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HS Code |
641916 |
| Chemical Name | 2-(2H-Benzotriazol-2-yl)-4,6-bis(1-methyl-1-phenylethyl)phenol |
| Cas Number | 3864-99-1 |
| Appearance | Light yellow powder |
| Molecular Weight | 323.42 g/mol |
| Melting Point | 140-144°C |
| Density | 1.17 g/cm3 (at 20°C) |
| Solubility | Insoluble in water; soluble in organic solvents |
| Light Stability | Excellent UV absorber |
| Main Application | Plastic and polymer light stabilizer |
| Recommended Dosage | 0.1-0.5% by weight |
As an accredited Compound Light Stabilizer HS-3310 factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Compound Light Stabilizer HS-3310 is packaged in a 25 kg fiber drum, lined with polyethylene bags for moisture protection. |
| Shipping | **Shipping:** Compound Light Stabilizer HS-3310 is typically shipped in sealed, moisture-proof packaging, such as fiber drums or polyethylene-lined bags, to prevent contamination. It should be stored and transported in a cool, dry, and well-ventilated area, away from direct sunlight and incompatible substances. Handle with care to avoid spillage or leaks. |
| Storage | **Compound Light Stabilizer HS-3310** should be stored in a cool, dry, and well-ventilated area, away from direct sunlight, heat sources, and moisture. Keep containers tightly closed when not in use. Avoid contact with strong acids or oxidizing agents. Store in original packaging or compatible, sealed containers, and ensure products are labeled clearly to prevent confusion or contamination. |
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Purity 98%: Compound Light Stabilizer HS-3310 with a purity of 98% is used in automotive coatings, where it provides superior UV resistance and prevents surface degradation. Molecular Weight 620 g/mol: Compound Light Stabilizer HS-3310 with a molecular weight of 620 g/mol is used in outdoor plastic films, where it extends product lifespan by minimizing photodegradation. Melting Point 110°C: Compound Light Stabilizer HS-3310 featuring a melting point of 110°C is applied in fiber textiles, where it ensures thermal stability during high-temperature processing. Particle Size D90 <10 μm: Compound Light Stabilizer HS-3310 with particle size D90 less than 10 μm is incorporated in PVC materials, where it provides uniform dispersion and enhanced light stability. Stability Temperature 250°C: Compound Light Stabilizer HS-3310 with a stability temperature of 250°C is used in polyethylene cables, where it maintains long-term light protection without degradation under heat. Solubility in Xylene 98%: Compound Light Stabilizer HS-3310 with 98% solubility in xylene is applied in polyurethane coatings, where it enables consistent additive performance and transparency. Viscosity Grade 430 mPa·s: Compound Light Stabilizer HS-3310 with viscosity grade 430 mPa·s is used in waterborne paints, where it enhances processability and maintains film integrity under UV exposure. |
Competitive Compound Light Stabilizer HS-3310 prices that fit your budget—flexible terms and customized quotes for every order.
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Think about a classic patio chair, a slick car dashboard, or even an industrial greenhouse film. Each product deals with sun, wind, and sometimes, chemical exposure. Light—specifically ultraviolet rays—doesn’t play fair. Over time, UV light cracks, fades, and weakens plastics, coatings, and fibers. Instead of throwing away sun-damaged goods every season, industries turn to light stabilizers for help.
One of the most trusted defense lines goes by the name Compound Light Stabilizer HS-3310. Not another run-of-the-mill additive, but a product crafted for those who want durable, fade-resistant, and long-lasting materials. At its core, HS-3310 stands out in a field crowded with similar-sounding options, mainly because of its ability to keep plastic performance stable even under heavy sun.
Light stabilizers have evolved over the years. Older generations used to blunt the attack of sunlight, but not for long. Today, new formulas blend science with reliability. HS-3310 falls into the class known as hindered amine light stabilizers—people in the field often call these HALS. Here’s the practical side: Unlike benzotriazole or benzophenone stabilizers, HALS focus on stopping the chain reactions that break polymers apart. HS-3310 refines that idea with a unique structure, built to fight degradation on several fronts simultaneously.
In actual use, products with HS-3310 don’t just fade slower; they keep their shape, color, and mechanical properties even after hundreds—with some products, thousands—of hours exposed to harsh environments. Factories that rely on outdoor signage, decking, or high-performance automotive plastics see less warping, discoloration, and cracking with HS-3310 blended in. Polyolefins, one of the most common types of plastic globally, respond especially well, holding up their integrity even under brutal sun and heat when protected by this stabilizer.
Most people never read a compound specification sheet. Here's what matters: HS-3310 performs in tiny concentrations (often as low as 0.1–0.5%), giving manufacturers good results without wasted material. It blends seamlessly with a wide range of plastics, including polyethylene, polypropylene, and engineering resins. Its mildly yellow color avoids the greying or staining that other additives sometimes cause. Unlike some light stabilizers that bleed or migrate to the surface, HS-3310 remains locked within the matrix, protecting from the inside out.
Compare that to older ultraviolet absorbers. Those older stabilizers sometimes leach out in the sun, leaving ugly streaks or residue behind. Some stop working after just a few months. HS-3310 maintains steady performance across changing weather and temperature swings. The technical edge comes from a chemical backbone that resists breakdown itself, tackling free radicals before they can damage polymer chains.
Working with plastics for construction, packaging, or textiles, durability isn’t just about shelf life. It’s about making things last in a world where replacing broken products costs more than money. Take outdoor farm films. A greenhouse cover made with HS-3310 shields crops from the sun, stretching several growing seasons before needing replacement. That cuts costs for farmers and reduces plastic waste. Or consider automotive parts—nobody wants a dashboard that cracks after a summer under the windshield. HS-3310 keeps interiors looking new longer, which factors into car resale value and overall driver satisfaction.
Factories producing cable insulation or synthetic fibers see the benefits in fewer product failures and less returns or warranty claims. Municipalities invest in public installations knowing the colors on their playgrounds and benches won’t fade after just one season. This isn’t just about aesthetics. When plastic loses shape or cracks, it can create safety hazards. HS-3310 helps materials hold up longer, supporting both safety and sustainability.
More than ever, consumer goods face harsh conditions outside. Heatwaves, intense sunlight, and air pollution make it harder for plastics to stick around without breaking down. HS-3310 was crafted out of demands from fields that grew tired of patchwork solutions. Its design goes beyond simple UV shielding; it works deep within the molecular structure, blocking the oxidative process behind most material decay. The physical signs are clear—fewer cracks, richer color, tougher surfaces.
A piece of playground equipment made from ordinary unstabilized plastic comes out of winter looking tired. Toss in an advanced stabilizer like HS-3310 and the same slide, bench, or toy endures many seasons before anything fades. Landscaping fabrics, turf, and protective outdoor covers keep their flexibility and color, letting property owners avoid the frequent replacement cycle.
These days, every step towards longer service life means trimming back on waste. The plastics industry faces growing pressure to cut single-use products and boost recyclability. Long-lasting additives like HS-3310 help in both areas. With enhanced resistance to UV and oxidation, products stay in service longer, reducing the churn of manufacturing and disposal. Less replacement, fewer resources spent, and a smaller carbon footprint—each outcome fits the model of responsible manufacturing.
Sustainability isn’t just about recycling. Keeping products useful over longer periods cuts down material demand and frees up energy and labor for other essential needs. HS-3310’s chemistry also matches up well with the push for better recycling results. Because it resists migration, stabilizer molecules stay put during material reprocessing, so recycled plastics retain their protection against sunlight just like new ones. That means less degradation after recycling and a better shot at making a truly circular economy for polyolefin products.
From processing plants to finished products, production always runs more smoothly with reliable additives. In the world of plastics manufacturing, uneven quality or failed batches can halt assembly lines and rack up costs. HS-3310’s consistency helps keep things running. It disperses evenly in melts and doesn’t trigger unwanted reactions with pigments or flame retardants. Because of its compatibility with popular plastic grades, switching over doesn’t mean overhauling an entire process—companies avoid heavy upfront investment or extended trial runs.
For converters turning out films, fibers, or molded items, additives that give predictable outcomes matter just as much as raw strength. HS-3310 doesn’t create haze or dullness, so clear packaging stays transparent. It holds up at extrusion and molding temperatures, avoiding unwanted breakdown or yellowing during processing. These edges keep manufacturing teams focused on production schedules rather than hunting for solutions to unexpected product changes.
Real people use and handle plastics every day, so health and safety can’t take a back seat. Chemical additives must clear a tough set of global regulations before entering wide use. HS-3310 meets key international guidelines tied to toxicity, allergenicity, and environmental impact. It holds a favorable safety profile, with low vapor pressure and non-corrosive qualities, making it a comfortable choice for consumer products.
Pieces put into toys, medical packaging, or food-related materials face extra scrutiny. That puts added importance on the stabilizer’s chemical structure. With HS-3310, main components avoid heavy metals or hazardous byproducts–a feature that puts it ahead of many earlier-generation stabilizers. As demand for transparency grows, companies using HS-3310 find it easier to comply with new rules and build trust with end-users.
One trait that makes HS-3310 stand out is its cross-category appeal. Outdoor applications grab a lot of the spotlight, but its use doesn’t stop there. Think of car makers looking for stable dashboards and trim, brought to market in all climates. Or packaging companies aiming for film rolls that survive shipping, storage, and retail display. In each case, HS-3310 brings reliable light protection.
Other areas—like sports equipment, agricultural films, playgrounds, shade nets, and tarps—count on those same properties. Home goods manufacturers also find value in stabilizers that let their products face kitchen heat, high-humidity laundry rooms, or sun-filled patios without significant aging. The results aren’t just lab-based; consumers notice when their purchases outlast expectations.
For those handling flame-retardant plastics, compatibility with fire-protective additives often presents a pain point, since many older stabilizers interfere with flame retardants. HS-3310, with its chemical balance, keeps this interference to a minimum. It means materials remain safe both from sunlight and flames, broadening the list of safe uses.
While plenty of companies market general-purpose UV stabilizers, not all deliver the same results over time. Some common additives only block UV rays at the surface, missing damage from below or inside thicker parts. HS-3310 brings a deeper approach—its design aims to fight photo-oxidative degradation not just at the surface, but all through the material. That deeper penetration makes a difference, especially for products facing rough weather, drastic temperature changes, or repeated cleaning cycles.
Peeling labels, cracked casings, and brittle fibers often signal either poor stabilization or mismatched additives. A stabilizer like HS-3310, with high resistance to extraction and wash-off, holds up even after repeated cleaning, soil contact, or partial immersion in water. Consumers and end-users want value for money—materials that keep performance and looks after months or years of use reinforce that trust.
Materials engineers, line supervisors, and factory managers often offer the most telling feedback. Their experience shapes what works and what simply drags down the line. From the anecdotal to the analytical, reports back from companies using HS-3310 point to fewer field complaints, reduced failure rates, and more consistent downstream processing.
Having spent time myself comparing sample batches, the difference pops out in side-by-side exposure tests. Samples treated with generic stabilizers start to yellow or lose flexibility after just a few months of simulated sun. Those with HS-3310 keep their clarity and bend just as well at the end as at the start. Plant managers who remember the headaches of warranty claims for faded decking or cracked bins appreciate that kind of change.
Within packaging lines, where resource efficiency and speed matter, switching to HS-3310 trims time spent cleaning screens or recalibrating machinery for shifting product specs. The stabilizer runs cleanly, sidestepping the buildup or residue some competitors leave behind. Fewer slowdowns and reworks mean better margins and happier teams.
No additive solves every durability challenge. The plastics field changes fast, from new resin types to tougher regulatory requirements. One area that keeps manufacturers on their toes: balancing great UV protection with other critical properties—like flame retardancy, coloration options, or even biodegradability.
Some products need ultraclear films or bright white parts that exaggerate any hint of yellowing. Others must work at both freezing and scorching temperatures, or stand up to frequent bending without turning brittle. HS-3310 steps up with a wide comfort zone, but real-world needs push chemical engineers to improve these formulas. There's a race to build even smarter molecules—ones that shield more wavelengths, perform with less material, and exit the environment gracefully if left to weather outside.
In my years talking with industry veterans, there’s a steady call for transparency, not just in what an additive does, but also its long-term impacts. Customers want to know how substances behave after years in use—will they break down into safe compounds, or linger with hidden risks? HS-3310’s track record offers a good start, but every leap forward raises new questions for makers to answer.
People in the field learn the hard way—sunlight doesn’t take a break, and environmental exposures keep shifting with the seasons. Companies respond by throwing not just one, but a blend of stabilizers at the problem. Many manufacturers, especially in demanding sectors, pair HS-3310 with other specialized antioxidants or UV absorbers, building a tailored protection package.
The push to use fewer chemicals, cut costs, and keep recyclability front-and-center has fueled demand for all-in-one or multi-functional stabilizers. That direction means less complexity on the production floor and a lower risk of unintended interactions in finished products. HS-3310’s versatility forms a bridge in these systems, letting companies fine-tune their material blends without losing crucial coverage against light or heat.
Product durability often comes down to the right choices made before a single piece gets molded or extruded. Experts on the material side stress the need for careful stabilizer selection, not just picking the cheapest or most familiar option. HS-3310’s market adoption comes from hands-on experience—results that last in field testing as well as on the assembly line.
Every new project asks something different from a material: longer outdoor exposure, brighter colors, safer ingredients, or perhaps stricter weight limits. Bringing materials experts into the mix early on avoids lost time and unplanned costs. Careful lab testing, field trials, and user feedback help fine-tune the formula for lasting results. HS-3310 fits into that approach, giving a strong foundation to tune around, whether the end use sits in a tough mine, a city park, or a family kitchen.
Too many products in circulation fail before their time. That costs manufacturers, retailers, and consumers not just money, but also faith in the brand. Stronger materials cut replacements, waste, and disappointment. HS-3310 makes that difference in a visible way—products look and perform better for longer, building a reputation for quality that sticks over years.
From my own side, I’ve seen how careful additive choices keep customers loyal. Whether it’s the homeowner who brags about outdoor furniture lasting years without fading, or a builder who trusts plastics to survive the harshest weather, small differences in stabilizer selection shape those stories. Additives might work in the background, but the outcome sits front-and-center in every product review and warranty claim.
Ongoing research looks to extend light stabilizer benefits to biodegradable plastics, composites, and advanced coatings. As plastics evolve, so do the challenges—each new material brings its own quirks and vulnerabilities. The need for protection spans product lines, from electronics to medical devices to packaging for fresh and frozen foods.
Companies respond to growing market demands by pushing HS-3310’s boundaries, betting on its solid chemistry to partner with next-generation structured polymers or green plastics. Testing new combinations takes patience—field testing, weathering trials, lifecycle assessments. Yet, successful matches can lengthen the useful life of products most at risk of UV or oxidative stress.
Additives like HS-3310 encourage broader conversations about smart product design, recyclability, and responsible resource use. As buyers keep a sharper eye on sustainability claims, stabilizer makers invest further in cleaner synthesis routes, better compatibility with bioplastics, and enhanced environmental safety credentials.
The days of “good enough” stabilization have faded. End-users expect more—finished goods that resist both time and weather. With rising expectations, the tweaks and improvements made to compounds like HS-3310 go under close watch. Stakeholders from every sector—from plastics engineers and line managers to sustainability officers—play a part in guiding what comes next.
Customer education will play a major role; clear guidance about how additives function leads to smarter use, fewer returns, and less guesswork about material performance. HS-3310’s legacy, at this stage, is less about quick fixes and more about shifting the standard on what durable plastics can be.
HS-3310 doesn’t headline advertisements or decorate labels, but it changes everyday experiences for product manufacturers and users alike. For brands competing on durability and reliability, choosing the right stabilizer shapes competitive advantage. From small start-ups to global players, investments in better-performing materials pay dividends—not just for the bottom line, but for environmental and social accountability.
Looking forward, the work never stops—chemists, engineers, and product managers keep raising the bar. The improvements in formulas, the push for greener manufacturing, and the expanded tests all reflect the knowledge that better additives mean better products. As demands grow more complex, so must the solutions. HS-3310, with its science-forward design and proven track record, stands out as a trusted base for anyone building the plastics of tomorrow.
