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HS Code |
768881 |
| Product Name | Low Melting Point Fischer-Tropsch Wax YT-60 |
| Appearance | White solid |
| Form | Granule or flake |
| Melting Point | 58-62°C |
| Oil Content | <0.5% |
| Penetration | <5 dmm (at 25°C, 100g, 5s) |
| Density | 0.89-0.92 g/cm³ (at 25°C) |
| Viscosity | 8-12 mPa·s (at 120°C) |
| Drop Melting Point | 60°C (typical) |
| Color | White |
| Odor | None or very slight |
| Main Component | Long-chain hydrocarbons (C18-C50) |
| Solubility | Insoluble in water |
| Ash Content | <0.03% |
| Acid Value | <0.02 mg KOH/g |
As an accredited Low Melting Point Fischer-Tropsch Wax YT-60 factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The Low Melting Point Fischer-Tropsch Wax YT-60 is packaged in 25 kg net weight polyethylene-lined kraft paper bags, securely sealed. |
| Shipping | Low Melting Point Fischer-Tropsch Wax YT-60 is securely packed in 25 kg bags or drums to prevent contamination and damage. It should be stored in a dry, cool, and well-ventilated area, away from direct sunlight and heat sources. Suitable for transport by road, rail, or sea as non-hazardous goods. |
| Storage | Low Melting Point Fischer-Tropsch Wax YT-60 should be stored in a cool, dry, and well-ventilated area away from direct sunlight and heat sources. Keep the container tightly closed to prevent contamination. Avoid exposure to strong oxidizing agents. Store at temperatures below its melting point to maintain solid form and ensure stability during handling and storage. |
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Purity 99%: Low Melting Point Fischer-Tropsch Wax YT-60 with 99% purity is used in hot melt adhesives, where it provides high bonding strength and excellent compatibility with polymer resins. Melting Point 60°C: Low Melting Point Fischer-Tropsch Wax YT-60 with a melting point of 60°C is used in coating applications, where it enables low-temperature processability and smooth surface finish. Viscosity Grade 6 cSt: Low Melting Point Fischer-Tropsch Wax YT-60 at 6 cSt viscosity grade is used in polish formulations, where it enhances gloss level and improves abrasion resistance. Molecular Weight 800: Low Melting Point Fischer-Tropsch Wax YT-60 with molecular weight 800 is used in rubber processing, where it acts as an effective processing aid for improved mold release. Particle Size ≤100 µm: Low Melting Point Fischer-Tropsch Wax YT-60 with particle size ≤100 µm is used in printing inks, where it ensures uniform dispersion and minimizes sedimentation. Stability Temperature 130°C: Low Melting Point Fischer-Tropsch Wax YT-60 with stability temperature of 130°C is used in textile finishing, where it imparts durable water repellency without thermal degradation. Oil Content ≤0.5%: Low Melting Point Fischer-Tropsch Wax YT-60 with oil content ≤0.5% is used in packaging materials, where it prevents blooming and maintains consistent appearance. Color (Saybolt +25): Low Melting Point Fischer-Tropsch Wax YT-60 with Saybolt color +25 is used in cosmetic formulations, where it delivers high color purity and ensures product aesthetics. Hardness 2.5 dmm: Low Melting Point Fischer-Tropsch Wax YT-60 with hardness of 2.5 dmm is used in candle manufacturing, where it provides controlled burning rate and reliable shape retention. |
Competitive Low Melting Point Fischer-Tropsch Wax YT-60 prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615365186327 or mail to sales3@ascent-chem.com.
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Low Melting Point Fischer-Tropsch Wax YT-60 is stepping up where many traditional waxes start to fall short. Wax users—from hot melt adhesive makers to industries needing a cleaner alternative to paraffin—have started to notice. In the past few years, demand keeps rising as people realize how the Fischer-Tropsch process delivers a different kind of material: cleaner, purer, less odor, and with a melt point that fits applications where other waxes struggle. This specific model, YT-60, shows its difference from the moment you touch it. Granular, flaky, typically white with a slight sheen, it doesn't just blend into a background of commodity waxes.
I’ve spent years walking factory floors, overseeing runs in candle plants, and advising on what wax blend makes sense for different end uses. The first thing you notice with YT-60 is that its melting point sits comfortably lower than many Fischer-Tropsch waxes. While high-melt varieties live in a different technical niche—good for high-temp or pressure-molding—a lower melting point lowers energy consumption. On a plant floor, anyone running a jacketed vessel or blending tank knows this means shorter warm-up times. Savings show up in the utility bill and in less downtime between batches.
You start to see what sets YT-60 apart the moment operators scale up blends for hot melts, or switch over from paraffin. With traditional petroleum waxes, odor often creeps in, spiking during processing, then lingering in the finished product. YT-60, built on Fischer-Tropsch’s gas-to-liquid process, arrives with little to no smell. There’s no comparison: the off-gassing and yellowing that sometimes pop up after a week in storage virtually disappear from the story. This translates well anywhere a clean profile matters—packaging adhesives, coatings, polish, and, increasingly, personal care. In my own conversations with buyers, especially those supplying cosmetics and food contact layers, this is non-negotiable.
YT-60 brings a high level of purity. The sulfur, aromatics, and other branched hydrocarbons that stick around in conventional waxes just aren’t there. This isn’t a trivial detail. I’ve seen FT waxes like YT-60 pass migration and safety checks faster because there’s less contamination risk. Compare this to a typical slack wax upstream in the supply chain, with its solvent and petroleum residues, and you see another reason why companies paying attention to regulatory compliance lean toward Fischer-Tropsch sources.
Practical experience matters in this world. From what I’ve seen, the wax you choose can redefine not just product performance, but whole segments of a business. In adhesives production, YT-60 flows smoothly, emulsifies more readily, and delivers that essential balance between hardness and flexibility. Lower melting means simple modifications for plant equipment and fewer surprises during seasonal shifts or warehouse storage. In coatings, the clarity comes through. Polishes gain a harder gloss without cloudiness or streak. Food packaging no longer has to battle the smell and residue risks some paraffin grades introduce.
One area where YT-60 finds traction is masterbatch plastics. Producers aiming for higher extrusion throughput with minimum process modification see benefits in the wax’s predictable melt profile. It mixes in evenly, performing its plasticizing and dispersing functions across a temperature range that doesn’t put stress on extruder screws or increase maintenance. In years of troubleshooting compounding lines, I’ve learned that switching to a consistently melting FT wax cuts not just process variability, but also wear and tear on equipment—sometimes lengthening the time between full clean-outs.
Another example comes in the textile and paper industries. Anyone familiar with wax emulsions for sizing or coatings knows temperature management is a constant battle. YT-60’s lower melting point lets plant operators run lines at slightly cooler temps, reduce fume emissions, and avoid discoloring the substrate. I’ve spoken with maintenance techs who appreciate its predictable behavior in jet dye machines and size presses—it doesn’t clog nozzles, doesn’t gum up rollers, and stays stable through cycles of heating and cooling. These seem like small gains, but factory output often lives or dies on the cumulative effect of details like this.
Sustainability gets talked about a lot, but real change comes from the base materials used. Fischer-Tropsch synthesis, at its core, converts natural gas into wax, sidestepping some of the dirtier impacts of conventional crude oil derivatives. YT-60, by its very nature, moves industry one step closer to lower emissions, particularly with options for carbon capture during gas-to-liquid conversion. Several end users have questioned me about source traceability—what goes into their downstream products matters more each year. A wax with reliable origin and cleaner profile meets inspection requirements faster and builds trust with retail chains under increasing consumer pressure.
Performance benefits don’t only happen inside the plant. Downstream, finished goods look different. Take candles made with YT-60. The melt pool forms evenly, reducing soot, burn issues, and fragrance lock-in. They store well even in fluctuating temperatures and resist yellowing, which means fewer customer complaints and less product thrown out for quality reasons. Those in industrial sealing or cable joint filling benefit from the wax’s resistance to cracking at low temperatures and minimal oil bleed over time. These qualities can be hard to achieve with old-school, petroleum-based waxes that often carry a mix of unpredictable contaminants.
Some sectors have clung to paraffin out of habit. There’s comfort in “tried and tested,” but as regulatory and consumer scrutiny bite deeper, the composition of seemingly simple ingredients starts to matter more. I see this when clients call in for troubleshooting: product recalls, failed migration tests, and batch-to-batch inconsistencies have dented reputations and cut into margins. YT-60 stands out by offering long-term predictability, in both technical properties and sourcing clarity.
Predictability in manufacturing sits high on every operations manager’s wish list. With the tight labor market, new equipment, and shifting supply chains, no one wants an input material introducing headaches. Fischer-Tropsch technology gives YT-60 its repeatable chain length distribution and a controllable melting range. I have walked enough production lines to know that small fluctuations in feedstock can throw off an entire day’s output—blocks will be too soft or too brittle, finishes will show swirls and fogginess, or adhesives lose tack at a critical point. Over several years, I’ve seen YT-60 emerge among those waxes that “just work,” blending in batch after batch with formulas locked in place.
Batch consistency translates to easier scale-up, fewer checks during receiving inspections, and lower reject rates. Finished goods reliably match product specifications, which reduces secondary sorting and rework. Many in the packaging and food contact sectors have shared stories of sticky situations: a traditional paraffin wax batch tests fine once, only for the next shipment to introduce a contaminant no one caught in time. Fischer-Tropsch, and specifically YT-60, delivers on tighter quality assurance. This is not just a technical win; it lessens the headaches faced by quality assurance teams and plant managers caught between the need for speed and the demand for certification.
Innovation in materials often rides on what a supplier can guarantee, batch after batch. YT-60’s unique melting point and purity bring new possibilities. In 3D printing filaments, for example, some researchers are testing FT-based waxes for cleaner burnout and smoother extrusion. Energy savings also catch the eye—every degree lower on the melting curve adds up across high-volume blending or coating lines. In the automotive sector, this wax finds a role as a base component for underbody coatings, protecting vulnerable metals without risky trace chemicals. I’ve heard from engineers who are drawn not only by the technical benefits but by a story of responsible sourcing they can take to their sustainability directors.
Pharmaceuticals and packaging professionals recognize that every component is up for customer review—right down to the “minor” additives like wax. YT-60, without color, scent, or impurity issues, often ends up on specifications for applications needing solvent holdouts, moisture barriers, or mechanical slip agents that won’t break down over time. Change used to come slow in these markets, but as formulations move forward, the emphasis on safety and clarity forces a move away from questionable legacy waxes. The switch isn’t always easy, but those that make it tend to stick, in my experience, once they see product returns drop and compliance audits streamline.
People often think wax is just wax, but a closer look at Fischer-Tropsch output tells a deeper story. YT-60 gets its structure from controlled carbon chain synthesis. By adjusting catalyst, pressure, and feedstock, the resulting wax’s melt point lines up with the needs of modern manufacturing. A lower melting point means reduced risk of thermal stress in finished items, and also enables blends with polyethylene, microcrystalline variants, or natural waxes without warping the end product. From a technical standpoint, this translates into formulations that are less likely to separate, solidify unevenly, or introduce unwanted surface effects.
Across laboratories and pilot runs I’ve supervised, the difference shows up quickly in solubility, plasticity, and resistance to environmental aging. YT-60 just doesn’t yellow out the way many paraffin or mixed-origin waxes do after UV exposure or months in warehouses with fluctuating temperatures. Its chemical backbone resists oxidation, which is no small consideration in goods that stay on shelf, in transit, or in use for months.
For adhesives, this means greater reliability in hot melt systems, since operators can depend on a wax fraction with reliable softening and flow onset. This impacts open time, set time, and clarity in the final adhesive seam. Industries that coat, laminate, impregnate or modify surfaces—think cables, boards, paper, or textiles—see their products resist “blooming” problems, remain supple at cold temperatures, and resist cracking through repeated flexing. If you ask production supervisors what they want in an input material, it comes down to less downtime and fewer adjustments batch to batch. YT-60 fits that request on a foundational, chemical level.
Whenever I’ve worked with end-users in the food, pharmaceutical, or personal care industries, the conversation turns quickly to purity and traceability. The legacy approach—blended, variable paraffin with uncertain origins—just can’t keep up with the kind of transparency that global supply chains require. Multiple regulatory bodies, from the FDA to the European Commission, now ask for supporting documents for each minor component. YT-60 offers a strong case here; each lot carries a pedigree of gas-to-liquid conversion with low contaminant counts.
Building a brand with a proven materials story makes defending product claims simpler. The technical staff doesn’t have to spend time investigating odd batches or fielding customer complaints about unexpected color, odor, or migration failures. Customer trust builds over time, and in my years on both the user and supplier side, those with a clean materials trail weather audits, certifications, and market shifts with fewer disruptions. YT-60 plays an outsized role here by offering a clear technical and documentary link back to source.
Global disruptions over the past few years exposed hidden risks in every industry. The wax market has seen its share of turbulence—shortages, inconsistent quality, and fluctuating costs. Producers using recycled or blend-grade paraffin sometimes pay more in the long run, scrapping failed batches or running rework cycles after out-of-spec shipments. YT-60’s Fischer-Tropsch origin tends to shield buyers from such volatility. The process doesn’t rely on the same upstream crude oil or refineries, so its pricing and supply availability don’t swing on the same axes as conventional waxes.
A steady supply means less scrambling for substitutes, fewer unexpected plant shutdowns, and lower procurement stress. People value a quiet supply chain. Procurement managers have mentioned to me that standardizing on a Fischer-Tropsch wax lets them negotiate better contracts, simplify documentation, and avoid the last-minute material audits that too often derail time-sensitive shipments.
Making change in sourcing sometimes meets resistance, but most operators and engineers I talk to respect clear value-add when it comes on technical and commercial levels. Low Melting Point Fischer-Tropsch Wax YT-60 doesn’t just fill a commodity spot on the chart; it brings measurable operational improvements, more predictable product outcomes, and a credible answer to customers looking for safety and sustainability.
Manufacturers who have switched to YT-60 often find that process improvements compound over time. Lower temperature means less energy draw, fewer emissions in the plant, shorter cycling times, and even better batch consistency. The material’s compatibility with pigments, polymers, and other additives simplifies blending, reducing downtime and minimizing operator intervention. For anyone responsible for meeting industry regulations or passing customer audits, the case writes itself: cleaner source, better compliance documents, and minimal downstream objections.
There’s no standing still in materials today—regulatory, consumer, and technical trends all move fast. Operators willing to test and adopt Fischer-Tropsch waxes like YT-60 have a head start on managing upcoming challenges in transparency, environmental stewardship, and supply chain management. Down-to-earth reliability may not grab headlines, but it keeps lines moving, products safer, and brands stronger, year after year.
Every material decision in industry leaves a trail—affecting waste, product quality, regulatory outcome, and operating costs. The ongoing shift from conventional paraffin to Fischer-Tropsch-based options isn’t just a lab curiosity. It reflects a broader industrial move to align sourcing, process, and sustainability without giving up performance. Low Melting Point Fischer-Tropsch Wax YT-60 proves itself in daily factory use, where reduced melting temperatures, high purity, and tight specifications offset the tradeoffs of older technologies.
If a consumer sees a brighter candle, a packaging line runs without hiccups, or a box arrives without an odd waxy smell, they rarely know the details. Behind the scenes, those responsible for picking materials—engineers, buyers, compliance leads—have created value by looking past the “standard” to something proven, adaptable, and resilient under tightening rules. As my time in industry has shown, YT-60 offers a roadmap not only for those searching for what works today, but also for navigating whatever comes next.
