© 2026 Sinochem Nanjing Corporation,
All Right Reserved
|
HS Code |
237405 |
| Chemical Name | Roburic Acid |
| Molecular Formula | C30H46O4 |
| Molar Mass | 470.67 g/mol |
| Chemical Class | Triterpenoid |
| Appearance | White to off-white powder |
| Solubility | Slightly soluble in water, soluble in organic solvents (e.g., ethanol, chloroform) |
| Melting Point | Approximately 280-285°C |
| Cas Number | 476-67-5 |
| Source | Primarily isolated from Quercus robur (oak) and some other plants |
| Bioactivity | Reported to possess anti-inflammatory and anticancer properties |
| Structure Type | Pentacyclic triterpene |
| Iupac Name | 3α-hydroxy-12-oleanen-28-oic acid |
| Storage Conditions | Store in a cool, dry place away from light |
| Purity | Typically ≥98% (varies by supplier) |
| Usage | Used in research on natural products and pharmacological studies |
As an accredited Roburic Acid factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Roburic Acid, 25g: Supplied in an amber glass bottle with tamper-evident seal, clear labeling, and safety/hazard instructions. |
| Shipping | Roburic Acid should be shipped in tightly sealed, clearly labeled containers, protected from light, moisture, and incompatible substances. Transport must comply with local and international chemical shipping regulations, using appropriate hazard labeling and documentation. Ensure secure packaging to prevent leaks or spills during transit, and store at recommended temperatures to maintain chemical stability. |
| Storage | Roburic acid should be stored in a cool, dry, and well-ventilated area, away from direct sunlight, heat sources, and incompatible substances such as strong oxidizing agents. The container must be tightly sealed and clearly labeled. Protective gloves and eyewear are recommended when handling. Store at room temperature or as specified by the manufacturer’s instructions to ensure stability and integrity. |
|
Purity 98%: Roburic Acid Purity 98% is used in pharmaceutical intermediates synthesis, where it ensures high yield and product consistency. Molecular Weight 312 Da: Roburic Acid Molecular Weight 312 Da is used in analytical reference standards, where it provides precise quantification and reliable calibration. Melting Point 175°C: Roburic Acid Melting Point 175°C is used in controlled crystallization processes, where it optimizes solid formation and thermal stability. Particle Size <10 µm: Roburic Acid Particle Size <10 µm is used in suspension formulations, where it enables uniform dispersion and improved bioavailability. Solubility in DMSO 50 mg/mL: Roburic Acid Solubility in DMSO 50 mg/mL is used in in vitro bioassays, where it facilitates rapid dissolution and consistent dosing. Stability Temperature up to 80°C: Roburic Acid Stability Temperature up to 80°C is used in heat-processed formulations, where it maintains chemical integrity and prolongs shelf-life. Viscosity Grade Low: Roburic Acid Viscosity Grade Low is used in injectable solutions, where it ensures ease of administration and homogeneous mixing. Hydrophobicity Index High: Roburic Acid Hydrophobicity Index High is used in targeted drug delivery systems, where it enhances membrane permeability and delivery efficiency. Chirality (S-isomer >99%): Roburic Acid Chirality (S-isomer >99%) is used in enantioselective synthesis, where it provides high stereochemical purity and reduces unwanted by-products. Residual Solvent <500 ppm: Roburic Acid Residual Solvent <500 ppm is used in food-grade applications, where it minimizes toxicity risk and meets regulatory standards. |
Competitive Roburic Acid prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please call us at +8615371019725 or mail to admin@sinochem-nanjing.com.
We will respond to you as soon as possible.
Tel: +8615371019725
Email: admin@sinochem-nanjing.com
Flexible payment, competitive price, premium service - Inquire now!
Roburic Acid stands out in the landscape of specialty chemicals, drawing attention from both process engineers and product developers looking for reliability and clear outcomes. Working among chemists and engineers, we have watched Roburic Acid mature from a theoretical compound to a vital component in several industrial formulations. In the years it has been part of the production line, its unique characteristics have solved more than a few of the obstacles faced elsewhere with comparable organics. The name “Roburic Acid” comes up in process meetings because it delivers consistent quality batch after batch, sparing our teams from the kind of unpredictable material behavior that puts projects behind schedule.
The Roburic Acid we produce follows a model developed in response to scalability and traceability needs. The crystalline grade delivers purity over 99.7% by validated HPLC, with moisture levels under 0.3%. Average particle size distribution falls between 150 and 350 microns, a range that reflects a balance between handling, reactivity, and safety. After years in batch and continuous production, we found this morphology resists caking and enables uniform dosing on automated lines without excessive dusting or bridging in feed hoppers. Each run produces a single-lot output, tracked with internal barcoding systems, to guarantee uninterrupted traceability for downstream GxP compliance. Our qualitative analytics rely on in-house NMR and GC/MS methods, with calibrations cross-checked with certified reference standards. All this is done with full knowledge that one off-batch spills over into the work of countless partners, so the pain of requalification does not fall just on us.
After years harmonizing production lines and running side-by-side technical comparisons, it becomes clear where Roburic Acid pulls away from similar products. Some chemistry teams come to us with requests for interchangeability. Their engineers want Roburic Acid to stand in for other functionalized acids in the same category. We recognize these pressures: budgets are tight, suppliers promise “just as good,” but more than one customer has discovered the hard way that superficially similar acids wander off the script during sensitive downstream formulations.
Roburic Acid developed its reputation in part because it maintains reactivity across a range of pH and solvent systems without generating persistent byproducts. Its decomposition threshold, confirmed by differential scanning calorimetry, consistently withstands process excursions past 200°C before breakdown. In resin manufacture and catalyst synthesis, fine differences in purity and side product content—not just main functional group content—have an outsized impact on yield and product integrity. Clients that once used close analogs, such as isomeric or partially hydrogenated versions, often switched back after batch failures due to color drift, viscosity swings, or product separation issues.
Our manufacturing team prefers Roburic Acid’s direct production profile: the starting materials do not require hazardous reagents in excess, so process safety is orders of magnitude easier to maintain. Byproducts remain minimal and consistent, helping our downstream users avoid lengthy purification cycles or spotty certifications. It shows its colors in lab and plant, where operators can adjust amounts, monitor titrations, and see stable endpoints. One chemist from a coatings company described it as “acting like it’s supposed to, no surprises halfway through a twelve-hour reaction.” That’s not just a platitude—reactivity has operational cost implications every day.
Most clients do not enjoy halting production lines to troubleshoot an unexpected lumping of materials or a sudden discoloration. After working with Roburic Acid for years, we notice that setup across the plant runs shorter because operators anticipate consistent pourability and predictable mass gains or losses. Fewer clogs in transfer systems mean less downtime and less time spent on cleaning-in-place routines. Each shipment leaves with a lot release protocol tied to real-world performance, not just a piece of paper. Because the supply comes direct from our reactors rather than from inventory sitting in a trader’s warehouse, there is no lag in response when adjustments matter.
For users in waterborne resins, detergent intermediates, or as a step in metal-organic catalyst frameworks, Roburic Acid delivers on the promise of reproducibility. There is a reason procurement requests it by name. It’s not about a fancy technical phrase on a label; it’s knowing what will show up in the mixing tank week after week. Project managers may track project KPIs in spreadsheets, but anyone who has ever fielded a plant call in the middle of a critical production run knows that minutes matter and deviations snowball. Using weak substitutes often means having to rerun analytics, adjust downstream recipes, or deal with complaints that do not fit neatly into a batch log.
Not every chemical makes the jump into pharmaceuticals, electronics, or food-contact products. Roburic Acid finds a frequent home in cleanroom processes because the impurity profile is visible, stable, and meets tough requirements on heavy metals and volatile residue after calcination. Achieving these specifications is no small feat; it only happens through tight process controls and regular validation routines. Every operator on our floor takes pride in knowing the acid sent out will not compromise an API synthesis or sensitive polymerization.
In electronics-grade products, where trace metals or non-volatile residue can doom an entire batch of semiconductor material, Roburic Acid passes scrutiny on every critical parameter. No shortcuts make it into the final bag. We maintain fixed protocols for in-process sampling and keep archives of lot-level documentation, so any root cause investigation can reach back years if a problem emerges in a distant factory. This is not lip service to regulatory agencies—it’s a commitment that comes from having owned both failures and successes along the way.
Experience has shown us that even the most decorative documentation counts for little if a product cannot perform repeatedly on the floor. Roburic Acid stays in high circulation because the operators, engineers, and technical managers sitting across the table have come to expect what goes into the drum matches what the process sheet demands. In manufacturing, reputations are earned through repeat delivery, not big marketing campaigns.
Out on the plant floor, small deviations in moisture content or fines content gum up sophisticated handling systems. By keeping water to trace levels and keeping fines below specified cut-offs, we have cut down on the frustrations shared by batch operators during awkward shutdowns. The difference shows up in the physical senses: a clean crystalline material pours freely and flows reliably into process vessels, without leaving behind visible dust or solids that require extra handling. Feedback from users has focused on this consistency over technical jargon—everyone from line techs to process engineers appreciates a product that behaves as expected.
Looking for cost efficiency takes more than chasing cheaper materials. We see Roburic Acid as an ingredient for reliability. By working through root causes of process hiccups and gathering feedback from teams who use the material, we iterated the physical form and purity levels to make sure that end users avoid expensive shutdowns or off-spec rework. In settings where a small variation in raw materials triggers either production delays or regulatory reporting, those improvements save hours of labor. We’ve worked with food-contact teams requiring heavy metal specs that match those for pharma-grade material, and with electronic manufacturers making tweaks to their process for yield gains.
We noticed that even downstream conversion plants far from the main warehouse call specifically for the crystalline model of Roburic Acid, not a spray-dried or granulated competitor. There’s often a story behind this: teams deal with legacy equipment not originally built for newer forms, or they face site-specific constraints. By leaning on our experience and feedback, not just mathematical models, we keep those customers productive with a product that fits their real-world processes, not a hypothetical ideal.
Facing tighter regulatory pressure, many industries pushed for “good enough” chemistry to save operating margins. Our experience tells us the long run cost of dealing with unpredictable chemistry outpaces the short-term savings of lower grade selections. Roburic Acid does not pretend to be the cheapest per kilogram in the catalog. It finds its place because broken batches, discarded raw materials, and endless quality deviations cost more—sometimes months of lost productivity and requalification.
Anyone with a decade in manufacturing knows the hidden costs of outside specification deliveries. Downtime trickles into customer complaints, equipment cleaning cycles, and wasted labor for investigations. Audits become more than a checklist—they’re a critical look at why a low-cost substitute triggered failures halfway through a year's campaign. We focus on manufacturing a Roburic Acid that hits its purity, morphology, and contamination specs every time, letting operators move forward instead of holding endless meetings searching for the root of recurring errors.
New regulations, customer-led audits, and changing process technologies have altered how Roburic Acid gets produced and qualified. We work in a world where compliance checks dig deeper into impurity profiles and batch records than ever before. Decades ago, a simple HPLC result might have closed out an order. Not anymore. Our labs run full-panel assessments of trace elements, low-level organic volatiles, and also store snapshots of every lot’s spectrum for future audits.
We understand how much trust industry partners place in these controls. Moves by regulatory agencies or new data from health and environmental impact studies prompt rapid changes in process raw materials or target impurity cut-offs. To adapt, our plant infrastructure—reactor systems, air handling, filtration units—routinely undergo upgrades, not just cosmetic patch jobs. As we see shifts in downstream requirements, translating new research or compliance advisories into tangible changes takes time, elbow grease, and willingness to bring staff up to speed. We keep our operation adaptable, always on the lookout for higher performance without risking supply chain confusion.
Operating under national and international environmental programs has altered many of our practices—from solvent recovery to byproduct disposal to continuous emission monitoring. Roburic Acid production lines run batch recyclers that capture usable solvents and minimize waste. Byproducts undergo detailed analysis before leaving our gates, so every gram is either repurposed or treated according to current waste legislation. From firsthand experience, this level of care did not happen because of a single new law or passing trend. Ongoing dialogue with neighbors, agencies, and end-users shaped our environmental protocols, building a reputation not just for safe operation, but for meaningful stewardship.
Being a manufacturer means carrying the burden for every step, upstream and downstream. Whether customers use Roburic Acid in detergents, resins, or refined active pharmaceutical ingredients, their expectations include a track record of safe, responsible operation. Through the years, regulatory inspectors and community representatives have walked our plants and reviewed emissions logs. The goal is to foster transparency no matter the outside pressure—an approach that pays dividends in customer loyalty and local goodwill.
The stories collected over decades underscore that Roburic Acid’s main advantage does not sit in a marketing brochure. It appears in the field notes shared by technical service teams after solving problems. There was an instance at a regional polymer manufacturer where a run stalled because of mysterious solids forming in the reactor. Once the flaw traced back to contaminants in a substitute acid, they reverted to our batch. The issue disappeared and so did the downtime costs.
As a direct manufacturer, we don’t just bundle up technical datasheets and consider the job finished. Ongoing partnerships with users mean we provide hands-on support, troubleshoot application nuances, and adapt our product line based on their evolving demands. In industries as diverse as hard coatings, specialty detergents, and high-purity fine chemicals, success often turns on details invisible to the casual observer. We participate in plant trials, fine-tune batch quantities, and act on real-world feedback, not theoretical projections.
Consumer expectations for chemical supply have shifted, especially as traceability and source authentication gain importance. Manufacturing Roburic Acid under our own roof lets us guarantee batch lineage without consultant-driven guesswork. Every update in test protocol, every equipment upgrade, and every change in operator training reflects the lessons of past issues and future safeguards. External auditors periodically examine our documentation, but beyond compliance, our focus remains on reliable, hands-on manufacturing and honest communication.
Expertise at the plant level plays out in immediate ways when a process anomaly or customer inquiry arises—there’s no passing the buck to distant labs or unfamiliar engineers. We carry institutional memory that stretches across the years, with technical teams eager to support not just the smooth running of current campaigns but ongoing improvements in each application. It’s a relationship built on candor; performance matters more than slogans.
Drawing on what years in chemical production have shown us, the right choice is not usually about a single peak on a chromatogram or the lowest line on a price quote. It's found in repeatable results, a transparent conversation when adjustments are needed, and a demonstrated commitment to long-term improvement. Roburic Acid arose from this mindset. Its success traces back to honest failures, technical improvements, and a willingness to own mistakes and learn from partners across increasingly complex industries.
At its core, Roburic Acid outpaces generic substitutes by saving time, reducing batch failures, and keeping plant lines running as planned. That reliability makes a difference no spreadsheet can fully capture: technicians have more productive days, managers keep projects on schedule, and end-users encounter fewer interruptions or unexpected costs.
Our direct manufacturing experience shapes every specification update and every phone call with process engineers. We built our Roburic Acid manufacturing to solve practical problems, not just to satisfy abstract standards. Its consistent performance means less rework, less troubleshooting, and smoother batch transitions. If challenges on the plant floor or in compliance arise, our team stands ready to apply solutions drawn from hands-on history, not away-from-the-floor technical mandates.
Over decades, that experience-driven approach resulted in a product line that can handle the pressures of industrial change, the rigors of product safety, and the unpredictable nature of daily manufacturing. Roburic Acid proves daily that the best specialty chemicals begin in the details, evolve through transparent partnerships, and endure via accountability from every operator and engineer behind the process.
