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All Right Reserved
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HS Code |
620727 |
| Chemicalname | Benzoilbenzoic Acid |
| Casnumber | 86-51-1 |
| Molecularformula | C14H10O3 |
| Molecularweight | 226.23 g/mol |
| Appearance | White crystalline powder |
| Meltingpoint | 120-122 °C |
| Boilingpoint | 410 °C |
| Solubilityinwater | Slightly soluble |
| Density | 1.29 g/cm3 |
| Refractiveindex | 1.645 |
| Purity | ≥98% |
| Flashpoint | 182.8 °C |
As an accredited Benzoilbenzoic Acid factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Benzoilbenzoic Acid, 500g: Supplied in a sealed, amber glass bottle with tamper-evident cap and chemical hazard labeling for laboratory use. |
| Shipping | **Benzoilbenzoic Acid** should be shipped in tightly sealed, chemical-resistant containers, protected from moisture and direct sunlight. It must be labeled according to hazardous materials regulations. Handle with care and transport via approved carriers. Store in a cool, well-ventilated area away from incompatible substances. Follow all local and international shipping guidelines. |
| Storage | **Benzoilbenzoic acid** should be stored in a tightly closed container, in a cool, dry, and well-ventilated place, away from sources of ignition, moisture, and incompatible substances such as strong oxidizing agents. The storage area should be clearly labeled and protected from physical damage. Avoid prolonged exposure to light and keep away from food and drink to prevent contamination. |
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Purity 99%: Benzoilbenzoic Acid with purity 99% is used in pharmaceutical synthesis, where high purity ensures minimal impurities in active drug ingredients. Melting point 120°C: Benzoilbenzoic Acid with a melting point of 120°C is used in fine chemical manufacturing, where consistent melting facilitates uniform processing and formulation. Molecular weight 212.23 g/mol: Benzoilbenzoic Acid with a molecular weight of 212.23 g/mol is used in laboratory reagent preparation, where precise molecular characteristics enable accurate stoichiometric calculations. Particle size <50 microns: Benzoilbenzoic Acid with particle size less than 50 microns is used in pigment dispersion, where fine particle size improves color uniformity and suspension stability. Stability temperature up to 200°C: Benzoilbenzoic Acid with stability up to 200°C is used in high-temperature polymer synthesis, where thermal stability ensures structural integrity during processing. Solubility in ethanol: Benzoilbenzoic Acid with high solubility in ethanol is used in organic solvent systems, where efficient dissolution aids in smooth formulation blending. Acid value 290 mg KOH/g: Benzoilbenzoic Acid with acid value of 290 mg KOH/g is used in resin modification, where specific acid value optimizes crosslinking and polymer properties. Moisture content <0.5%: Benzoilbenzoic Acid with moisture content less than 0.5% is used in adhesive production, where low moisture content prevents hydrolysis and enhances shelf life. UV absorbance at 254 nm: Benzoilbenzoic Acid with UV absorbance at 254 nm is used in sunscreen formulation, where effective UV absorption provides enhanced photoprotection. Bulk density 0.7 g/cm³: Benzoilbenzoic Acid with bulk density of 0.7 g/cm³ is used in compounding blends, where controlled density improves dosing accuracy and handling. |
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In labs and production facilities, we’re always searching for a cleaner process, a more reliable outcome, and a material with real consistency. Benzoilbenzoic acid offers something worth talking about, especially as industries shift toward products that do their work efficiently and quietly. Maybe you see it as an obscure chemical name written somewhere on a batch ticket, but there’s real business behind the bottle—especially if you care about the purity of your input materials and the performance of your end products.
Benzoilbenzoic acid, also known as benzoylbenzoic acid, pulls its weight in manufacturing. Across coatings, polymer resins, and specialty chemical formulation, it’s earned a following by supporting processes other compounds struggle to handle. Where others falter with unwanted side reactions or off-odors, this acid steps in with a degree of neutrality and structural compatibility. Chemists recognize it for the role it plays in plasticizers, UV stabilizers, and even as part of dye intermediates. The fact that it can handle elevated process temperatures and resists unwanted yellowing provides practical value, as somebody working the line will tell you: less downtime and fewer headaches from process hiccups.
Most people using benzoilbenzoic acid aren’t browsing spec sheets for fun—they’re looking for reliable numbers. This acid comes in various grades, but the model I’ve worked with offers impressive clarity, free-flowing powder granularity, and purity above 99 percent. Moisture content runs low, which keeps batch yield high and minimizes unexpected caking in storage bins. You might see material listed with CAS 94-09-7—which, for those in procurement, means you can trust what’s being delivered against established industry standards. The melting point sits in a user-friendly range, so there’s control over blending, and no unpleasant fumes to manage in a decently ventilated shop.
Sitting in meetings with R&D and production teams, I’ve heard the same thing over and over: rollercoaster quality throws off production. Benzoilbenzoic acid brings dependable results to the table. In plastics, it works as a plasticizer, so compounds become flexible and durable. In some coatings, it helps keep flow and texture steady, especially when formulating for stability under strong light or elevated temperatures. Artists coloring polymer resins rely on its compatibility, turning out bright, long-lasting tones without premature yellowing. This material supports a controlled manufacturing rhythm, which often means fewer wasteful batches and better consistency down the supply chain. You recognize the benefits not in numbers on a spreadsheet but on the shop floor—less rework and more confidence in each step of the process.
There’s a temptation to treat every chemical as interchangeable, but real-world applications prove those assumptions wrong. Benzoilbenzoic acid sets itself apart from typical phthalates or basic benzoic acid derivatives in several ways. Where phthalates can introduce regulatory headaches and unintended interactions, benzoilbenzoic acid brings a cleaner safety profile and a reputation for lower volatility under working conditions. I’ve seen firsthand the relief in production teams using this material rather than chasing strange odors, discoloration, or unexplained reactions when switching to lesser substitutes. In essence, you gain peace of mind, which anyone facing an audit or performance review can appreciate.
The chemical supply chain has grown more unpredictable in recent years. Delays, shifting regulations, and changing environmental safety benchmarks all contribute to a climate of uncertainty. Benzoilbenzoic acid, thanks to established routes of synthesis and solid global demand, tends to remain available from reputable suppliers. This reliability helps insulate downstream users from some supply shocks. At the same time, the material keeps up with increasing demands for sustainable and low-toxicity alternatives. It stands in contrast to some higher-risk compounds by meeting strict standards without regularly tripping up procurement teams or production managers.
Talking shop with plant engineers, you hear stories about the dangers of moisture creep, caking in silos, and temperature spikes ruining batches. Benzoilbenzoic acid comes with practical advantages: low moisture uptake means you can store it in standard drums without the endless worry about humidity ruining flow properties or causing hidden lumps. It’s not a high-dust product, so filter maintenance and protective gear stay manageable in daily operations. These details often get overshadowed by technical jargon but translate to better morale and lower incidence of near-misses on the floor. I’ve watched seasoned managers value the simple things—a bag that pours cleanly, powder that doesn’t cling unexpectedly, an ingredient that passes through feeders without jamming. In short, practical day-to-day convenience rises above theoretical advantages every time.
Ask anyone in the PVC or resin business about ingredient headaches, and you’ll hear about migration, yellowing, and trouble with thermal stability. Benzoilbenzoic acid addresses these problems directly. As a secondary plasticizer, it works with common plasticizers to reduce stiffness and improve long-term durability. Unlike typical phthalates, it doesn’t carry the same stigma or disposal concerns and usually flies well under the regulatory radar. Material scientists have highlighted its efficiency in maintaining clarity and flexibility, especially under conditions where lesser additives would drift out or react with neighboring components. This translates into pipes, gaskets, cables, and sheets that perform predictably over time, which is a big relief for anyone tackling warranty claims or maintenance schedules.
Targeting the coatings sector unlocks another set of benefits. Industrial and architectural coatings depend on stability, especially as exterior conditions keep changing. Benzoilbenzoic acid improves film formation and flexibility, even when exposure to heat and UV would normally degrade performance. Formulators lean on its compatibility across a range of resins and its low color contribution, which means glossy whites and deep colors last longer without chalking or fading. Instead of searching for expensive stabilizers or chasing performance with more and more ingredients, using this acid offers a shortcut backed by years of field data and trust from veteran chemists.
In boardrooms and on the production floor, the pressure mounts to choose ingredients that support a safer workplace and cleaner environment. Benzoilbenzoic acid edges ahead of other alternatives by presenting a modest toxicity profile and strong biodegradability under standard processing conditions. The burden often falls on EHS managers to justify every material used—and this acid stacks up well. It’s not classified as a PBT (Persistent, Bioaccumulative, and Toxic) substance, and most environmental risk data position it favorably against heavy-duty plasticizers and aromatic compounds historically in use. These attributes reassure both internal compliance teams and external auditors, smoothing out the push toward sustainable certifications without rolling back practical performance.
Regulations shift rapidly. Ingredients once deemed acceptable suddenly fall out of favor based on fresh studies or revised statutes. Benzoilbenzoic acid fares well under commonly applied guidelines—REACH in Europe, TSCA in America—and does not routinely appear on high-hazard watchlists. This gives procurement specialists, compliance officers, and legal teams firmer ground to stand on. Instead of facing constant reformulation every legislative session, manufacturers using this compound have been able to maintain supply chains, prove due diligence, and reassure their customers with documentation that stands up to real scrutiny. For mid-sized firms, avoiding constant product redevelopment means more money stays in the R&D budget, and less gets lost to legal wrangling.
The temptation to cut costs by using outdated or generic substitutes remains strong. Although traditional benzoic acid brings price advantages, it cannot always perform at higher temperatures or in blends where chemical compatibility must be perfect. Phthalates, another big class of comparators, carry real baggage in the form of bioaccumulative effects and negative press. In my own experience advising manufacturers, shifts away from phthalates or basic esters almost always involve lengthy pilot runs, new safety assessments, and long talks with certification specialists. Benzoilbenzoic acid, by contrast, fits into many formulations without triggering big surprises or disappointing results.
Conversation with production staff rarely dwells on theoretical performance curves. People ask practical questions: Does it clog? Does it react when it shouldn’t? Will a change in temperature spoil a big batch? Feedback around benzoilbenzoic acid remains positive—less downtime, smoother flow through hoppers, and translatable improvements in end product appearance. Supervisors aiming to keep processes running smoothly value ingredients that don’t force sudden recalibration or spell trouble in the middle of a production shift. Sometimes, the biggest difference comes from products that just work the way you expect them to, every time.
Seasoned buyers keep one eye on numbers—costs, downtime minutes, claims returned—but they also trust supplier stories, longtime relationships, and direct test results. Benzoilbenzoic acid aligns with both camps. Its consistency in bench and pilot trials translates directly to production scale, with physical and chemical properties matching listed specs batch after batch. Key numbers like melting point, moisture, and purity stay in the promised range, so procurement teams report fewer late-night phone calls about shipment problems or out-of-spec arrivals. Fewer deviations mean more predictable staffing, planning, and delivery schedules. It’s not just about lab data—it’s about having fewer surprises that complicate a tight production calendar.
Supply chain headaches often start with specialist materials—rare intermediates, volatile pricing, or regulatory curveballs. Benzoilbenzoic acid, thanks to well-understood manufacturing routes, helps alleviate these stressors. Networking with major industry suppliers can secure reliable delivery windows. Diversifying supplier bases hedges against disruption, and co-designing long-term contracts ensures volume and pricing stability. On the regulatory front, partnering with compliance experts and regularly updating documentation maintains readiness for audit season. For process improvements, running small-scale trials in parallel can fine-tune application rates, and cross-functional training ensures everyone from warehouse staff to lab techs handle the product with the care it deserves. These steps aren’t silver bullets, but combined, they add up to smoother operations and less firefighting.
One challenge lies in bridging the gap between technical teams and non-specialist decision makers. The nuances of benzoilbenzoic acid’s advantages too easily get lost when translating chemical specifications into purchasing criteria. Close partnerships between technical staff and purchasing managers can bring clarity here. Presenting data from real trials, sharing case studies, and letting production staff comment during spec reviews closes that gap. Training sessions and open conversations cut through jargon, which helps everyone from finance to frontline staff see the big picture—that reliability, safety, and peace of mind in production come from thoughtful material choices.
With the pace of innovation in materials science, trust builds with consistency. Process engineers who have tuned their systems for benzoilbenzoic acid’s melting point and chemical profile rarely look back. Seasoned operators learn to appreciate the simplicity of handling a product that doesn’t shift parameters with every new shipment. It’s these everyday advantages—ease of transport, compatibility with both legacy and new equipment, straightforward documentation—that place this acid above many of its counterparts. At a time when even small disruptions can turn into big costs, the value of predictability in a single raw material can’t be overstated.
As new applications for polymers, coatings, and specialty compounds emerge, benzoilbenzoic acid’s role looks set to expand. Research teams exploring higher-performance flexible plastics, longer-lived outdoor coatings, or smarter dye intermediates will find opportunities to fine-tune properties with this key material. Its proven compatibility with both established and green chemistries suggests it will support evolving industry standards around safety and sustainability. Producers focused on circular economy initiatives value its ready incorporation into recycling streams without big reengineering efforts. Customers demanding higher transparency in ingredient sourcing and lifecycle impacts will appreciate the supporting data and long-term track record it brings.
Industry veterans have lived through ingredient fads and regulatory waves. Through these cycles, the best choices tend to be those with proven real-world value, regulatory acceptability, and operational convenience. Benzoilbenzoic acid, by combining consistent quality, user-friendly handling, and broad compatibility, stands out as a workhorse. While others chase incremental improvements in one metric after another, this acid delivers steady results where it counts—on the line, in the warehouse, and in field performance. It’s a reminder that sometimes the smartest innovations are those hiding in plain sight, being quietly trusted by people who know what reliability truly means.
