|
HS Code |
288619 |
| Name | 4'-ethoxyacetoacetanilide |
| Molecular Formula | C12H15NO3 |
| Molecular Weight | 221.25 g/mol |
| Cas Number | 94-62-2 |
| Appearance | Yellow crystalline powder |
| Melting Point | 110-112°C |
| Solubility In Water | Slightly soluble |
| Synonyms | N-(4-Ethoxyphenyl)-3-oxobutanamide |
| Chemical Class | Acetoacetanilide derivative |
| Application | Intermediate for organic pigments (e.g., azo dyes) |
As an accredited 4'-ethoxyacetoacetanilide factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Amber glass bottle containing 100 grams of 4'-ethoxyacetoacetanilide, labeled with chemical name, batch number, hazard symbols, and handling instructions. |
| Container Loading (20′ FCL) | 20′ FCL: 4'-Ethoxyacetoacetanilide is loaded in 25kg or 50kg bags/drums, totaling 16–18 metric tons per container. |
| Shipping | 4'-Ethoxyacetoacetanilide is shipped in tightly sealed containers to prevent contamination and moisture ingress. It is transported under ambient conditions, away from incompatible substances. Appropriate hazard labeling and documentation are included to comply with chemical shipping regulations. Handle with care and use suitable protective equipment during receipt and storage. |
| Storage | 4'-Ethoxyacetoacetanilide should be stored in a tightly closed container, in a cool, dry, and well-ventilated area away from sources of ignition, heat, and incompatible substances such as strong oxidizers. Keep away from moisture and direct sunlight. Ensure proper labeling and store in accordance with all local, regional, and national regulations for safe chemical storage. |
| Shelf Life | 4'-Ethoxyacetoacetanilide should be stored in a cool, dry place; shelf life is typically 2-3 years under proper conditions. |
Competitive 4'-ethoxyacetoacetanilide 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 sales7@boxa-chem.com.
We will respond to you as soon as possible.
Tel: +8615371019725
Email: sales7@boxa-chem.com
Flexible payment, competitive price, premium service - Inquire now!
Hands-on experience with 4'-ethoxyacetoacetanilide production shows its practical benefits and the ways quality influences customer outcomes. Our team works daily with batches of this compound, which means we have a real sense of what matters most to users in industries like dyes and pigments. Clean production lines help minimize contamination and guarantee the kind of performance our partners expect. Firms that rely on us want to avoid rework or formula drift, both of which emerge if we cut corners during synthesis or purification.
The structure of 4'-ethoxyacetoacetanilide separates it from older generations of acetoacetanilides. By introducing an ethoxy group onto the aromatic ring, we see clear shifts in solubility and color reaction properties. During diazo coupling, this structure promotes intense and consistent colors, especially for yellow and orange pigment manufacture. The material’s melting point and free-flowing crystalline form let users handle, dose, and dissolve it without bottlenecks on the shop floor.
Over years spent analyzing feedback and running technical talks with end-users, we gained insight into why certain grades matter. Tighter particle size distributions simplify dissolution or milling, cutting down on filter losses or dust generation. In real-world production, these details impact yield and operator safety. For those looking at lower cost options, we sometimes see knockoffs from third parties that skimp on purification. These imitations lead to duller colors or bring hidden contaminants that show up during quality audits. Our own 4'-ethoxyacetoacetanilide relies on high-purity input streams and careful analytical control at each process step. The difference becomes obvious in both the visual result and on spectrophotometric curves.
Rather than sticking to generic specifications, we keep an ear to the ground on what large pigment makers actually run into. Reliable batch-to-batch strength, freedom from insolubles, and a stable melting range top their wish lists. In our facility, each lot of 4'-ethoxyacetoacetanilide typically reaches a purity above 99 percent, with most batches far exceeding standard industry benchmarks for color body and clarity. Analytical reports back this up with direct physical evidence: melting points remain within a tight bracket, and HPLC checks regularly show negligible levels of residual solvents or trace anilines.
Our staff knows the headaches that come from uneven batches. A stuck filter, a bad press curve, or a finicky mixer wastes both time and money. By leading every synthesis step with close temperature control and constant agitation, we hold the quality line. In-house labs allow for same-day analysis of each lot, and re-inspection happens before any bulk containers leave the facility.
This compound flows against the crowd of standard acetoacetanilide derivatives. The ethoxy group creates a balance between hydrophobic and hydrophilic properties, offering manufacturers better compatibility with both water- and solvent-based systems. Dyes and pigments using this core experience improved brightness and purity in shades. Cascading effects show up in the finished products, such as easy dispersibility and a truer tone in specialty paints, inks, and plastics.
Chlorinated or methylated substitutes do not always match the safety profile or consistency in shade that 4'-ethoxyacetoacetanilide brings. Our long-term customers, who operate continuous lines, find that transitions between pigment recipes become smoother, with less downtime spent cleaning out residue or fixing shade drift. These benefits become more pronounced under full-scale synthesis rather than bench-scale trials, where minor impurities can multiply in finished goods.
Every day, formulation chemists and operators deal with unpredictable upstream quality, especially when using budget products from outside sources. The direct impact turns up in everything from filter clogging to pigment dulling. With 4'-ethoxyacetoacetanilide produced to strict control standards, production runs stay predictable and finished material passes final inspection more often. We’ve heard from clients who moved entire lines based on ease of use, cleaner pours, and shorter mixing cycles once they switched to our material. Even the small advantages, like less caking under high humidity or faster dissolution, make a cumulative difference for deadlines and repeatability.
Labs working on yellow azo pigments track each property with care, since color fidelity makes or breaks a batch. Our years in this industry mean every shipment includes Certificates of Analysis, analytical printouts, and—if the customer asks—side-by-side sample packets demonstrating the visual outcome versus lower-grade alternatives. More than one pigment house credits an early switch to our material for passing tough automotive or textile fastness tests.
Each batch of 4'-ethoxyacetoacetanilide reflects countless decisions at the input stage. Source purity, solvent choice, the order of addition, and cooling rates all shape the consistency found in the drum. Attempts to cheapen inputs or push output rates past safe limits only invite trouble, a lesson manufacturers facing recalls or color consistency issues often learn the hard way.
Because this compound’s aromatics bring risks of nitrosamine formation if impurities creep in, we spend time and effort on multiple filtration and vacuum drying steps. Regular investment in analytical chemistry, GC-MS, and HPLC keeps results transparent. This level of discipline attracts buyers who cannot afford reprocessing or regulatory hiccups, like those supplying global brands in coatings and ink.
Fielding technical calls offers a window into real-world problems: odd-batch streaking, unexplained haze, or a slow discharge in automatic feeders. Years of handling these issues taught us to put process data and customer needs ahead of sheer output numbers. Full documentation and clear lines of communication with downstream users resolved dozens of potential headaches long before they hit the production line.
Over the years, the most successful customers build long-term partnerships, trading lab observations and feedback that we funnel back into process tweaks. Sometimes a pigment house will phone in about a shading issue appearing only at scale. Our technical team cross-references every synthesis parameter and can ship multiple batches with controlled tweaks to isolate the source. As a result, shared knowledge makes its mark on the next generation of production methods on both ends of the supply chain.
Long-term supply contracts grow in value amid market instability. Our backward integration with key raw material suppliers cushions against sudden shortages and panic buying. Updates in environmental or chemical regulations hit chemical producers fast, and we’ve absorbed the cost of newer abatement systems and greener process solvents to stay ahead of tightening rules. Such moves affect the cost structure, but clients benefit from reliable business and fewer late-stage compliance surprises.
Documented traceability, from raw input to packed drum, now forms part of our assurance package. Inspectors, both from within client companies and jurisdictional agencies, visit our site for regular checks. Regulatory peace of mind means customers do not get caught off-guard by unannounced shifts in allowed impurity levels or banned substances. Experience shows that preparation and clear records beat last-minute fixes every time.
Green chemistry claims fill the chemical sector, but experience tells us customers look for durable, measurable results over slogans. We moved toward closed-loop solvent recovery and higher-yield reactions based on the environmental demands of our largest users. Tracking emissions and batch water use pays dividends now that buyers use sustainability scores when evaluating supplier bids.
Waste management and downstream safety also play into customer decisions. Producers of pigments for sensitive uses—like toys, textiles, or food-contact plastics—demand assurance on both purity and safety. Our long track record with technical documentation, plus direct engagement on new compliance thresholds, means clients find fewer roadblocks in their own product registration processes.
R&D hubs and specialty pigment houses often reach out for tailored options or modified grades. Our flexibility comes from keeping the entire synthesis and purification chain in-house. Changing particle size, melting point range, or solubility characteristics demands close control, which off-the-shelf sources cannot usually provide. Labs searching for high clarity or accelerated reaction kinetics in pigment synthesis reach technical staff directly for recommendations or sample shipments.
In our years of process development, the willingness to iterate and trial custom batches led to successful launches in high-end coatings and inks. Ideas from multinational partners, filtered by the practical know-how of manufacturing chemists, shaped unique offerings for markets with special technical hurdles absent in mass-market pigment production.
As newer reactive intermediates enter the market, it pays to benchmark traditional mainstays like 4'-ethoxyacetoacetanilide against them. Many customers have tried shifting to cheaper anilide derivatives or moving to newer coupling agents. Problems spring up in shade purity, reaction time, or just in day-to-day equipment fouling. Our own shift-resistant grades minimize downtime across a wide range of operating temperatures and pH values.
Customers needing high lightfastness or heat stability, particularly for automotive or outdoor uses, find that ethoxy-substitution aids in delivering lasting yellow pigments without the fading found in older acetoacetanilide options. Technical data from commercial-scale evaluations often reveals reduction in off-spec batches and a higher ratio of premium-color output when maintaining our product in the supply chain.
Small-scale trials and kilo-lab batches only tell half the story. Full-scale production surfaces dozens of details—like flow rate corrections, cleaning cycle planning, and drum caking avoidance—that only show up after producing several tons. Our crews adapt process steps to manage these reality checks, locking in quality while keeping output consistent across shifts. Staff training and clear batch records prevent the “Monday morning” effect, when early-week runs show higher deviation if staff or process discipline lapses.
Strong on-the-ground experience makes or breaks the transition from lab to factory. We noticed that ignoring the linkage between synthesis timing and post-reaction handling always increases the odds of quality failures at scale. In our own practice, team members regularly share both successes and problem cases, sustaining a culture that prizes hard facts over wishful thinking.
As a manufacturer, each year brings new opportunities and challenges. With 4'-ethoxyacetoacetanilide, the core difference lies not in formula diagrams but in the grind of everyday plant work: watching melt temps, verifying each drum’s history, and checking every batch leaving the dock. After decades in this line of work, we’ve watched trends come and go, and we invest in what brings lasting results for customers. The road from raw input to finished pigment forms a chain, and close listening to both production staff and end-users leads to more reliable, higher-performing end products. Trust grows with consistency, detailed records, and joint problem-solving—and we see strong demand for these qualities in a changing market.
