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HS Code |
900583 |
| Appearance | Clear, colorless to pale yellow liquid |
| Odor | Aromatic |
| Boiling Point | ≥200°C |
| Flash Point | ≥90°C |
| Density | 0.95–1.05 g/cm³ (at 20°C) |
| Solubility In Water | Insoluble |
| Vapor Pressure | <1 mmHg (at 20°C) |
| Viscosity | 2–5 cSt (at 25°C) |
| Autoignition Temperature | >450°C |
| Molecular Weight | Varies (typically 150–250 g/mol) |
| Refractive Index | 1.50–1.54 (at 20°C) |
| Chemical Family | Aromatic hydrocarbons |
| Evaporation Rate | Slower than n-butyl acetate |
| Color | Colorless to pale yellow |
| Storage Temperature | Ambient, away from direct sunlight and ignition sources |
As an accredited High Boiling Aromatic Solvent factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The chemical "High Boiling Aromatic Solvent" is packaged in a 200-liter blue steel drum with secure sealing and safety labeling. |
| Shipping | High Boiling Aromatic Solvent is shipped in properly sealed steel drums or intermediate bulk containers (IBCs) designed for chemical transport. Ensure containers are clearly labeled and stored upright in a well-ventilated area. Shipping follows regulations for flammable liquids; protect from heat, sparks, and direct sunlight during transit. Use appropriate hazard documentation. |
| Storage | High Boiling Aromatic Solvent should be stored in tightly sealed, clearly labeled containers made of compatible materials, away from heat sources, sparks, and direct sunlight. Store in a cool, dry, well-ventilated area, separate from oxidizing agents and acids. Ensure containment areas have appropriate spill control and fire suppression equipment. Always follow the manufacturer's instructions and local safety regulations. |
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Purity 99%: High Boiling Aromatic Solvent with 99% purity is used in industrial coatings formulations, where it improves final film gloss and durability. Viscosity Grade 12 cSt: High Boiling Aromatic Solvent with viscosity grade 12 cSt is used in alkyd resin processing, where it enhances flow properties and process uniformity. Boiling Point 260°C: High Boiling Aromatic Solvent with a boiling point of 260°C is used in heat-resistant paint systems, where it ensures prolonged evaporation rates and film formation. Low Sulfur Content 0.01%: High Boiling Aromatic Solvent with 0.01% sulfur content is used in fine chemical synthesis, where it minimizes contamination and catalyst interference. Aromatic Content 95%: High Boiling Aromatic Solvent with 95% aromatic content is used in adhesive manufacture, where it increases solvency power and improves tack strength. Flash Point 120°C: High Boiling Aromatic Solvent with a flash point of 120°C is used in ink formulation, where it enhances safety during high-speed printing processes. Molecular Weight 170 g/mol: High Boiling Aromatic Solvent with molecular weight 170 g/mol is used in synthetic lubricant production, where it promotes optimal miscibility and thermal stability. Stability Temperature 200°C: High Boiling Aromatic Solvent with stability temperature at 200°C is used in plasticizer blending, where it maintains chemical integrity under thermal processing. Water Content ≤0.05%: High Boiling Aromatic Solvent with water content ≤0.05% is used in sealant formulations, where it prevents phase separation and curing issues. Residue on Evaporation ≤0.1%: High Boiling Aromatic Solvent with residue on evaporation ≤0.1% is used in cleaning solutions for electronics, where it leaves minimal residue and ensures circuit reliability. |
Competitive High Boiling Aromatic Solvent prices that fit your budget—flexible terms and customized quotes for every order.
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Few products demand as much attention in the coatings, adhesives, and specialty chemical markets as High Boiling Aromatic Solvent. While most solvents perform admirably under moderate temperatures, the jobs that involve resilience under heat or compatibility with complex formulations need something better. High Boiling Aromatic Solvents step in, built for higher thresholds and better solvency when many other options give up. This product’s robustness owes much to its unique formula, distinguished by its higher distillation range and stable aromatic backbone.
From years spent solving real production bottlenecks in adhesives and paints, I've learned the wrong solvent slows the whole line. Paint layers bubble, adhesives fail, or emissions cross safety boundaries, costing more than time—sometimes, they risk whole batches. When I came across High Boiling Aromatic Solvent, its performance in tough conditions stood out. Solubility and evaporation balance matter. Aromatic solvents in this category, especially the models designed to range beyond 220°C boiling points, show up when the recipe calls for strong solvency but stable evaporation rates. The model commonly used—let's call it HBA-245 for clarity—finds its home right between light aromatics and heavier aliphatic spirits.
Unlike typical lower-boiling solutions, this class keeps pace even in resin manufacturing, ink production, and during extended drying cycles in automotive coatings. With an aromatic content above 98%, a boiling range from around 220°C to 290°C, and an adaptability that works with both polar and nonpolar material, versatility has a new benchmark.
Industrial chemists and process engineers know: product development doesn't wait for safe ambient air, nor do line engineers pause for a harmless work environment. They have to hit efficiency targets and regulatory marks at once. Not all solvents hold up in the face of new environmental guidelines. Demand for low VOC and lower odor solutions has only grown, especially across China, Europe, and North America.
The importance here runs deeper than just following trends. High Boiling Aromatic Solvent stays within tougher VOC limits due to its higher boiling range, leading to less evaporation at room temperature. In places with restrictions on aromatic hydrocarbon emissions, shifting to longer-chained, high-boiling solvents helps meet legal requirements—without gutting solvency performance. With new regulations pushing for lower workplace exposure, this product keeps operator safety high on the list while ensuring performance standards remain intact.
Most coatings lines need reliability from start to finish. When I worked with a manufacturer troubleshooting issues in polyester resin curing, we chased every variable: resin blend, pigment, oven temperature. The sticking point often came back to solvent loss and film formation. High Boiling Aromatic Solvent entered the picture. Its slower evaporation meant better pigment wetting, smoother finishes, and, most importantly, fewer costly reworks. The supplier couldn’t have been happier. They saw double-digit gains in final yield, not from fancy automation, but simply from switching out a weak link.
Printing ink makers see a different story, but the same lesson. Lightweight solvents flash off too quickly, ruining print registration and causing poor flow on high-speed presses. Here, a high boiling aromatic helps lay ink evenly, reducing wasted runs and cleanup downtime. For adhesives in shoe manufacturing, the sluggish dry-time of lesser solvents means product stickiness, so switching to this class tightens lamination quality and lowers the risk of de-bonding, especially in humid factory settings. Not every process needs the highest boiling range, but for those struggling with long batch times or environments prone to temperature swings, the extra margin this product gives spells the difference between success and scrapped work.
To call it just a solvent misses the point. This product draws a line: high performance meets regulatory savvy. Compared to regular aromatics like toluene or xylene, High Boiling Aromatic Solvent comes with a much higher flash point—often above 70°C—reducing fire risks and ventilation overhead. That improvement isn’t just an abstract factory metric, but translates into real safety for those on the ground.
Logistics managers benefit too. Storage requirements relax as classification rules shift with higher boiling, sparing the need for expensive explosion-proof rooms or constant air monitoring. If you’ve ever visited a plant tight on space and crammed with fireproof cabinets, you know just how welcome that flexibility becomes.
With a density close to 0.99 g/cm³ at room temperature and an aniline point higher than regular aromatics, the solvent fits well into demanding formulations. Water solubility is nearly zero, making it a staple for water-sensitive processes without unintended cross-reactions. Low sulfur and negligible nitrogen content prevent unwanted residue and corrosion, keeping reaction and storage vessels cleaner while extending maintenance intervals.
Turning to performance, the high aromatic content ensures compatibility with major binder systems—alkyds, acrylics, epoxies, and even some silicones. Paint chemists I’ve talked with point out its solvency for resins outperforms both isoparaffins and regular aliphatic combinations, particularly in high solids or high-performance architectural finishes.
On site, operators use this solvent much as they would any familiar aromatic, but with a few best practices for top results. Keeping tight control on blending ratios matters, especially for solvent-based paints and lacquers aiming for high-gloss or anti-corrosion properties. The solvent’s broader solubility profile means less undissolved resin settling, leading to smoother mixes and simpler quality checks. In certain adhesives, especially where quick tack isn’t needed, formulators appreciate the solvent’s ability to provide longer open times, making complex assembly stages possible without a rush.
Cleaning cycles go smoother as well. Tanks flush out fully with High Boiling Aromatic Solvent, leaving fewer sticky residues, which avoids downtime between batch runs or color changes. For companies looking to boost output without massive capital upgrades, swapping in this solvent streamlines workflows almost overnight.
Industry old-timers still rely on mineral spirits, basic aromatics, or even chlorinated solvents where regulations allow. But the difference in performance gets obvious with demanding runs. Mineral spirits lack the heavy-duty solvency needed for some resins; chlorinated products carry health baggage, not to mention strict disposal standards. Lower boiling aromatics evaporate too fast, spiking worker exposure and shrinking production windows.
High Boiling Aromatic Solvent lands in a sweet spot: stronger than standard mineral spirits, safer and more stable than many medium aromatics, and without the downsides of halogenated compounds. Its odor profile is less intense, making factory settings more pleasant for all involved. Waste handling improves, with less hazardous air pollutants generated even under heavy use.
Modern production of High Boiling Aromatic Solvent relies on controlled distillation and hydrocracking, starting from high-quality feedstock. Here’s where purity shines. With aromatics content reaching nearly 99% and controlled levels of trace metals, producers can guarantee each batch lines up with specifications crucial for high-tech or pharmaceutical applications. Fractional distillation allows for tight control over the boiling curve, letting product lines be tailored to paints, adhesives, or cleaners.
The closed-loop nature of most production sites limits contaminants and enables recycling within the manufacturing process. That’s more than a buzzword; less waste means lower costs and less environmental impact per ton shipped, aligning the product with corporate sustainability targets.
The days of working in a cloud of fumes are fading, at least in firms willing to invest in better chemicals. High Boiling Aromatic Solvent pushes the boundaries not only in process efficiency but also in environmental safety. With a high flash point and slow evaporation, air quality in plants improves, lessening the strain on air handling systems while lowering long-term exposure risks for workers.
It pays off in compliance audits, where lower VOC emissions and improved indoor air scores regularly keep companies in the clear. Outside the plant, waste streams pose fewer challenges, since the stable structure of the solvent resists breakdown into hazardous byproducts even under high-heat waste treatment—a key factor for municipalities watching landfill and incineration emissions.
Direct voices matter more than brochures. Industrial painters in heavy equipment manufacturing report smoother application and fewer touch-ups, not to mention less brush drag and sputtering. Adhesive formulators in shoe and furniture plants praise the cleaner lines and longer work times, especially important for batch jobs with high value materials. Manufacturers in the composite resin field reduce defect rates, which keeps clients coming back.
Any switch in chemicals draws hesitancy. Plant engineers raise questions about price, storage space, and safety retraining. Expense can run higher up-front versus commodity solvents, but the long-term wins—less scrap, fewer accidents, more consistent batches—tip the balance quickly. With training, the steeper curve flattens out; most team members adapt with some hands-on time and a clear rundown on safety procedures.
Deliveries and logistics look almost unchanged, especially compared to the frequent hazardous shipments typical of lower boiling aromatics. Fewer shipments get flagged for special handling, so warehouses can run on leaner labor. Environmental teams see benefits too: tank drainage frequency drops, hazardous air pollutant measurements trend downward, and fire inspectors report reduced risk profiles plant-wide.
Growing industry demands mean suppliers have to keep pace, not just on product but in support too. Producers able to offer consistent supply—even during market volatility—keep customers loyal. Bulk packaging, just-in-time shipping, and lot-number tracking strengthen the entire delivery chain. R&D teams work to further lower odor levels and push solubility for newer, trickier polymers.
In smaller manufacturing environments, cost-sharing or pooled storage options can spread out the extra cost, making the upgrade accessible to more firms, not just major players. Technical support teams, whether remote or on-site, have stepped up, helping companies optimize blend ratios, adjust batch sizes, and troubleshoot rare formulation headaches. Industry groups also set new training standards so no shop floor worker is left confused by the latest shift in solvent selection.
Clients ask about sustainability just as often as cost, in my experience. Green chemistry is more than a buzzword; consumer goods brands can’t afford negative press from slipping standards. High Boiling Aromatic Solvent, made with cleaner processes, aligns with the push to reduce workplace harm, trim down carbon footprints, and lower long-term health risks. Future versions might get tailored for even lower emissions, keeping pace with updated laws and company climate pledges.
Research into bio-based aromatics has begun, aiming to one day offer the same performance with less impact upstream. Manufacturers and formulators who stay tuned to these changes keep a competitive edge, adapting both products and workplaces to meet coming demand.
High Boiling Aromatic Solvent isn’t just another chemical on a shelf. It stands at the intersection of tougher regulations, rising process demands, and shifting market values. The benefits aren’t just in technical charts but in smoother production lines, safer workspaces, and steady customer relationships. For companies serious about balancing performance with environmental and worker protection, this solvent offers more than a fix—it presents a future-ready upgrade well worth the investment.
