|
HS Code |
567993 |
| Product Name | Industrial C10 Crude Aromatics |
| Appearance | Clear to pale yellow liquid |
| Odor | Aromatic hydrocarbon odor |
| Boiling Point Range Celsius | 180-220 |
| Density Kg Per M3 | 950-980 |
| Flash Point Celsius | ≥ 60 |
| Solubility In Water | Insoluble |
| Viscosity Cst 40c | 1.1-1.4 |
| Main Components | C10 aromatic hydrocarbons |
| Purity Percent | Typically 85-90 |
| Typical Uses | Solvents, chemical intermediates |
| Color Apha | ≤ 30 |
| Refractive Index 20c | 1.490-1.510 |
| Vapor Pressure Kpa 20c | < 2.0 |
| Hazard Class | Flammable liquid |
As an accredited Industrial C10 Crude Aromatics factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Industrial C10 Crude Aromatics is packaged in 200-liter steel drums, securely sealed, labeled with hazard warnings, and batch information. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL): Drummed Industrial C10 Crude Aromatics loaded securely in 200L drums, max net weight 16-18 MT per container. |
| Shipping | **Shipping Description:** Industrial C10 Crude Aromatics are shipped in bulk liquid form, typically via tank trucks, railcars, or ISO tank containers. Containers must be compatible with hydrocarbons and clearly labeled as hazardous. Ensure compliance with local and international transport regulations, including proper documentation, handling precautions, and spill response measures. |
| Storage | Industrial C10 Crude Aromatics should be stored in tightly closed, clearly labeled, and corrosion-resistant containers, away from direct sunlight, heat, and sources of ignition. Storage areas must be well-ventilated and equipped with spill containment measures. The chemical should be kept separate from incompatible substances such as oxidizers and strong acids to prevent hazardous reactions. Ensure proper grounding and bonding to avoid static accumulation. |
| Shelf Life | Shelf life of Industrial C10 Crude Aromatics is typically 1 year under cool, dry, and well-ventilated storage conditions. |
|
Purity 95%: Industrial C10 Crude Aromatics with 95% purity is used in the formulation of rubber processing oils, where it enables enhanced elongation and improved compounding efficiency. Boiling Range 210–230°C: Industrial C10 Crude Aromatics with a boiling range of 210–230°C is used as a solvent in industrial cleaning operations, where it ensures rapid dissolution of grease and tar residues. Aromatic Content 80%: Industrial C10 Crude Aromatics with 80% aromatic content is used in the production of adhesives, where it provides superior tackiness and bonding strength. Low Sulfur Content <0.5%: Industrial C10 Crude Aromatics with low sulfur content below 0.5% is used in paint thinning applications, where it minimizes environmental emissions and improves air quality compliance. Flash Point >65°C: Industrial C10 Crude Aromatics with a flash point above 65°C is used in the manufacture of heavy-duty coatings, where it increases operational safety during handling and storage. Density 0.98 g/cm³: Industrial C10 Crude Aromatics with a density of 0.98 g/cm³ is used in tire manufacturing, where it ensures consistent blending with elastomers for optimal product uniformity. Distillation Range 10%–90%: Industrial C10 Crude Aromatics with a distillation range between 10% and 90% is used as a feedstock in petrochemical cracking units, where it optimizes feed composition and olefin yield. Viscosity 2.5 cSt: Industrial C10 Crude Aromatics with a viscosity of 2.5 cSt is used in specialty fuel blending, where it improves flow properties and combustion efficiency. Stability Temperature up to 150°C: Industrial C10 Crude Aromatics with stability temperature up to 150°C is used for ink manufacturing, where it maintains color integrity and prevents polymer degradation. Residue on Evaporation <1%: Industrial C10 Crude Aromatics with less than 1% residue on evaporation is used in degreasing formulations, where it guarantees minimal contaminant buildup and cleaner surfaces. |
Competitive Industrial C10 Crude Aromatics prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615371019725 or mail to sales9@ascent-chem.com.
We will respond to you as soon as possible.
Tel: +8615371019725
Email: sales9@ascent-chem.com
Flexible payment, competitive price, premium service - Inquire now!
Every batch of our Industrial C10 Crude Aromatics leaves the plant with a familiar scent and signature profile that many of our customers can recognize on the spot. C10 crude aromatics occupy a steady position across paints, inks, adhesives, and chemical intermediates, and it’s a product that forms a backbone for countless downstream processes. From years spent managing large-scale distillation setups, one observation sticks out: Not all aromatic products behave the same way under pressure or at scale. Choosing the right cut directly affects efficiency and quality throughout a customer's operation.
We maintain tight control over our C10 fractionation process. Typical batches fall within the range of 98–110°C for primary distillation, yielding a mixture high in aromatics content. Refinement methods determine exact proportions, but our operating routines favor an average aromatic hydrocarbon content well above 80%. Years spent tuning the process have taught us that pushing purity higher causes diminishing returns for most industrial users—especially when considering cost, residue management, and required solvent characteristics.
Customers often ask about color and odor standards. In-house, our teams watch for a clear, deep coloration and the recognizable, sharp aromatic smell, but avoid a finish that suggests over-processing or too high residual non-aromatic content. We regularly test for benzene, toluene, and xylene residuals to keep each within strictly defined limits, reducing exposure risks for workers and final users. The boiling range, density, and flash point all fall in the band needed for most industrial solvent and intermediate uses. Over the years, we've found customers value consistency in these details over pushing the envelope for a theoretical maximum.
Crude C10 aromatics didn’t build their reputation on marketing claims alone. Manufacturers in the coatings sector rely on this material to solubilize resins and impart gloss and flow properties. In adhesives, demand for specific solvency and evaporation rates means C10 blends hit a performance niche not easily matched by lighter aromatics like C9 or heavier distillation cuts. We’ve watched procurement teams run test batches, comparing our product side-by-side with other options—lighter and heavier grades both tend to miss the mark either on solvency power or drying times. Our production engineers, calling on decades in the field, design fractions that consistently meet these daily working requirements.
While we get requests to tune the cut for unique requirements, the bulk of demand calls for a reliable, broad-spectrum aromatic mix. Experience shows that many specialty applications benefit from the balance of volatility and solvent power found in a well-produced C10 crude. End-users in resins or chemical intermediates manufacturing often report strong compatibility with standard industrial processes. For those running automated, high-throughput systems, batch-to-batch consistency means less downtime and rework. These practical benefits matter more than minor incremental improvements in laboratory specs.
The differences between C10 aromatic crude and more fractionated or lighter cuts are easy to spot in the workshop. C9 aromatic solvents offer faster evaporation rates but fall short on solvency for higher molecular weight polymers. They also tend to raise vapor exposure levels on the factory floor—a downside in ventilation-constrained environments. C10 aromatics land in the right spot where solvency strength pairs with a manageable evaporation rate, reducing pungency and workplace odor without sacrificing cleaning or dissolving power.
We see a steady stream of questions about “going lighter” for faster drying, but lighter aromatics don’t perform as well in pigmented paint systems or in areas where thick applications require slow, even drying. C11–C12 aromatic fractions, on the other hand, bring their own set of problems: excess residue, longer clearing times, and increasing incompatibility with common polymers or additives. Through long collaboration with coating manufacturers, our team recognizes that C10 aromatic blends consistently hit the mark for balance—offering enough punching power for stubborn resins but drying at a tempo that aligns with standard production line speeds.
Pipeline operators and plant maintenance teams notice how C10 crude aromatics handle pipework and mixing vessels. The slightly heavier fraction cuts down on vapor migration and splashing, keeping losses to a minimum and improving workplace safety. Our plant managers keep a close eye on storage stability too, so we make sure antioxidant content stays within working ranges. If left unchecked, inferior aromatic crudes show yellowing and gum formation quickly—past experience with subpar imports taught us to closely monitor our own QC on every batch.
Our technical staff pays attention to how the product mixes. In universal colorants, the mixability directly affects shade development. If the aromatic fraction sits too close to the C9 band, we see issues with pigment floating or poor color holdout. Direct feedback tells us end users expect easy handling, reliable blending, and predictable behavior across run after run. Nobody wants to adjust application parameters just because a drum from a new batch showed up. For this reason, each lot is traced and logged throughout the process, giving our repeat customers assurance of what to expect—even when market feedstock prices fluctuate.
C10 crude aromatics play a bigger role than just solvency. The performance of finished paints, adhesives, or synthetic resins hinges on the minutiae of base solvent composition. We've worked with R&D teams across the industry, sharing lab results and practical plant data, to support formula adjustments that leverage the best properties of our product. This ongoing technical partnership delivers more value than spec sheets ever could.
Some manufacturers approach us looking for ways to reduce total solvent load or limit hazardous emissions. C10 aromatics—with their mid-level volatility—help many customers move toward compliant formulations, reducing VOC output compared to lighter aromatic fractions. The combination of higher resin compatibility and lower vapor emissions presents a workable path for maintaining production speeds while hitting tougher environmental standards.
From our position in the supply chain, we hear the demands for cleaner, more sustainable options. Real gains come through close coordination with customers, not one-size-fits-all solutions. We adjust refining techniques and share process feedback openly, leading to real-world improvements in workplace safety, emissions, and regulatory compliance. Less downtime, fewer solvent-related stoppages, and higher finished-product quality traces directly back to the core properties of our C10 crude aromatic blend.
QC efforts go beyond lab analysis. Over the years, we’ve built up a process of continuous feedback: plant operators call out odd-smelling batches; production managers keep logs of drying and flow performance; customer input flags the occasional hiccup with unusual application results. This line of communication keeps our focus tight and keeps the process honest. A drum rejected in the field means more than any certificate stamped in the office.
Our team closely monitors GC (gas chromatography) traces. If a contaminant spike shows up, or an unexpected hydrocarbon pops into the spectrum, production steps are reviewed immediately. Once, a stray fraction contaminated a late-year batch—years of running onsite blending stations meant supervisors picked up the problem before it reached shipment. This kind of vigilance protects everyone in the chain. We’d rather halt a truck in the yard than risk a tank-load throwing off a customer operation.
Quality work means taking direct ownership and acting on feedback, even when the root cause isn’t obvious. No shortcut replaces the value of learning from a recurring problem and closing it with process change. We prize transparency and traceability above short-term cost savings, since those extra hours spent in the QC bay mean fewer headaches for customers down the line.
The value of our C10 crude aromatics really shows on busy production lines and in harsh outdoor environments. Overcoating performance and resistance to weathering tie directly to base solvent choice. Users in the construction sector sometimes run pilot batches using different fractions—they return to us for reliability and workability. The finished products built with our C10 blend demonstrate solid durability against the elements, resisting breakdown or yellowing over time.
For printing and electronics manufacturing, C10 aromatics deliver the necessary solvency power for inks and pastes without hitting the volatility extremes that lead to nozzle clogging or rapid misshaping. Smaller differences in product cut can translate to big changes in how smoothly a continuous process runs. Years spent working with end-users gives us the right context to adjust and refine product characteristics—always informed by real field performance, not only theoretical test data.
Customers often stress the importance of predictability. The unpredictable nature of bulk chemical markets brings enough uncertainty—no one wants surprises from the core solvent feedstock. Long-term field reviews, supported by repeat testing and logged observations, show that keeping a batch profile consistent means fewer mix issues, better curing, and less waste. This focus on real-world outcomes shapes every decision, from raw material sourcing to final shipment sealing.
Industrial users face ever-tightening health and safety regulations. C10 aromatics must fit within stringent VOC and hazard limits. Direct handling experience tells us that slightly heavier solvents like these often land below critical thresholds, allowing users to manage air quality and reduce total workplace exposure. Importing lighter grades may seem tempting on cost, but frequent customer reports of unplanned ventilation or unexpected vapor alarms remind us that safer solvent profiles cut down indirect costs in the long run.
Moving to safer work environments starts well before the solvent arrives at the customer site. We invest in upgraded leak containment, regular tank integrity checks, and robust documentation for every shipment. These changes didn’t show up in a day—each step grew from field reports and real incidents. A shipment held up by a small leak brought attention to the need for more thorough pre-shipping checks and changes in drum testing methods, solving a leak tendency for future batches. Plant supervisors see the difference over time in accident rates and improved workplace morale.
On the emission front, C10 aromatic fractions open paths to reducing total emissions. Their slower evaporation gives plant managers breathing room for compliance cycles and limits the volume of air scrubbing that lighter solvents require. Process engineers often remark on lower total solvent loss, especially in hot or high-throughput facilities. Less vapor in the air translates to cleaner workspaces, better air monitoring results, and—over the long term—easier compliance documentation.
Manufacturing isn't just about the chemistry—it's about listening and adapting. Regular site visits to customer operations uncover small adjustments that make a big difference. We adjust our process, revisit additive selections, and tune cut-points based on feedback from real-world applicators. One long-term coatings partner flagged issues with winter batch consistency. Our production engineers traced the concern to ambient storage temperature swings and reworked our intermediate storage protocol, delivering a tighter spec all year round.
Direct field visits teach lessons you can't find in textbooks. Seeing a paint shop run through application cycles, or walking a pipeline where aromatic blends meet challenging weather, gives context for where improvements stick and where specs need to flex. We pass these learnings straight into the plant—sometimes a minor process tweak, sometimes a full equipment change-out. In every case, field-driven improvement eclipses any protocol written in a distant office.
Collaboration means more than shipping product. We regularly sit down with technical managers and plant engineers from our customer base, reviewing blending notes and drying logs. This dialogue leads to targeted process improvements—lower foaming, less residue, smoother curing. These aren’t abstract gains: better outcomes mean fewer scrapped batches and more reliable customer deliveries.
Chemical market movements have an outsized impact on what customers expect from crude aromatic blends. Over the last decade, we’ve seen shifts toward lower-total-solvent-use, increased pressure for supply transparency, and much tighter tolerances on hazardous residues. Equipment investments and process updates have followed suit. New distillation columns, improved fractionation control, and smarter in-line testing stand as recent upgrades—each rooted in staying ahead of customer demand rather than running after it.
Sourcing reliable feedstock means lessons learned the hard way—sudden shortages or price jumps for key hydrocarbon sources can disrupt the downstream supply. Building a reliable network of suppliers and keeping excess refining capacity in reserve carry costs, but they translate into fewer missed deadlines and a steadier supply for end-users. As crude markets move and regulations shift, a direct-manufacturer’s flexibility in tune with global trends stands as an advantage for customers, translating to less volatility in product quality and lead times.
We follow downstream trends closely. The rising demand for eco-friendlier adhesives or high-performance paints pushes us to refine extraction methods and test alternative process routes. Our teams monitor emerging regulations in VOC management, storage safety, and waste disposal. Every update to our C10 crude aromatics process reflects deep industry involvement, and each adjustment rests on careful trial and reporting.
Clients faced with unreliable performance or inconsistent supply from indirect channels end up searching for direct-manufacture partnerships. Decades of feedback point to tangible upsides in traceability, responsiveness, and overall batch-to-batch quality. The closer alignment between production floor and application floor brings fewer mismatches, less time spent troubleshooting, and a steadier rhythm for high-volume runs.
Expertise stays embedded in our process. Every improvement gets tried, measured, and logged by the people working closest to the material. Batch notes and field reports provide a living document that adapts as new technology or new market needs appear. Plant supervisors and batch engineers keep the lessons alive, from small changes in batch agitation rates to major overhauls of storage logistics.
Longstanding end users highlight the importance of certainty—every drum, every tank load aligned with expectation, without need for a pre-production sample run. Customer involvement doesn't end at the purchasing stage; it continues through regular follow-up, trial support, and reporting. The cycle of feedback, adjustment, and improvement stays at the heart of every strong manufacturer-user relationship.
Direct manufacturing presents steady challenges—raw material shifts, new regulatory landscapes, unexpected field problems. The key to real durability lies in open communication and transparency. Problems flagged onsite surface quickly in our system. Unplanned production stoppages or shipment delays bring the whole team together for root-cause work, with every fix tracked and lessons archived.
Recent regulatory moves on workplace exposure and transport safety pushed us to upgrade containment protocols and overhaul shipping documentation. This didn't translate into higher costs alone—it led to tighter controls, more reliable deliveries, and improved customer confidence. Regular training keeps our workforce prepared for fast problem-solving, and open reporting lines speed up response to anomalies.
In every case, real-world application and user feedback inform the next step forward. We refine, adapt, and support better C10 crude aromatic outcomes, knowing firsthand how each change flows through the production process to the end product. Industry demands shift, technologies evolve, but the role of honest, direct dialogue with users never loses its value.
All the incremental choices—refining cut-points, monitoring residue levels, shipping with stronger drums, working hand-in-hand with customer teams—add up over time. A direct manufacturer bears responsibility for every batch, for every shipment, and for every user out in the field depending on predictable, high-quality aromatic solvents. Our years in the industry have been built on these relationships, shaped by ongoing feedback and earned improvement—not on marketing slogans or abstract promises.
At the foundation sits a product defined not by lab numbers alone, but by steady, proven performance over time. C10 crude aromatics, produced with care and backed by manufacturing experience, help drive continuity, safety, and value for industrial partners working every day on demanding applications. Real quality comes from living the process, listening to customers, and always pushing toward a better way to do business.
