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HS Code |
217159 |
| Product Name | Oxidized Fischer-Tropsch Wax OFT110 |
| Form | Solid |
| Color | White |
| Acid Value Mgkohg | 10-20 |
| Melting Point Celsius | 105-115 |
| Density Gcm3 | 0.95-0.97 |
| Penetration 25c 0 1mm | <2 |
| Viscosity Cp 140c | 8-12 |
| Dropping Point Celsius | 110-120 |
| Saponification Value Mgkohg | 15-30 |
| Solubility In Water | Insoluble |
| Flash Point Celsius | >230 |
As an accredited Oxidized Fischer-Tropsch Wax OFT110 factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Oxidized Fischer-Tropsch Wax OFT110 is packaged in 25 kg net weight polyethylene bags, featuring secure, moisture-resistant, sealed packaging. |
| Shipping | Oxidized Fischer-Tropsch Wax OFT110 is shipped in sealed, clearly labeled containers, such as drums or bags, to prevent contamination and moisture absorption. The product is transported under ambient conditions, away from direct sunlight and sources of ignition. Relevant safety and handling documentation accompanies each shipment, ensuring compliance with transport regulations. |
| Storage | Oxidized Fischer-Tropsch Wax OFT110 should be stored in a cool, dry, and well-ventilated area, away from direct sunlight, heat sources, and incompatible materials such as strong oxidizers. Containers should be tightly closed to prevent moisture uptake and contamination. Use only storage containers made of materials compatible with waxes. Ensure proper labeling and keep away from open flames and ignition sources. |
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Melting Point: Oxidized Fischer-Tropsch Wax OFT110 with a melting point of 110°C is used in hot-melt adhesive formulations, where it ensures fast set times and heat resistance. Acid Value: Oxidized Fischer-Tropsch Wax OFT110 characterized by an acid value of 15 mg KOH/g is used in water-based emulsions, where it promotes superior dispersion and compatibility. Molecular Weight: Oxidized Fischer-Tropsch Wax OFT110 with a molecular weight of 800 g/mol is used in plastic processing, where it enhances surface gloss and process stability. Purity: Oxidized Fischer-Tropsch Wax OFT110 with a purity of 98% is used in coatings, where it delivers consistent film formation and reduced surface defects. Particle Size: Oxidized Fischer-Tropsch Wax OFT110 with a particle size of <50 μm is used in printing inks, where it improves rub resistance and print clarity. Saponification Value: Oxidized Fischer-Tropsch Wax OFT110 with a saponification value of 40 mg KOH/g is used in textile finishing, where it boosts fabric softness and hydrophobicity. Viscosity: Oxidized Fischer-Tropsch Wax OFT110 with low viscosity is used in PVC lubricant systems, where it provides excellent flowability and minimizes processing torque. Thermal Stability: Oxidized Fischer-Tropsch Wax OFT110 with high thermal stability is used in high-temperature molding applications, where it prevents product degradation and ensures dimensional fidelity. Compatibilizer: Oxidized Fischer-Tropsch Wax OFT110 as a compatibilizer is used in polymer blends, where it improves blend homogeneity and mechanical properties. Oxidation Level: Oxidized Fischer-Tropsch Wax OFT110 with controlled oxidation level is used in polish formulations, where it enhances gloss and wear resistance. |
Competitive Oxidized Fischer-Tropsch Wax OFT110 prices that fit your budget—flexible terms and customized quotes for every order.
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Relying on reliable raw materials shapes every industry’s ability to keep promises to their customers. Oxidized Fischer-Tropsch Wax OFT110 sits among those products that don’t just tick off boxes on a laboratory sheet but bring lasting value into practice. Developed through a synthetic route modeled on the renowned Fischer-Tropsch process, OFT110 wax doesn’t inherit the same impurities or irregularities you often find in natural wax options. You get a product that aligns well with modern demand for purity, performance, and environmental accountability.
Product quality can make or break production schedules. Looking at OFT110, people working in the industry often mention how repeatable results turn into savings—less fuss, fewer callbacks, and customer trust that stays earned over time. Other common waxes, especially those pulled straight out of the ground, can swing widely in color, odor, and melting point. This synthetic approach, by contrast, gives a kind of predictable structure that’s hard to match: the carbon chain lengths end up more uniform, the acid values are consistent, and there is less “batch lottery” effect where you wonder if you’ll face extra filtering steps or troublesome viscosity swings from one order to the next.
OFT110 stands out most in the way its melting point, acid value, and viscosity land right in the zone that keeps machinery happy. With a melting range near 110°C, it suits plastic compounding, textile finishing, rubber processing, and even those niche blends used in hot-melt adhesives. People in plastics especially tend to run into headaches when the waxes they use throw off unexpected fumes or outgas residues that interfere with the clarity or strength of finished goods. One of the things I’ve heard from compounding line operators is the relief that comes from components that behave as advertised—nobody wants to gamble with a production run worth tens of thousands based on hope alone.
Environmental aspects no longer sit on the sidelines when industries make purchasing decisions or refine formulations. OFT110’s synthetic origins mean there’s zero dependency on unstable supply from crude oil refineries. By oxidizing the Fischer-Tropsch wax, manufacturers introduce carboxyl and hydroxyl groups to the structure, which lead directly to improved compatibility with resins, pigments, and fillers. This translates to lower mixing times and energy costs on large production lines. Compared to paraffin and microcrystalline waxes, which can introduce unpredictable fractions or contaminants, OFT110 enables formulators to meet new standards around recycling and emission reduction without constant tweaking.
Whether you’re working with coatings, inks, or road marking materials, the choice of wax plays out not just in lab results but on production floors and city streets. Traditional mineral waxes sometimes soft out too fast, fade in UV light, or let pigment sediment out. OFT110’s structure shows a slower migration rate, so color consistency and surface stability hold up longer. In the printing industry, for instance, maintaining a steady slip and gloss improves print quality without constant roller cleaning. I’ve also seen less clogging of machinery during repeated runs, reducing downtime—a hidden cost that creeps up if you’re not careful about your raw material specs.
Oxidation isn’t just a buzzword for marketing shiny new waxes; it delivers useful improvements. The introduction of polar groups along the hydrocarbon backbone produces better adhesion to other materials, such as polymers and natural fibers. In textile finishing, that translates to improved softness without the greasy hand common with unmodified waxes. In PVC and engineering plastics, this improved interaction brings easier pigment dispersion and more predictable stabilization effects, especially where high-temperature processing threatens to break down lesser waxes.
Not all improvements show up in chemical analyses—sometimes it’s about worker comfort, cleanliness, and reduced exposure to emissions or skin irritants. OFT110 gives off fewer volatile organic compounds during manufacturing, and its dusting tendency is suppressed due to the wax’s higher molecular weight. I recall visits to compounding sites where operators complained of paraffin wax dust settling in every corner of the warehouse, making air quality and surface cleaning an endless battle. With OFT110, the work environment comes out cleaner, and there’s less risk of nuisance odors crowding out safe operation.
In the world of polymer compounding, every little shift in component structure shakes up properties down the line. OFT110 offers formulation flexibility that isn’t possible with old-school alternatives. It brings a defined acid value and saponification support, so blend partners such as EVA, PE, or PVC lock in more reliably. For wood-plastic composites, wax selection affects not only extrusion smoothness but also long-term water resistance—OFT110 holds its own here, thanks to the combination of polarity and chain length. The wax helps composite boards resist swelling and warping outside, where alternating rain and sun would otherwise break them down.
Engineers and purchasing managers alike know that a bargain on paper can turn expensive if wax triggers unexpected side reactions or fouls up equipment. Oxidized Fischer-Tropsch Wax OFT110’s purity means less waste, cleaner filters, and smoother maintenance turnarounds. The controlled composition means it absorbs pigments and stabilizers more thoroughly, which cuts down on the need for costly additives. I’ve seen cost breakdowns where a switch to OFT110 didn’t just reduce the direct price per ton but also freed up labor hours, skipped unnecessary quality checks, and reduced scrap. Just as important, adhering to consistent supply specs trims the risk of shutdowns caused by off-grade raw material.
Questions from clients about new emissions standards or regulatory changes never stop coming. Synthetic waxes like OFT110 provide answers through consistency. Unlike some mineral waxes and by-product blends that can dribble in trace sulfur or heavy metals, FT-based oxidized waxes stay tightly within ROHS, REACH, and food contact thresholds—as required for markets in Europe, North America, and increasingly, Asia-Pacific. That regulatory headroom lets manufacturers shift formulas without last-minute scrambles to clear new compliance hurdles. Whether requirements arise from cleaner air targets or pushing for more recycled content, predictable raw materials like OFT110 help keep business nimble and responsible.
Modern wax buyers focus as much on environmental stewardship as on technical results. The Fischer-Tropsch process stands apart by using gas-to-liquids synthesis, which bypasses the complex tangle of refining and distillation common in legacy waxes. Producers can even run FT plants on natural gas, renewable feedstock, or biomass-sourced syngas if available, cutting lifecycle carbon. From my own experience helping a plastics manufacturer audit their emissions profile, it becomes clear that “little” changes—like swapping in renewable FT-based waxes—add up over time when multiplied across high-volume manufacturing. Consistently lower sulfur and aromatic content also help reduce noxious stack emissions.
Global supply chains have taken a beating in recent years. Reliance on petroleum-derived waxes often comes with swings in pricing, regional shortages, or surprise shifts in impurity levels. Supply for FT-based oxidized waxes like OFT110 tends to track a steadier line because gas synthesis plants operate under more controlled conditions, less exposed to oil field volatility. During the last round of crude oil price instability, several finished goods plants I follow were able to keep schedule thanks to steady access to synthetic wax inventory. In the bigger picture, that kind of supply reliability guards jobs, profits, and reputation.
Before a manufacturer switches inputs, real-world testing bridges the gap between vendor promises and practical results. Companies who test OFT110 compared to traditional waxes find easier wetting with pigments, faster melt-in during extrusion, and less yellowing over long-term weathering. Direct field results—whether smoother road marking or longer-lasting coated paper—often convince skeptics faster than any spec sheet. Even if labs can report crystalline structure or acid values all day long, plant engineers want results that reduce hassles right on the factory floor.
Batch-to-batch variation is the silent thief of customer satisfaction. Brands using synthetic oxidized waxes like OFT110 gain credibility when their products look, feel, and last the way end-users expect. Paints stay smoother, inks deliver richer prints, and finished plastics come out stronger and more stable. In markets where competitors cut corners, holding to a reliable-quality wax helps keep bottom-line results—repeat business rises and complaints drop. As an engineer, I’ve talked to teams who spent months chasing minor tweaks, only to find an unstable wax source had crept into the bill of materials. Switching to a higher-purity synthetic brought instant stability back.
Product makers aiming for closed-loop systems need materials that won’t interfere with recycling or generate uncontrolled breakdown products. OFT110, because of its predictable oxidation and low contaminant profile, plays nicely in systems designed to re-melt, re-shape, or reclaim polymers. This trait boosts brand appeals among procurement teams who care not just about up-front costs but about building a circular value chain. The regulated acid and hydroxyl group content also lets adhesive and coating producers skip problematic solvents, which, in turn, lightens both disposal costs and compliance paperwork.
Frontline workers feel the difference that premium waxes offer across a shift. OFT110’s controlled batch specs reduce deposits in dies and extruders, so operators handle fewer shutdowns for cleaning. Its melting range lands mostly above typical ambient temperatures, leading to easier handling and safer storage, even in hot summer months when paraffin or soft waxes can ooze and create slip hazards. In real facilities, those details matter: skipping cleanups, lowering fire risk, and giving teams more time turning raw material into saleable product. By choosing a wax that won’t float dust into the air or drip onto floors, risk managers meet both productivity and safety goals in one move.
Companies today juggle more than quarterly numbers—they answer to shareholders, regulators, and social pressures for cleaner, smarter choices. Synthetic, oxidized waxes, including OFT110, carve out an advantage for businesses balancing operational efficiency against rising environmental expectations. Cleaner production translates directly to lower filtration costs, less machinery wear and tear, and happier regulatory inspectors. In the plastics sector, where public scrutiny runs high, using a wax that generates less odor, smoke, and outgassing stands as a defensible choice both for brand image and worker well-being.
As materials science pushes forward, more applications call for compatibility with biopolymers, renewable chemicals, and hybrid materials. OFT110’s synthetic purity and consistent performance slot right into these demands—no awkward chemical mismatches, no sudden surprises under thermal or UV stress. Industry innovators now look to combine OFT110 with starch-based polymers, natural fibers, and recycled streams, crafting new solutions where the performance of legacy waxes simply falls short. The growth of electric vehicles, outdoor building supplies, and medical polymers all open new doors for waxes designed with environmental and safety benchmarks in mind.
Every product has room for refinement, and it helps to listen to those closest to the process. End-users and technicians often point out areas where even synthetic oxidized waxes could improve—rheology modifiers for thicker melts, custom acid values for specific adhesive systems, or tailored volatility for higher-temperature lines. Collaborative feedback from across industry sectors ensures that OFT110 production matches not just chemical targets, but also the practical real-world needs found in plastics, coatings, paper, and textiles. Direct partnerships with customers can enable even tighter specs, reduce special filtration requirements, and deliver lots in ready-to-use forms tailored for particular automated feed systems.
Better educational outreach also helps inform buying decisions. Production teams working with OFT110 benefit from clear information on optimal storage, dosing methods, and compatibility with other raw materials. Vendors and technical support teams have a responsibility to provide not just the standard data but also lessons from the field—sharing real-world troubleshooting stories or best practices for blending, extrusion, and cleaning. Knowledge transfer lifts performance and reduces the chance of avoidable missteps on the plant floor.
The market for raw materials will never stand still. As standards climb and new technologies shift demand, trusted products that combine quality, reliability, and thoughtful sourcing gain prominence. OFT110 represents a step forward for those open to innovation, determined to cut waste and keep ahead of shifting market pressures. With consistent support, continued technical improvement, and responsible marketing, this type of oxidized synthetic wax helps lay the groundwork for better performing, cleaner, and more sustainable end-products. That’s a goal worth pushing for—both for today’s factories and for future generations relying on better materials for a cleaner world.
