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HS Code |
118543 |
| Chemical Name | Ethylene Bis Stearamide |
| Abbreviation | EBS |
| Product Name | WAX 2006 |
| Appearance | White to off-white powder |
| Melting Point | 140-145°C |
| Molecular Formula | C38H76N2O2 |
| Molecular Weight | 593.02 g/mol |
| Density | 0.98 g/cm³ |
| Solubility In Water | Insoluble |
| Flash Point | > 260°C |
| Acid Value | < 10 mg KOH/g |
| Amide Content | ≥ 98% |
| Cas Number | 110-30-5 |
| Odor | Odorless |
| Applications | Lubricant, dispersing agent, anti-blocking agent |
As an accredited Ethylene Bis Stearamide WAX 2006 factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Ethylene Bis Stearamide WAX 2006 is packaged in 25 kg net weight polypropylene bags, featuring moisture-resistant liners for safe storage. |
| Shipping | Ethylene Bis Stearamide WAX 2006 is typically shipped in 25 kg bags or fiber drums, securely sealed to prevent moisture or contamination. Store in a cool, dry, well-ventilated area away from strong oxidizers. Transport according to applicable regulations, ensuring packaging remains intact to maintain product quality and safety during shipping. |
| Storage | **Ethylene Bis Stearamide WAX 2006** should be stored in a cool, dry, and well-ventilated area, away from direct sunlight, moisture, and strong oxidizing agents. Keep the container tightly closed when not in use. Store in original packaging or compatible containers to prevent contamination. Ensure good industrial hygiene practices to minimize dust generation and static accumulation during handling and storage. |
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Purity 99%: Ethylene Bis Stearamide WAX 2006 with a purity of 99% is used in PVC compounding, where it significantly enhances surface gloss and reduces friction. Melting Point 140°C: Ethylene Bis Stearamide WAX 2006 with a melting point of 140°C is used in hot-melt adhesives, where it provides superior thermal stability and resistance to deformation. Particle Size <30µm: Ethylene Bis Stearamide WAX 2006 of particle size less than 30 microns is utilized in powder coatings, where it improves dispersibility and ensures uniform surface texturization. Low Viscosity: Ethylene Bis Stearamide WAX 2006 with low viscosity is used in ink formulations, where it offers improved flowability and optimal printability. Thermal Stability 250°C: Ethylene Bis Stearamide WAX 2006 possessing thermal stability up to 250°C is used in engineering plastics, where it maintains lubricant performance under high processing temperatures. Acid Value <3 mg KOH/g: Ethylene Bis Stearamide WAX 2006 with an acid value below 3 mg KOH/g is used in masterbatch production, where it enhances pigment dispersion and color uniformity. Moisture Content <0.5%: Ethylene Bis Stearamide WAX 2006 with moisture content below 0.5% is used in cable insulation manufacture, where it avoids hydrolytic degradation and extends product lifespan. Solubility in Hydrocarbons: Ethylene Bis Stearamide WAX 2006 with high solubility in hydrocarbons is utilized in lubricant formulations, where it ensures homogeneous additive distribution and consistent lubrication performance. Drop Point 143°C: Ethylene Bis Stearamide WAX 2006 with a drop point of 143°C is used in rubber processing, where it improves mold release and reduces processing cycle times. Compatibility with Polyolefins: Ethylene Bis Stearamide WAX 2006 with excellent compatibility with polyolefins is used in injection molding, where it promotes surface smoothness and decreases ejection force. |
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Ethylene Bis Stearamide, known in many circles as EBS, has become a backbone for countless industries over decades. The WAX 2006 variant brings its own personality to the table, making it stick out among a sea of alternatives. There’s a fair bit to unravel here, especially for anyone who’s ever wondered why one batch of polyolefin runs better, or why some coatings shed water and stay slick longer than others. From my own years tinkering in polymer plants and sweating in the lab, the details matter for anyone relying on consistent results—especially in plastics, coatings, inks, and even a few surprising places like rubber and electronics.
WAX 2006 shows off a fine balance in its visual and physical form. It arrives as a white or light ivory powder or sometimes little solid beads, and this isn’t just for looks. The manufacturing process grants it a fine, narrow particle size, which means it melts right where you expect, and it doesn’t clump or run away when blended. Schools of thought in the plastics world chase after clean dispersion; this model delivers. The slip and release come easy, with WAX 2006 helping stop parts from sticking to molds and each other.
The heart of this wax beats just above 140°C, sitting above the melting zone of many commodity plastics but well below the temperatures that might scorch or discolor it. Whether you’re pressing out a thousand PVC pipes or pressing powder in tablet production, having confidence that your lubricant won’t break down part-way through matters more than any glossy brochure claim. I’ve seen lines slow down, pile up scrap, or drive up energy bills just because an additive went runny at the wrong point—WAX 2006 sidesteps most of those headaches.
Its molecular structure isn’t just trivia for chemists. EBS wax, especially the 2006 type, owes its reputation for consistent lubrication and anti-blocking effects to careful control in synthesis. The ingredients draw from long-chain fatty amides, putting two stearic acid units around an ethylene bridge, giving excellent temperature stability and lasting performance. Wax with a too-low melting point can turn sticky or greasy, but here, the clean break between solid and liquid holds everything together.
From an environmental and workplace safety lens, there’s a lot of relief in knowing WAX 2006 dodges most of the red flags. No halogens, no heavy metals; you’re less likely to see issues with regulatory compliance or dusty workplace air. I remember the difference between batches of wax where one left filmy buildup on hands and tools and the other felt dry, practically invisible—WAX 2006 gets close to that latter sensation. Manufacturing teams can stick to safety gear but don’t need hazmat suits for routine handling.
Every industry using WAX 2006 seems to value something a little different. In plastics, the talk often turns to mold release and slip properties. Injection molders know the pain of stuck parts, wasted cycles, and constant cleaning; this wax, used at a fraction of a percent by weight, cuts down those delays. Polypropylene and ABS fabricators point out the predictable flow improvement, leading to less stress on the machinery and smoother surfaces right out of the tool.
Engineers walking plant floors with EBS WAX 2006 loaded in their compounders tend to note that pelletizing plastic resins gets simpler. Pellets fall free, resist clumping in bags, and stay easier to handle downstream. Printers, on the other hand, see its value in everything from toners to specialty inks. With its tight melting point and compatibility, wax 2006 can help bind pigments, spread color evenly, and help prints cure quickly without accidental smudges. In coatings, woodworkers and automotive painters appreciate how this little molecule can put enough distance between a glossy surface and dust or friction, stopping problems before they start.
Rubber industry users also give nods to EBS WAX 2006 for its role in anti-tack treatments and its ability to keep compounded material from gumming up. Compounds for tires, hoses, or seals each find their smooth edge from this wax. Manufacturers see real dollars in less downtime, smoother finishes, and fewer rejects—those savings build up year after year.
Some folks new to technical waxes often confuse EBS WAX 2006 with typical low-end paraffin, stearic acid, or polyethylene wax. The differences show themselves fast. Paraffin melts too low, leaves a greasy finish, and often breaks compatibility with high-temperature plastics or specialty rubbers. Polyethylene wax brings higher melting points but loses out in lubricity and flexibility. Stearic acid wets surfaces quickly but lacks the staying power and thermal stability needed in modern engineering polymers.
WAX 2006 stands out by balancing these traits. It stays dry, offers toughness in both rigid and flexible plastic systems, and doesn’t brown or give off strong odors during production runs. Its chemical backbone resists breaking down under repeated thermal cycling. Labs running side-by-side tests often see parts with WAX 2006 come out cleaner with less surface drag and less tendency to warp or pit. This wax also wins points for being easy to meter in automated feeders, because nothing gums the works like sticky, inconsistent additive blends.
One overlooked plus comes from its low volatility and low migration; the wax stays in place, doing its job from start to finish rather than ending up on the surface where it can interfere with printing, painting, or sealing. I’ve watched shifts in factories fussing over hard-to-print films, only to swap in WAX 2006 and see the issue disappear almost overnight.
Despite its strengths, workers and engineers sometimes run up against handling issues with fine powders, especially in humid climates. Clumping and static cling can spring up if the wax isn’t kept in sealed containers or if the storage room traps moisture. A simple fix: stick to small, aired bins and toss in a drying agent for longer storage. Pellet forms tend to bypass most of these hassles, so teams short on time or working with high-throughput blenders can save energy by going that route.
Some high-output lines need more than just lubrication or anti-block properties—they want chemical resistance, FDA-compliance, and freedom from any suspect components. Here, WAX 2006 shines by meeting the requirements for many contact and non-contact food packaging applications, depending on grade and process cleanlines. Still, it pays to call up recent compliance statements or test for extractables in food-related trials. The tech data from original supply houses and a thorough in-house test go a long way, since regulatory frameworks do shift frequently and can differ from country to country.
A handful of uses in hot-melt adhesives or specialty elastomers ask for better UV resistance or deeper color. Though WAX 2006 keeps a light shell, tinting can prove tricky if batch color control slips. Mixing in stabilizers or starting with top-quality pigment grade can solve most color drift. For users running bio-based blends or recycling lines, blending WAX 2006 with functionalized or recycled polyolefins can yield surprisingly robust results—again, as long as the right ratios and mixing speeds get dialed in. Most users find a little testing upfront saves a world of hurt down the road.
Modern manufacturing looks a lot harder at lifecycle impact than it did a decade ago, and EBS WAX 2006 comes up often in those conversations. Traditional waxes pulled from mineral oil or animal fat face increasing pressure from regulators and consumers alike, while ethylene bis stearamide typically sources from combined vegetable fat or synthetic platforms. This opens the door for renewable feedstocks, especially stearic acid from palm or soy, making the long-chain amide structure a solid performer in low-carbon planning.
Shops running greenhouse gas audits have started counting hidden costs—slip additives turning up in ocean microplastics, chemical leachates showing up in soil, and inhalable dust in workplaces. By shifting away from short-chain waxes and focusing on higher molecular weight, nearly insoluble additives like WAX 2006, those impacts drop. No wax or polymer is truly “green” if discarded carelessly, yet EBS types have shown better recovery and recycling compatibility than most alternatives. I’ve seen dedicated recovery lines that separate out EBS wax for reformulation, especially in Europe and East Asia.
Waste minimization isn’t just theory—factories relying on EBS WAX 2006 have sliced scrap rates by preventing products from sticking, tearing, or showing surface blemishes. That’s raw material saved on the spot, plus labor saved from rework, plus energy not wasted on off-spec surges. For companies pushing toward CO2 neutrality, every bit helps.
New brands hit the market every year, promising “zero migration” or “exceptional slip” with fancy modifier molecules. Some deliver, some flop, especially after extended runs or through supply chain disruptions. One enduring edge of WAX 2006 sits in its chemical simplicity and decades of field testing. There’s transparency: sourcing, manufacturing, quality. Labs and production teams already know what to test for and how to spot problems early, instead of discovering hidden issues under the pressure of a production deadline.
The new wave of oleamide, erucamide, or fatty acid ester lubricants each brings something unique—lower cost, sharper slip effects, or even rapid release. But these compounds tend to bloom to the surface or migrate out under heat, causing ghosting, unwanted shiny spots, or marking issues during cutting and folding. EBS WAX 2006 usually resists such problems better, sticking to its role in the polymer matrix and holding firm through cold and heat cycles. No one chemical can do it all, but for an additive meant to disappear quietly into a product while making everything work better, this wax holds its own.
Each production line tells its own story. Some work high-speed extruders; others hand-cast specialty sheets or form intricate electronic parts. Blending WAX 2006 happens in both big-volume and small-batch plants. In plastics compounding, processors often combine it with calcium stearate or specialized antioxidants, adjusting ratios for the right mix of lubricity and thermal protection. Those chasing smoother finish layers rely on WAX 2006 to reset the surface tension, letting pigments distribute more evenly and fibrous fillers disperse better through polyolefin or polyamide matrices.
Beyond pure plastics, compounders in the rubber sector use WAX 2006 side-by-side with curatives and stabilizers. It acts as a process aid, improving flow at lower processing temperatures while keeping tackiness down. Those in the hot-melt adhesives business find that WAX 2006 helps hold the line between stickiness and strength; its backbone doesn’t oil out and leaves glues more predictable through storage and shipping. All these combinations come down to experience and small-scale testing, often led by teams who remember trial and error from earlier generations of material blends.
Anyone who’s spent enough time with factory mixers knows the frustrations: dust clouds, stubborn clumps, or uneven flow messing up the production rhythm. I’ve seen operators gravitate toward products that don’t gum up hoppers, clog screens, or drift away on every air current. The ease of use for WAX 2006 probably stands out as strongly as its chemistry. Teams have told me they trust this wax batch after batch, not just for product specs but for how reliably it pours, blends, and cleans up. Some have nicknamed it “easy blend,” not because of a marketing slogan but because it solves pain points on production floors.
For new hires and seasoned hands alike, training with WAX 2006 gets less intimidating. A simplified handling process means less time dressing up in elaborate PPE or fighting with sticky tools at the end of every shift. The lower dust levels lighten the load for maintenance. Smoother downstream handling translates into faster job cycles, more time for preventive maintenance, and less overtime scrambling. These little wins build up morale on a floor, and my time alongside the crews tells me people remember the products that make daily life easier.
There’s also a ripple effect on customer complaints—when consistent additives like EBS 2006 land in a mix, the number of calls about scuffed surfaces, stuck parts, or dirty finishes drops off. Less time chasing down process errors or re-polishing products means more time shipping finished goods and keeping customers happy.
Smart factories and automated production lines are no longer the future—they’re part of today’s reality. Additives used in modern plants have to keep up. With more sensors tracking every run, out-of-spec product gets flagged instantly, and the cost of disruption rises. WAX 2006 stands out for working in this fast-moving scene. Its predictability and low maintenance requirements fit right into systems that don’t tolerate downtime.
Future innovations will probably sharpen the focus on bio-derived ingredients and closed-loop recycling, but the bar for reliability and transparency remains high. Any additive below that standard slows down progress. EBS WAX 2006’s long record builds trust that doesn’t come from a spec sheet; it grows from thousands of hours proving itself in plants, labs, and supply chains that stretch across the globe. Up-and-coming process chemists and plant managers pay attention to these stories because uptime and scrap rates affect real-world profits.
Looking back at years in materials engineering, what stands out is the importance of practical choices. Not all waxes behave the same, and not all production budgets can handle trial-and-error with unproven additives. EBS WAX 2006 keeps things familiar for veteran operators, even as it adapts to the tighter specs of modern runs. Customers trust it because it’s transparent—no hidden ingredients, no surprise breakdowns. As new sustainability goals emerge, this wax keeps pace, bringing both reliability and a lighter environmental touch.
Factories, big and small, win “small” every day just by picking such dependable helpers. I’ve seen enough plant floors, and the truth is, the right wax makes all the difference—less rework, better output, happier teams. In the end, EBS WAX 2006 might not grab headlines with fancy buzzwords, but it anchors processes from plastics to coatings, always showing up steady and strong.
