|
HS Code |
708449 |
| Product Name | Antioxidant Hindered Phenol Series CHINOX 1076 |
| Chemical Name | Octadecyl 3-(3,5-di-tert-butyl-4-hydroxyphenyl)propionate |
| Cas Number | 2082-79-3 |
| Molecular Formula | C35H62O3 |
| Molecular Weight | 531.87 g/mol |
| Appearance | White to off-white crystalline powder |
| Melting Point | 50-55°C |
| Solubility | Insoluble in water, soluble in organic solvents (e.g., benzene, acetone) |
| Assay Purity | ≥98.0% |
| Ash Content | ≤0.1% |
| Volatile Matter | ≤0.5% |
| Applications | Used as a primary antioxidant in polymers such as PE, PP, PS, ABS, PVC and synthetic rubbers |
As an accredited Antioxidant Hindered Phenol Series CHINOX 1076 factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | CHINOX 1076 is packaged in 25 kg net weight fiber drums, lined with polyethylene bags to ensure moisture resistance and product integrity. |
| Shipping | Antioxidant Hindered Phenol Series CHINOX 1076 is typically shipped in 25 kg net fiber drums or polyethylene bags, securely sealed to prevent contamination and moisture ingress. The product should be stored and transported in a cool, dry, and well-ventilated area, away from direct sunlight and incompatible substances to maintain stability and quality. |
| Storage | Antioxidant Hindered Phenol Series CHINOX 1076 should be stored in a cool, dry, and well-ventilated area, away from direct sunlight, heat, and sources of ignition. Keep the container tightly closed to prevent moisture absorption and contamination. Store away from strong oxidizing agents and acids. Proper labeling and adherence to local regulations for chemical storage are recommended for safety. |
|
Purity 98%: Antioxidant Hindered Phenol Series CHINOX 1076 with 98% purity is used in polyolefin film manufacturing, where it ensures enhanced oxidative resistance and prolongs product lifespan. Melting Point 50-55°C: Antioxidant Hindered Phenol Series CHINOX 1076 with a melting point of 50-55°C is used in PVC cable compounding, where it provides uniform dispersion and consistent anti-aging protection. Molecular Weight 531.0 g/mol: Antioxidant Hindered Phenol Series CHINOX 1076 with a molecular weight of 531.0 g/mol is used in polypropylene processing, where it minimizes thermal degradation and maintains polymer integrity. Stability Temperature 200°C: Antioxidant Hindered Phenol Series CHINOX 1076 with a stability temperature up to 200°C is used in ABS resin molding, where it delivers robust antioxidative stability during high-temperature processing. Particle Size <40 μm: Antioxidant Hindered Phenol Series CHINOX 1076 with particle size below 40 μm is used in polyester fiber production, where it promotes efficient blending and superior long-term color retention. Volatile Content <0.5%: Antioxidant Hindered Phenol Series CHINOX 1076 with volatile content less than 0.5% is used in automotive plastics, where it reduces off-gassing and improves product safety compliance. |
Competitive Antioxidant Hindered Phenol Series CHINOX 1076 prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615365186327 or mail to sales3@ascent-chem.com.
We will respond to you as soon as possible.
Tel: +8615365186327
Email: sales3@ascent-chem.com
Flexible payment, competitive price, premium service - Inquire now!
CHINOX 1076 steps into modern manufacturing as a stabilizer designed to keep plastics, rubber, and other polymers performing as they should. This product doesn't just promise longevity. It proves its worth in settings where materials often buckle under heat, light, or long-term storage. CHINOX 1076’s core model sits in the class of sterically hindered phenol antioxidants. Its CAS number, often checked by keen buyers—2082-79-3—identifies its precise chemical structure: octadecyl 3-(3,5-di-tert-butyl-4-hydroxyphenyl) propionate. This formula gives it a unique ability to halt free radicals before they destroy a finished product’s good properties. The difference between a polymer that lasts and one that cracks, turns yellow, or loses strength often traces back to how well it stands up to oxidation. CHINOX 1076’s stability record shows years of solid protection when blended into the right applications.
Every day, countless items made from plastics, synthetic rubbers, adhesives, and even some paints face silent attacks by oxygen and heat. Many years ago, I watched a pallet of packaging films yellow and grow brittle after weeks in the sun. This was before quality antioxidants made their way into that supply chain. The lesson was costly—lost inventory, wasted time, and angry customers. With antioxidants like CHINOX 1076, I’ve since seen the shelf life and visual appeal of similar materials hold up far longer, even in tough climates.
Its applications stretch from food wrap films, which need to remain transparent and flexible, to automotive interiors, which demand long-lasting appearance and texture. In electrical insulation, cables endure harsh environments, where failure could spell disaster for entire systems. CHINOX 1076 offers this insurance, working behind the scenes to slow down changes brought by temperature or ultraviolet light.
Many antioxidants look similar on paper. But performance can swing based on compatibility, migration tendencies, volatility, and the kind of materials they’re used with. CHINOX 1076 stands out because of several practical strengths that repeatedly matter in factories and labs. Its solubility in a wide variety of polymers makes it easier to blend without causing haze or separation. This includes polyethylene, polypropylene, polystyrene, PVC, ABS, and elastomers. It isn’t prone to ‘blooming’—that is, it doesn’t migrate to the surface and form white deposits under normal processing. This matters because no one wants a product that looks or feels odd after only a few months.
Low volatility means less loss during high-temperature processing, such as extrusion or injection molding. This translates to more reliable performance and less need to compensate with higher doses. CHINOX 1076 also works well at low concentrations, with typical dosage levels often ranging from 0.05 to 0.5 percent by weight depending on demands. You don't need much to achieve a meaningful effect, which means more cost-effective production.
Some may ask about other antioxidants—plain phenols or blends with phosphites, thioesters, or even organic sulfides. While these offer benefits, only certain formulations combine longevity and food-contact approval with such a low impact on polymer color, taste, and mechanical properties. In my experience, odd flavors and off-odors can creep into food packaging if antioxidants aren’t carefully selected. CHINOX 1076 is among a handful of stabilizers considered suitable by regulators for indirect food contact, thanks to its low toxicity profile and extensive migration testing.
Additives such as BHT or other mono-phenols can fight oxidation, but often fall short in high-temperature production. Thioesters like DSTDP or DLTDP resist color change but are more specialized, priced higher, and tend to pair with phenols rather than replace them. An advantage of CHINOX 1076 comes from its broader processing range, making it less likely for manufacturers to juggle multiple additives to cover all their needs.
Pressures on plastic and rubber products have never been higher. Industries want things that last, look good, remain safe, and leave the smallest mark on the environment. Polymers play a role in many areas of daily life, from medical devices and phone cases to fiber optics and interstate highway construction. The road to sustainability starts long before recycling—it begins with how durable a product stays throughout its life. Better antioxidants reduce the need for frequent replacement, waste, and scrap.
In the push to eliminate phthalates, heavy metals, and other suspect additives, stabilizers like CHINOX 1076 move to the head of the pack. I’ve worked on projects where European and North American regulators updated standards almost yearly. Each change brought new requirements around extractable content, leaching risk, and possible migration into food or skin. Supply lines chose antioxidant solutions that already met tough international criteria, not just for today’s laws but for those likely to come. CHINOX 1076 fits this forward-thinking approach because it’s known, tested, and rarely flagged for compliance-related recalls.
Processing aids that clump, degrade quickly, or cause discoloration can grind production lines to a halt. In one plastics molding facility, I witnessed hours lost to blocked filters and cloudy batches traced back to incompatible additives. CHINOX 1076’s molecular structure keeps it from gumming up equipment and lets it blend smoothly with base resins. This holds true at both masterbatch and finished product stages. Down the line, fewer stoppages means happier operators, better throughput, and lower maintenance spending.
Its powder or compacted flake forms pour easily, reducing airborne dust and improving worker safety. Since it resists melting into sticky masses during humid transport or storage, losses from caking are rare. Over time, the difference between a plant running full tilt and one fighting ingredient headaches comes down to details like these.
For anyone unfamiliar with the chemical underpinnings, the issue comes down to free radicals—tiny fragments formed by heat, light, or stress that rip apart polymer chains. Once the process begins, it snowballs, leading to brittleness, yellowing, or mechanical failure. CHINOX 1076’s molecular ‘hinderance’ refers to large side groups on its phenol backbone. These act as shields, letting it absorb and neutralize radicals without itself breaking down quickly.
The longer these antioxidants persist in the plastic matrix, the longer the product stays fresh, strong, and attractive. Instead of fighting symptoms—cracks, haze, or odor—quality antioxidants like CHINOX 1076 tackle the root cause at the microscopic level. This stops cascading failures, making it easier for end users to trust their packaging, wires, hoses, or car trims well beyond the warranty period.
Producers and buyers sometimes talk about additives as if simply buying the right chemical answers every problem. Having sat through audit after audit, I know even the strongest antioxidant can fall short if supply isn’t consistent or if purity slips. Reputable CHINOX 1076 supplies show tight quality control—often with certificates that back up batch-to-batch uniformity. This isn’t marketing fluff. It means each shipment stands a higher chance of offering the same protective benefit, translating to less risk for companies who can’t afford variable performance across markets.
Some manufacturers cut corners, producing antioxidants from recycled streams or with high byproduct loads. These may include unwanted impurities that color plastics or produce odd smells at elevated temperatures. Buying from a trusted supplier of CHINOX 1076 often means fewer product returns, less reputation damage, and an easier time passing third-party safety checks.
Legislation around chemical use grows tighter each year. Customers now ask for product sheets showing compliance with REACH, RoHS, FDA’s indirect food contact regulations, and similar rules set by China, Japan, and Brazil. CHINOX 1076 clears these hurdles, due in part to its chemical stability and lack of persistent, bioaccumulative characteristics. It resists leaching even in boiling water and under sunlight, which matters in food packaging or outdoor rubber parts.
These developments are close to my heart. A decade ago, developing new food packaging for a global drinks brand, we saw how a single violation could bar entry to lucrative markets. An antioxidant with a poor safety record would have meant delays, redesigns, or lawsuit risk. With solutions like CHINOX 1076, brands sidestep these traps, knowing regulators have deeply reviewed migration, breakdown pathways, and occupational exposure data. This trust lets brand owners sleep at night—and puts consumer health and environmental care at the center of production.
Many industries build specification lists around real-life problems and customer complaints, not marketing slogans. In cable and wire applications, CHINOX 1076 keeps insulation intact through years of voltage surges and changing weather. One major appliance manufacturer switched to a blend containing this antioxidant and measured improved gloss retention, fewer cracks, and a notable drop in production waste.
The automotive sector deals with intense pressure to minimize in-cabin dust, odors, and surface wear. Interior trims made with CHINOX 1076 often prove more resistant to softening or color change, especially after extended sun exposure. Footwear makers, increasingly wary of consumer health concerns, pick polymers stabilized with CHINOX 1076 for the same reason—they stand up to sweat, heat, and repeated flexing while staying safe for skin contact.
Medical device companies have their own set of worries. Devices may need to be sterilized using gamma irradiation or high heat, both of which hammer plastics. CHINOX 1076 remains stable under these conditions, avoiding the creation of toxic breakdown products. This checks boxes for both patient safety and regulatory documentation.
Even leading solutions face pushback on cost. There are always cheaper antioxidants, some offering protection only for a few months. Some buyers facing shrinking budgets try to cut corners by reducing additive amounts or choosing less proven blends. In my consulting work, I’ve seen the long-term consequences turn up as warranties run out early, end-users lose faith, and brands suffer.
Polymer chemists sometimes blend CHINOX 1076 with phosphites or thioesters for even stronger results—creating ‘synergistic’ combinations that tackle both the free radical and hydroperoxide stages of polymer degradation. But the underlying message is clear: start with a reliable base, and improvements follow.
Innovation keeps moving. The rise of bioplastics or new recycling methods invites new demands for antioxidants that match different chemical backbones. As these trends take off, manufacturers should test each combination, drawing on the proven track record of CHINOX 1076 as a benchmark when evaluating newer or “greener” solutions.
Balancing the demands of price, performance, and compliance sits at the core of every purchasing decision. My advice: weigh the up-front savings of cheaper alternatives against the likelihood of greater waste, warranty claims, and reputational costs. Build long-term supply partnerships with producers that prove transparency and batch uniformity.
On the technical side, regular audits—both in-house and using third-party labs—rule out problems with dosage, mixing, or potential contamination. Supporting this with documentation ensures that everyone from procurement to sales stands ready to defend product stability claims with evidence.
With sustainability and recycling on the rise, designers and engineers can start looking for ways to enhance recyclability by choosing antioxidants that don’t produce persistent, toxic byproducts after multiple cycles. CHINOX 1076’s well-studied breakdown pathways make it a safer bet, though research continues into next-generation additives for tomorrow’s ‘closed loop’ applications.
Antioxidants like CHINOX 1076 seem invisible compared to colorants or fillers, but their punches land hard in the real world. From preserving looks in packaging to preventing catastrophic failure in power cables, one small ingredient often defines a product’s reputation. As regulations shift and consumer awareness rises, picking additives that have stood up to the toughest test—real consumer use over years, and across continents—delivers lasting value.
Modern business has little room for short cuts or false economies. The right antioxidant in the right polymer makes all the difference between being remembered for reliability and scrambling to explain costly mistakes. CHINOX 1076 continues to earn attention from industry veterans not just for what it does on paper, but for what it prevents across the product’s lifetime and what it makes possible in the stories of growth, customer trust, and technical progress.
The role of an additive like CHINOX 1076 extends well beyond slowing oxidation. Its presence empowers designers, engineers, and procurement teams to specify products that serve people better and stand up longer. By focusing on evidence, performance history, and compliance peace of mind, companies lay down the foundation for safer, smarter, and more sustainable products. Time and again, in the plastics and rubber world, building that trust is what truly keeps the wheels turning—both in factories, and in the minds of customers who rely upon them.
