PRODUCTS
Additive Masterbatch
Glow in Dark Additive Masterbatch
Glow in the dark masterbatch is a specialized additive used in plastic manufacturing to create luminescent products. It contains phosphorescent pigments, typically strontium aluminate, which absorb and store light energy, then emit a soft glow in darkness. This masterbatch is mixed with base polymers like PP, PE, PLA, PETG, or ABS during injection molding or extrusion.
Key applications include safety signs, toys, watch dials, and decorative items. The glow duration and intensity depend on pigment concentration and light exposure time. It's non-toxic, durable, and rechargeable under UV or sunlight. Manufacturers value its ease of processing and consistent dispersion. This innovative material combines functionality with aesthetic appeal for nighttime visibility solutions.
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Laser Marking Additives
Specialized compounds (e.g., bismuth-based agents, metal oxides) integrated into plastics (0.5–5% loading) to enable high-contrast, permanent markings when exposed to laser energy (e.g., CO₂/fiber lasers).
Technical Mechanism
Generate localized thermal reactions (carbonization/foaming) on polymer surfaces, creating crisp, wear-resistant patterns without damaging substrates.
Compatible with engineering resins (PA, PBT, PC) and polyolefins, maintaining base polymer properties.
Key Advantages
Precision: Achieves micron-level detail for barcodes, logos, and serial numbers.
Eco-Efficiency: Solvent-free process vs. traditional ink printing.
Durability: Resists chemicals, abrasion, and UV fading.
Primary Applications
Automotive part traceability (VIN tags, fluid reservoirs).
Medical device labeling (surgical tools, implants).
Electronics (3D circuit boards, semiconductor packaging).
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Light Diffusion Additive Masterbatch
Concentrated polymer carriers (PC, PMMA, PS) infused with 5–25% micron-scale light-scattering particles (e.g., silica, acrylic, or silicone spheres). Engineered to uniformly diffuse LED/display light while maintaining high transmission (>85%)14.
Technical Function
Controlled Haze: Adjustable diffusion (10–95% haze) via particle size (2–20μm) and loading.
Minimal Absorption: Optimized refractive index mismatch maximizes brightness with <3% luminance loss.
Critical Advantages
Thermal Stability: Withstands 240–300°C processing (injection molding, extrusion).
Mechanical Integrity: Preserves base resin strength (impact resistance ±8%).
Surface Quality: Prevents speckling/defects; non-migrating formulation.
Applications & Performance
LED Lighting: Covers, lenses, panels (eliminates hotspots; Glow Uniformity >92%).
Electronics: LCD backlight units, touchscreens, automotive displays.
Dosage: 1–7% (films), 3–10% (thick sections).
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Anti Static Additive Masterbatch
PE Anti-Static Additive Masterbatch
Concentrated masterbatch incorporating 15-40% specialized anti-static agents (e.g., ethoxylated amines, glycerol esters) into PE carriers, designed to impart permanent or migratory static dissipation in films, packaging, and industrial parts. Achieves surface resistivity of 10⁸–10¹² Ω/sq.
Key Features
Rapid Charge Dissipation: Reduces static decay to <2 seconds (ESD-safe per ANSI/ESD S20.20).
Thermal Stability: Compatible with processing at 160–230°C without degradation.
Low Migration: Non-oily formulation prevents surface bloom or contamination4.
Technical Benefits
Prevents dust adhesion, spark risks, and equipment jamming.
Maintains clarity in transparent films (no haze).
Minimal impact on mechanical properties (tensile strength ±5%).
Applications & Dosage
Dosage: 2–5% in films, 5–10% in rigid parts.
Uses: FIBC bags, electronic packaging, automotive fuel tanks, conveyor components.
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Flame Retardant Additive Masterbatch
Flame Retardant Additive Masterbatch
Concentrated polymer carriers (e.g., PE, PP) loaded with 15–60% flame-retardant compounds, including halogen-free agents like aluminum trihydroxide (ATH) or synergistic phosphorus-nitrogen systems. These additives inhibit combustion by forming protective char layers and quenching free radicals during thermal exposure.
Key Mechanisms
Gas Phase Inhibition: Releases non-flammable gases (e.g., water vapor from ATH) to dilute oxygen.
Char Formation: Creates insulating carbon barriers that shield substrates from heat/flames.
Critical Performance
Achieves UL94 V-0/V-1 ratings in polyolefins and engineering plastics.
Thermal Stability: Processes at 180–260°C without decomposition.
Low Smoke Emission: Halogen-free variants reduce toxic fume generation.
Applications & Dosage
Dosage: 5–20% in cables, 10–30% in electrical enclosures.
Uses: Automotive connectors, building materials, electronic housings.
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Silk Effect Pellets For PLA 3D Print Filaments
Silk Effect Masterbatch for PLA
Concentrated additives blended with PLA resin to achieve metallic luster and smooth silk-like surfaces through micron-scale reflective particles (e.g., pearlescent/mica).
Core Mechanism
Light Manipulation: Particles create iridescence by refracting light at controlled angles.
Uniform Dispersion: Optimized carrier compatibility prevents nozzle clogging during printing.
Critical Properties
Aesthetics: Delivers >95% surface reflectivity with vibrant color transitions.
Printability: Processes at 195–220°C (bed: 50–60°C) with minimal warping.
Material Integrity: Retains PLA’s tensile strength (±5%) and layer adhesion.
Applications & Usage
Decorative Output: Figurines, luxury packaging, and artistic prototypes.
Functional Design: Fashion accessories, jewelry, and high-gloss consumer goods.
Dosage: 20–30% loading balances visual impact with filament stability.
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VCI Masterbatch
A concentrated polymer additive (typically PE/PP-based) containing 5–30% vapor corrosion inhibitors that release protective molecules to prevent metal oxidation.
Core Mechanism
Forms nanoscale protective films on metal surfaces through continuous vapor release.
Disrupts electrochemical corrosion by blocking moisture/oxygen contact.
Key Features
Compatibility: Works with PE, PP, PET, and engineering plastics.
Dosage: 2–4% blend ratio for films/bags; 5–20% for injection molds.
Eco-Safe: Halogen-free formulations comply with RoHS/REACH.
Applications
Packaging: Anti-rust films for automotive parts, electronics.
Industrial: Protective coatings for machinery and steel components.
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Fragrance masterbatch is a functional additive that imparts long-lasting scents to plastic products. It encapsulates micro-encapsulated fragrance oils within a polymer carrier (e.g., PP, PE), ensuring controlled release upon friction or heat exposure3. Ideal for automotive interiors, household items, and packaging, it offers customizable aromas (e.g., lavender, citrus) with stability up to 200°C during processing. The scent durability ranges from 6 months to 2 years, resistant to washing and UV degradation. Eco-friendly variants use biodegradable carriers, complying with FDA/REACH standards. Applications include scented trash bags, air freshener components, and toys.
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PP PE TPU ASA PA66 PC PBT Laser Marking Additive Masterbatch
Laser marking masterbatch is a functional additive that enables high-contrast, permanent markings on plastics (e.g., PP, ABS, PC) when exposed to laser beams. It contains metal oxides (e.g., TiO₂) or mineral pigments that react to laser energy, creating dark/light traces without damaging the material. Key features:
Precision: Supports fine details (≤0.1mm line width4) for barcodes, logos, or serial numbers.
Durability: Resistant to abrasion, chemicals, and UV exposure.
Eco-friendly: Halogen-free formulations comply with REACH/ROHS.
Widely used in electronics, automotive parts, and medical devices for traceability.
Dosage: 1-5% depending on substrate and laser type (fiber/CO₂).
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POM ABS PA6 Laser Marking Additive Masterbatch
Laser marking masterbatch is a specialized additive for plastics that enables high-contrast, permanent laser engraving. When exposed to laser beams, it reacts chemically to produce dark or colored marks without damaging the material. Compatible with PP, PE, ABS, and other polymers, it is widely used for product identification (barcodes, logos, serial numbers) in automotive, electronics, and packaging industries. Key advantages include eco-friendliness (no ink/chemicals), abrasion resistance, and high-speed marking. Typical dosage is 1–5% blended with base resin. Variations include black/white contrast types and halogen-free formulations for sensitive applications.
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PE Flame Retardant Masterbatch for Wires and Cables
PE Flame Retardant Masterbatch for Wires
PE flame retardant masterbatch is a concentrated additive blend designed to enhance the fire resistance of polyethylene (PE) used in wire and cable insulation. It incorporates flame-retardant agents—such as halogenated compounds, phosphorus-based systems, or mineral fillers like aluminum/magnesium hydroxides—which inhibit combustion by interrupting the fire cycle. When added during extrusion, the masterbatch disperses uniformly, ensuring consistent flame retardancy without compromising electrical or mechanical properties. It enables compliance with stringent safety standards (e.g., UL 94, IEC 60332) and reduces smoke/toxic gas emissions. Ideal for construction, automotive, and industrial cables, it offers efficient processing, cost savings, and reliable protection against fire hazards.
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