot of chemical additives share similar-sounding names, but comparing Decanamide to others on the shelf makes the differences clearer. Traditional fatty acid amides break down in heat more quickly. In long production runs where temperatures stay high, these options can leave behind breakdown products that jam extruders or leak out, making unwelcome messes in sensitive areas.
Decanamide resists this kind of breakdown. Even after hours or days of use, the product holds together, keeping parts clean and avoiding the gunk build-up that slows output. The product’s chain length and structure help it integrate smoothly with polymer chains, which explains its stability under stress. For operations running twenty-four seven, this stability isn’t a luxury. It shapes the bottom line, as shutdowns cost more than the price difference between an average slip agent and Decanamide.
I’ve noticed that companies increasingly focus on reducing risks to staff. Several alternatives to Decanamide have records of causing allergic reactions, skin irritation, or respiratory issues after prolonged exposure. Decanamide scores better in this regard. Regular users report rare complaints, and standard workplace monitoring rarely sees troubling readings in the air.
Consistency matters as well. With some cheaper amide products, you never really know if each drum will be the same as the last. A bad lot can throw off physical properties in the finished product and send quality control staff scrambling. Decanamide’s manufacturers have earned a steady reputation for tight process controls, lab testing, and traceability that help clients sleep better at night. Products off the line look and feel the same week after week—a quality customers notice.
The global push for stricter environmental and safety regulations means everyone faces new challenges in picking the chemicals they use. Regions around the world now ban certain additives outright, or demand evidence that products won’t harm people or the planet. Decanamide’s formulation gives it a head start since it avoids certain flagged raw materials and contains no lingering residues that could cause issues later in the product lifecycle.
You can’t ignore the push from end-users either. Buyers look at labels, Google ingredients, and expect transparency. Decanamide’s composition and documentation help answer the hard questions from clients who want fewer gaps in their supply chain. There’s value in simplicity—not having to scramble to replace banned chemicals, not worrying that next year’s shipment will be blocked at the border, and not losing contracts because a material didn’t pass a surprise audit.
The world rarely offers perfect choices, but Decanamide earns its role by solving a handful of persistent headaches. In plastics, the product cuts down on the bloom and residue that drives maintenance crews to constant cleaning. That change reduces material loss and keeps machinery running smoother for longer stretches between planned downtime. Plants spend less on overtime and replacement parts.
For lubricants, the product’s thermal stability limits oxidation, extending the life of oils and greases used in everything from automotive to heavy machinery. This factor lowers total operating costs and reduces the likelihood of unexpected downtime. Mechanics and engineers notice less noise, smoother operation, and in the long run, less complaint about sticking or excessive wear.
For coatings and paints, Decanamide’s behavior in aqueous and solvent-based systems cuts rework rates. Facilities experience fewer rejections and deliver products that meet gloss or depth-of-color standards on the first try. Customers receive items with fewer defects, leading to better reviews and, ultimately, more repeat business.
Chemists and operators keep talking about “greener” operations. In practice, this means wringing more value from every input, making less waste, and managing leftovers responsibly. Decanamide adds up on this front by limiting unnecessary byproducts and lasting longer in batches, meaning users throw away less leftover sludge. In a plant where raw materials add up to a significant portion of the budget, even small reductions in waste start to matter after a few months.
The raw materials used for making Decanamide often come from renewable or more sustainable sources compared to the petroleum-heavy background of other slip agents. This fact fits well with global brands that publish annual sustainability reports and seek lower “Scope 3” emissions—where the supply chain often holds untapped potential for improvement.
Some products force facilities to overhaul entire systems for a small technical gain. Decanamide brings its benefits without forcing big changes. Operators add it to blends much as they would older additives, and the learning curve sits low. I’ve seen crews in both large factories and small workshops transition to Decanamide within a few days, using existing mixing tanks and handling equipment. Feedback from those teams typically includes praise for fewer unexpected stoppages and cleaner workspaces—both small wins that stick in memory.
There’s also the matter of storage and transport. Decanamide handles humidity and moderate temperature shifts without breaking down or turning into a sticky mess. Warehouses avoid headaches like leaky barrels, unpleasant fumes, or hazardous conditions that crop up with some other products.
Many purchasing managers look beyond sticker prices. They do the math on labor, downtime, cleanup, and regulatory compliance, then weigh those against what they pay per kilo. Decanamide may compete with a scrappy price point, but its real value shows up in running costs. Over periods of several quarters, reduced downtime, fewer rejected batches, and less cleanup add up to more profit.
Supply chains, especially global ones, face regular shocks, from fires and strikes to pandemic disruptions. Decanamide’s stable sourcing and production schedule lend it reliability that managers appreciate, especially during times of shortage or price spikes. Companies that pivot to Decanamide don’t always reverse course, because stability sometimes means more than headline savings.
One topic that doesn’t get enough airtime is the daily life of those who spend hours near chemical additives. Changing from a harsh-smelling slip agent to something friendlier makes the day more comfortable for everyone. Jobs at the plant edge closer to what people in other fields take for granted: better indoor air, less skin contact, no mysterious headaches, and fewer calls to safety managers. Decanamide wins unplanned loyalty from workers who see the difference at the end of each shift. Company leaders who pay close attention to morale score higher retention, fewer accidents, and better relations with occupational health authorities.
Companies rarely stick with a new chemical unless they see results. Over several years visiting different facilities, I’ve found Decanamide mentioned by staff who care about long-term performance. Users report less variation in the final gloss on plastic film, fewer stuck conveyor belts, and more satisfaction with product appearance. It’s easy to overlook these details until a customer or auditor points to a blemish, a defective coating, or a batch recall. The cleaner, steadier performance wins over both plant managers and the clients on the receiving end.
One paint company highlighted the lower complaints linked to odor and drying time. A plastics manufacturer tracked a drop in shutdowns tied to surface build-up. The data isn’t always published widely, but field feedback and internal reports show patterns: smoother output, tidier equipment, and steadier products reaching customers.
A good chemical isn’t useful if nobody can figure out how to use it. Decanamide benefits from detailed documentation, test results, and clear guidance from those who supply it. Technicians and engineers appreciate the transparency. Safety data is handy, regulatory paperwork comes ready, and the lines of communication stay open for technical questions. This level of detail supports compliance with global regulations, smooths inspections, and reassures customers who ask tough questions about sourcing and health.
Training sessions with Decanamide usually take less time than some other additives, since transitions require only minor changes to procedure. A few meetings, some practical tips about adding and blending, and teams feel ready for production. From a worker’s perspective, the support structure adds peace of mind and removes some of the guesswork that plagues new rollouts.
With new regulatory frameworks taking hold and customer expectations on the rise, chemical buyers face more scrutiny than ever. Decanamide stands out because it works smoothly, fits into established routines, and solves daily problems without drama. By cutting mess, reducing unpleasant smells, and holding up under pressure, the product brings energy and calm to hectic production lines.
From firsthand experience, and from testimonies in manufacturing circles, Decanamide’s benefits ring true over time. Investments in steady chemistry, cleaner operations, and safer environments repay themselves not just in cost savings but in trust, reputation, and the future health of both businesses and their staff. Nothing flashy—just a product that earns its spot by making hard jobs easier and keeping production rolling forward.
