PRODUCTS
PLA Marble Masterbatch is a specialized color concentrate used to impart a realistic stone-like pattern (veining/swirling) onto PLA (Polylactic Acid) resin during processing. It combines pigmented carrier resins compatible with PLA. Added at low ratios (typically 1-5%) directly to the base PLA before molding or extrusion, the masterbatch disperses under controlled shear, creating unique, non-repeating marble effects. It enhances the aesthetic appeal of PLA products, mimicking materials like granite or marble while maintaining PLA's core biodegradability/compostability credentials. Key applications include premium packaging, tableware, decorative items, and consumer goods seeking a natural, high-end finish without compromising the bioplastic's environmental profile. It simplifies achieving complex visual effects in eco-friendly products.
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ABS Color Masterbatch for Helmets
ABS color masterbatch for helmets delivers vibrant, uniform coloration while maintaining critical material properties. Specifically engineered for acrylonitrile butadiene styrene (ABS) polymers, these pigment concentrates ensure excellent dispersion during compounding and injection molding processes.
Key functional benefits include:
Enhanced Safety Compliance: Maintains helmet material integrity and impact resistance standards.
Superior Weather Resistance: Provides UV stability against fading and protects against environmental degradation.
Process Efficiency: Improves melt flow for smoother molding and reduces production waste.
Design Flexibility: Enables precise color matching and consistent batch-to-batch quality for branding.
This masterbatch solution is essential for producing durable, aesthetically reliable protective helmets meeting stringent performance and visual requirements.
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PLA Wood Fiber Modified Materials for 3D Print Furniture
PLA wood fiber modified materials offer a sustainable solution for 3D-printed furniture by combining biodegradable polylactic acid (PLA) with wood fibers. This hybrid material enhances mechanical properties, such as tensile strength and impact resistance, while retaining eco-friendly attributes. Wood fibers improve PLA’s thermal stability and reduce shrinkage during printing, ensuring dimensional accuracy for furniture components. The natural wood-like texture and appearance appeal to design-focused applications. Optimal fiber content (15–25%) balances printability and structural performance. Compared to conventional plastics, PLA-wood composites reduce carbon footprint and enable waste-free customization via additive manufacturing. This innovation aligns with circular economy principles, making it ideal for eco-conscious furniture production.
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PLA Bamboo Fiber Modified Materials for 3D Print Furniture
PLA bamboo fiber modified materials represent an eco-friendly innovation for 3D-printed furniture. By blending biodegradable polylactic acid (PLA) with natural bamboo fibers, this composite enhances mechanical strength, thermal stability, and texture while maintaining sustainability. The bamboo fibers act as a renewable reinforcement, reducing PLA’s brittleness and improving load-bearing capacity—ideal for furniture applications. 3D printing allows intricate, customizable designs with minimal waste. This material combination also offers a wood-like aesthetic, appealing to eco-conscious consumers. Research shows optimal fiber ratios (10–30%) balance durability and printability. As a low-carbon alternative to traditional plastics, PLA-bamboo composites align with circular economy goals, making them promising for future sustainable furniture production.
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Color Masterbatch for HIPS GPPS
Color masterbatches for GPPS (General Purpose Polystyrene) and HIPS (High Impact Polystyrene) provide precise, consistent coloration for these widely used styrenics. Key considerations include:
Low-Processing Temperature Compatibility: Must disperse effectively and color uniformly at typical GPPS/HIPS processing temps (180-250°C) without degradation or causing plate-out.
Optical Integrity (GPPS): Especially critical for transparent/translucent GPPS applications; pigments must avoid haze or clarity loss.
Impact Modifier Compatibility (HIPS): Must not interfere with HIPS's rubber toughening system or negatively affect mechanical properties.
Solvent/Migration Resistance: Essential for applications like food packaging, electronics, or medical parts exposed to chemicals.
Electrical Neutrality: Critical for components requiring specific dielectric properties. Excellent dispersion ensures aesthetic quality and performance.
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PP Color Masterbatch Food Grade
PP Color Masterbatch
It is a concentrated pigment mixture in a polypropylene (PP) carrier resin, designed for uniform coloration of PP-based products.
The masterbatch ensures excellent dispersion and heat resistance, leveraging PP's thermal stability up to high processing temperatures.
Key applications include wire insulation and packaging materials, where it enhances aesthetics without compromising durability.
Advantages include compatibility with PP's mechanical strength and chemical resistance for long-lasting performance.
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XLPO Color Masterbatch for Wires
XLPO (Cross-Linked Polyolefin) color masterbatch delivers vivid, durable coloration for wires and cables insulated with cross-linked polyolefin blends. Added during extrusion, it must withstand high processing and crosslinking temperatures (commonly peroxide-induced or silane-cured) without degradation. Essential properties include:
Exceptional Thermal Stability: Resists temperatures exceeding those of standard XLPE, often >250°C during curing/service.
Perfect Compatibility & Fusion: Seamlessly integrates with diverse XLPO base resins (PE, EVA, EBA blends).
Superior Dispersion: Ensures flawless color uniformity without compromising insulation integrity.
Electrical Integrity: Must not degrade the XLPO's critical dielectric strength and insulation resistance.
Long-Term Durability: Provides UV, weather, and chemical resistance for harsh environments like automotive (EV cables) or industrial applications.
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XLPE Color Masterbatch for Wires
XLPE (Cross-Linked Polyethylene) color masterbatch is a concentrated mixture of pigments/dispersants within a specialized XLPE-compatible carrier resin. It's added during wire/cable extrusion to impart consistent, durable coloration to the insulation or jacketing layer. Key requirements include:
High Thermal Stability: Must withstand XLPE processing temperatures and the crosslinking step (often peroxide-induced or steam cure).
Excellent Dispersion: Ensures uniform color without defects impacting insulation integrity.
Compatibility: Carrier resin must fuse seamlessly with the base XLPE compound.
Electrical Properties: Must not significantly degrade XLPE's crucial dielectric strength and insulation resistance.
Light & Weather Fastness: Colors must resist fading from UV exposure and environmental factors over the cable's lifespan. Masterbatches ensure identification, branding, and safety compliance (e.g., phase coding).
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PE Color Masterbatch is a concentrated pigment mixture tailored for coloring polyethylene (PE) polymers. It combines a PE-compatible carrier resin, high-grade pigments, and additives to ensure uniform dispersion during processing. Suitable for blow molding, injection molding, film extrusion, and rotational molding, it delivers vivid, consistent colors while retaining PE’s properties like flexibility, chemical resistance, and durability. Customizable formulations can improve UV stability, anti-blocking, or antimicrobial features. Widely used in packaging, pipes, containers, and household products, PE masterbatch offers cost-effective, sustainable coloring solutions. Its optimized formulation adapts to PE’s processing temperatures (160–260°C), ensuring stability, minimal waste, and compatibility with both LDPE and HDPE grades for versatile industrial and consumer applications.
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ABS Color Masterbatch is a concentrated pigment blend designed to color Acrylonitrile Butadiene Styrene (ABS) polymers. Composed of an ABS-compatible carrier resin, high-quality pigments, and additives, it ensures even dispersion during processing. Suitable for injection molding, extrusion, and blow molding, it delivers vibrant, consistent colors while preserving ABS’s mechanical properties, such as impact resistance, rigidity, and thermal stability. Customizable formulations can enhance UV resistance, flame retardancy, or anti-static performance. Widely used in automotive parts, electronics housings, toys, and appliances, ABS masterbatch offers cost-efficient, eco-friendly coloring. Its precise formulation withstands ABS’s processing temperatures (200–240°C), ensuring stability and compatibility, reducing waste, and meeting demands for aesthetics and functionality in high-performance applications.
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PA6 Color Masterbatch is a concentrated pigment formulation used to color polyamide 6 (PA6/Nylon 6) polymers. Comprising a PA6-compatible carrier resin, high-performance pigments, and optional additives, it ensures uniform dispersion during processing. Ideal for injection molding, extrusion, and fiber spinning, it delivers vibrant, consistent hues while maintaining PA6’s mechanical properties like strength, thermal stability, and chemical resistance. Customizable for specific applications, it enhances UV resistance, durability, and processing efficiency. Widely used in automotive components, textiles, industrial parts, and consumer goods, PA6 masterbatch offers cost-effective, eco-friendly coloring solutions. Its precise formulation minimizes waste and ensures compatibility with PA6’s high melting point (~220°C), making it a reliable choice for demanding applications.
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TPE (Thermoplastic Elastomer) color masterbatch is a concentrated blend of pigments, additives, and a TPE-compatible carrier resin, used to impart precise, vibrant colors to TPE products. Combining thermoplastic processability with elastomeric flexibility, TPEs require specialized coloring solutions. The masterbatch ensures uniform dispersion, enhancing color consistency while maintaining mechanical properties like elasticity and durability. It simplifies processing via injection molding, extrusion, or blow molding, reducing equipment cleanup and material waste. Ideal for automotive components, consumer goods, medical devices, and packaging, it offers customization in hues and concentrations. Environmentally friendly, it supports recyclability and complies with low-VOC standards, balancing aesthetics with performance and sustainability.
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