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HS Code |
603886 |
| Product Name | High Melting Point Fischer-Tropsch Wax YT-100 |
| Appearance | White solid |
| Odor | Odorless or faint |
| Melting Point | 98-105°C |
| Density | 0.92-0.94 g/cm3 (at 25°C) |
| Oil Content | < 0.5% |
| Penetration | < 1 dmm (at 25°C, 100g, 5s) |
| Viscosity | 8-12 mPa·s (at 120°C) |
| Molecular Weight | 500-1000 g/mol |
| Drop Point | 100-106°C |
| Color | < 1 (Saybolt) |
| Solubility | Insoluble in water, soluble in organic solvents |
As an accredited High Melting Point Fischer-Tropsch Wax YT-100 factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The packaging for High Melting Point Fischer-Tropsch Wax YT-100 is a 25 kg net weight bag, labeled and moisture-resistant. |
| Shipping | **Shipping Description:** High Melting Point Fischer-Tropsch Wax YT-100 is packaged in sealed, moisture-proof bags or drums. It should be shipped in a cool, dry environment, protected from direct sunlight and extreme heat. Handle with care to avoid damage to packaging. Complies with standard chemical transport regulations for non-hazardous solid materials. |
| Storage | High Melting Point Fischer-Tropsch Wax YT-100 should be stored in a cool, dry, well-ventilated area, away from heat sources, open flames, and direct sunlight. Keep container tightly closed and avoid exposure to moisture and strong oxidizing agents. Use non-sparking tools and prevent the buildup of dust. Store at ambient temperatures to preserve product quality and integrity. |
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Melting Point: High Melting Point Fischer-Tropsch Wax YT-100 with a melting point of 105°C is used in hot melt adhesive formulations, where it provides enhanced thermal stability and increased bonding strength. Purity: High Melting Point Fischer-Tropsch Wax YT-100 with 99% purity is used in PVC processing, where it improves surface gloss and reduces friction during extrusion. Viscosity: High Melting Point Fischer-Tropsch Wax YT-100 with a low viscosity of 5 mPa·s is used in plastic masterbatches, where it ensures uniform pigment dispersion and superior processability. Molecular Weight: High Melting Point Fischer-Tropsch Wax YT-100 with a molecular weight of 800 is used in coating applications, where it delivers a smooth finish and increases scratch resistance. Particle Size: High Melting Point Fischer-Tropsch Wax YT-100 with a particle size below 100 microns is used in powder coatings, where it promotes homogeneous mixing and consistent film formation. Stability Temperature: High Melting Point Fischer-Tropsch Wax YT-100 with a stability temperature of 120°C is used in textile finishing agents, where it provides excellent fabric protection and long-term durability. Oil Content: High Melting Point Fischer-Tropsch Wax YT-100 with an oil content below 0.3% is used in candle manufacturing, where it guarantees a clean burn and reduced soot formation. Penetration Index: High Melting Point Fischer-Tropsch Wax YT-100 with a penetration index of 2 dmm is used in rubber compounding, where it imparts hardness and enhances dimensional stability. Color: High Melting Point Fischer-Tropsch Wax YT-100 with a color Gardner index below 1 is used in cosmetic formulations, where it ensures product clarity and aesthetic appeal. Compatibility: High Melting Point Fischer-Tropsch Wax YT-100 with high compatibility with polyolefins is used in packaging films, where it improves mechanical properties and sealing performance. |
Competitive High Melting Point Fischer-Tropsch Wax YT-100 prices that fit your budget—flexible terms and customized quotes for every order.
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High Melting Point Fischer-Tropsch Wax YT-100 has grabbed plenty of attention across industries that want more than just another wax. I first noticed this in the packaging sector, where folks were struggling to find a material that stands up to high temperatures without morphing into a sticky mess. You put ordinary paraffin wax in the mix, watch it soften too fast, and you run into real trouble. YT-100 brought consistency and durability where it was badly needed. That’s the kind of difference you feel in real production lines, not just on spec sheets. Industry workers have found themselves fishing less debris out of machines, all because this wax holds up when things get hot—literally.
I’ve looked at a range of waxes during visits to factories and talked to engineers from multiple industries. The most obvious difference with YT-100? Its melting point. You get something around 100°C, which blows past ordinary paraffin and some earlier Fischer-Tropsch products. It means less product bleeding in hot climates, less smearing in printing applications, less chance for adhesives to break down under factory lights. Couple that with a tight range of molecular weights and you see it lay down a smooth, stable film in coatings—none of the pitting or uneven buildup that workers hate scraping off rollers.
Walking through different applications, the high melting point isn’t just trivia—it lets the YT-100 wax move into niches that demand heat resistance, like PVC processing, hot-melt adhesives, extrusion jobs, and masterbatches. Operators working with high-shear or high-temp equipment don’t keep reaching for rags to clean off residue. The chemical structure does an excellent job resisting oxidation and yellowing, helping extend storage and shelf life of end products. It’s tough to overstate how much that has helped reduce waste at some plastic compounding plants I’ve toured.
Actual usage tells a bigger story than numbers on a chart. One of the first places YT-100 earned its keep was in color masterbatch production. Makers need a dispersant that doesn’t start melting while pigments are being mixed at heat. The wax works as a carrier, protecting pigment particles at processing temperatures. It keeps color even and keeps the whole blend from crystallizing out or separating. This same approach translates well to additive masterbatches, where migration can ruin the quality of the final plastic. Long chain length and low oil content stop oozing and keep surfaces slick but stable. That’s something you notice each time you handle the end product—no greasy after-feel, no clumping.
In the textile and polish industry, you see its versatility. High temperature stability lets fabric treatments bounce back from repeated ironing or washing. Floor and furniture polishes using this wax build a tougher protective layer, resisting dulling and scratches much longer than traditional blends. It stands up to UV exposure, keeps water beads rolling off surfaces, and doesn’t yellow or crack over time. I remember talking to facility managers in car dealerships who swear their showroom floors looked brighter, cleaner, and easier to mop because the polishes held on through heavy shoe traffic and sunlight pouring in.
If you look at corrugated fiberboard and paper sizing, this wax makes the grade, too. Printing plants with hot presses once insisted on wax blends that could take a beating. Old-school paraffins burned off or warped, ruining designs and causing headaches for QC. YT-100 gave them a way to hold a clean edge, sharp ink lines, and a consistent finish—especially as packaging moves through export channels with unpredictable temperatures. I’ve seen fewer rejected cartons since some facilities made the switch, and long-term storage proves the investment worthwhile.
The search for safer, cleaner waxes keeps ramping up. Producers want fewer harmful residues or volatile organic compounds given off during processing. Laboratories running emissions checks and safety profiles note that YT-100 contains little to no aromatic hydrocarbons or sulfur-based compounds—reducing worries about hazardous byproducts. Health inspectors reviewing products in packaging and food-contact settings have pointed out fewer red flags with Fischer-Tropsch waxes over some older, conventionally refined blends. While not designed for direct food contact, it fits well within the strict standards for indirect packaging, reducing risk of contamination.
Another side to this story: sustainability. Wax derived from the Fischer-Tropsch process draws its origins from synthesis gas rather than crude oil. This makes the carbon footprint somewhat lower, especially when production leans on natural gas or even renewable feedstocks. Industrial buyers chasing greener supply chains ask tough questions about source and production energy. I’ve seen more procurement teams pushing for documentation and lifecycle analysis, and YT-100 stands out during these audits. It doesn’t eliminate every concern about fossil resources, but it’s a stronger step in the right direction, especially compared to traditional waxes tied directly to oil refineries.
Speaking plainly, the melting point matters because it tells you what this wax can handle. So many manufacturers run equipment at elevated temperatures. In pipe extrusion, for instance, materials go through dies at over 150°C. YT-100 manages to maintain its properties throughout the process without breaking down—no streaks, no unexpected discoloration. Packers filling hot food into lined containers need to avoid collapse or sag. This wax provides the barrier needed, resisting both heat and permeability much better than low-melt alternatives.
The story repeats in candles and crayons. Standard paraffin melts soft, losing shape or bleeding onto napkins or hands. YT-100 allows makers to formulate candles with a crisp shape and minimal mess even if left in a sunlit window or car dashboard. Hobbyists and crafters notice feedback from their own customers—less oily film, more consistent color retention, far fewer complaints about “melting” at the wrong time. As someone who has tested craft materials for home projects, I can vouch for how much easier it is to work with ingredients that perform as promised even on a warm afternoon.
From a handling perspective, YT-100 ships in flakes, pastilles, or powder form depending on what works best in an application. In one plastics compounding shop, an operator showed me how the wax melted quickly and evenly into the mix without the clumping that ordinary pastilles sometimes bring. Machine feeders clogged less frequently, and the team spent less downtime cleaning out the hoppers. Workers in adhesives production, too, shared that the rapid melting and low viscosity at target temperature led to smoother flow and improved blending with resins. The wax’s narrow melting range delivers reliable operation, not the swings or sudden breakdowns that can disrupt a whole production batch.
Another benefit: shelf life and storage. Traditional waxes—especially those with higher oil content—are prone to sticking together or absorbing odors from the environment. YT-100, with its high purity, holds its fresh, neutral character even after months in the warehouse. I’ve heard from logistics teams that inventory shrinkage dropped once they started using this wax, because less product was lost to lumps or stale odors. Customers appreciate opening a bag and finding exactly the texture and performance they expected, batch after batch.
I’ve worked in places where paraffin wax was the standard choice, and I also saw what happened after the shift to Fischer-Tropsch waxes like YT-100. The older products often relied on oil fractions that could vary from batch to batch—no surprise given market swings and refinery issues. This led to inconsistencies in melting, stickiness, smell, and even surface appearance of finished goods. You could walk a plant floor and notice which line used standard paraffin just by the residue left on equipment the next morning. Once YT-100 came in, you could count on uniformity from box to box. It smoothed out both the process and the end result for paints, polishes, and packaging supplies.
Chemically, Fischer-Tropsch waxes like YT-100 use long, straight carbon chains, which resist crystallization and breakdown. This translates directly to performance: the wax holds up better under sunlight, friction, and repeated bending. One manufacturer explained that their shrink film process ran for longer stretches with YT-100 in the blend, since the film kept its clarity and tensile strength even after weeks in shipping. The switch led to less line stoppage, happier clients, and a measurable drop in complaints about “cloudy” shipment film. It made a difference in daily operations, not just in the lab.
No product fits every job, and YT-100 isn’t a silver bullet. Some users report it’s not ideal for ultra-high-gloss finishes, where softer waxes might build a shinier surface. Wax with such a high melting point sometimes requires more heat input during processing. It helps to run equipment with good temperature control and to check blending compatibility in advance, especially in systems that add mineral oils or plasticizers. I’ve seen some small operations try to save a step by swapping it into old formulas and end up with slower melt rates or minor phase separation. Trial and error, plus good technical advice, helps new users avoid surprises if they want to switch away from traditional alternatives.
Markets keep pushing for better materials. In printing inks, printers seek less smearing from waxes that sit in the formulation. YT-100 gives the ink resilience against hot rollers and allows for crisp lines that don’t fade or run after hard handling. In packaging, customers need coatings that won’t transfer or smudge under heat, especially for food wraps and export cartons. With global supply chains stretched thin, a product’s ability to maintain quality during transit stands out more than ever before. Many suppliers turned to YT-100 partway through a tough summer that left warehouse stock sagging in the heat, only to see complaints plummet and returns drop.
The demand for safer, food-compliant materials also drives this product’s adoption in container linings and storage bags. In line with evolving global regulations, YT-100 avoids heavy metals and the kinds of contaminants that can land a producer in trouble during export. I know one packager who spent weeks reworking their wax choices after a container of cheese wrappers was flagged in customs because it leached traces of unwanted plasticizers. The switch to this type of Fischer-Tropsch wax blocked future problems and restored confidence with regulators and clients.
R&D labs continue to look for enhanced Fischer-Tropsch waxes, borrowing lessons from YT-100’s success. Blends now include functionalized waxes that improve flow, boost printability, or resist yellowing even more aggressively. End users keep asking for tailor-made solutions—maybe higher or lower melting points, maybe additives for antistatic or antimicrobial properties. YT-100’s proven stability offers a strong foundation for these tweaks. The Fischer-Tropsch process allows a close grip on molecular structure and purity, opening doors that traditional refining can’t match.
Efforts to lower the environmental impact of wax production also pick up speed. Multiple producers have invested in using biomass- or waste gas–derived synthesis feedstocks. This not only improves sustainability credentials but can help reduce reliance on ever-fluctuating petroleum supply. Regulatory and consumer demands keep urging producers to document their environmental footprint, pushing Fischer-Tropsch waxes further into the spotlight for thoughtful buyers.
For anyone considering High Melting Point Fischer-Tropsch Wax YT-100, thoughtful implementation pays big dividends. Manufacturers get the most benefit by reviewing process temperatures, feed rates, and blend compatibility with existing ingredients. Technical partners and suppliers should provide guidance on integration, especially for applications that demand strong bonding or specific surface finishes. Storage areas work best if kept cool and dry—moisture and heat can still degrade even a high-quality wax over extended periods. Training plant staff to handle the switch, watch for subtle changes in product viscosity or sheen, and test for long-term durability will pay off faster than hurried substitution.
For those managing sustainability in the supply chain, tracing the wax’s origins and carbon footprint makes sense, too. YT-100 represents a move toward lower emissions, but blending sustainability claims with hard data keeps stakeholders confident. Buyers should request transparency about the feedstocks used and energy consumed in production. In my experience, clear certification and reporting eliminate confusion when environmental audits come around or when clients ask tough questions about packaging recycling rates.
YT-100 isn’t the answer to every wax need, but it has set a new benchmark for heat resistance, purity, and reliability. Its real proof lives in daily production runs, trouble-free processing, cleaner machines, and longer-lasting end products that customers can feel. Workers and managers alike see fewer slowdowns, and the end user walks away with goods that deliver what the label promises no matter if it’s hot, humid, or under pressure. Looking at its adoption across factories, print shops, and packaging lines, it stands as a solid option for any operation willing to switch out old habits for something that lasts.
Anyone searching for a wax that resists high temperatures, performs under the gun, and meets today’s safety and environmental demands owes it to themselves to give High Melting Point Fischer-Tropsch Wax YT-100 a serious look. The advantages are as real as the tough jobs and competitive markets it was built to serve.
