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  • Ulite Custom ABS Plastic Part Injection Molding PLA Moule En Plastique
  • Ulite Custom ABS Plastic Part Injection Molding PLA Moule En Plastique
  • Ulite Custom ABS Plastic Part Injection Molding PLA Moule En Plastique
  • Ulite Custom ABS Plastic Part Injection Molding PLA Moule En Plastique
  • Ulite Custom ABS Plastic Part Injection Molding PLA Moule En Plastique
  • Ulite Custom ABS Plastic Part Injection Molding PLA Moule En Plastique
Ulite Custom ABS Plastic Part Injection Molding PLA Moule En Plastique

Ulite Custom ABS Plastic Part Injection Molding PLA Moule En Plastique

  • 2 - 499 Pieces
    $1
  • 500 - 999 Pieces
    $0.50
  • >= 1000 Pieces
    $0.20

Customization:

Customized logo(Min.Order: 3000 pieces)
Customized packaging(Min.Order: 3000 pieces)
Graphic customization(Min.Order: 3000 pieces)
View product details

Ulite Custom ABS Plastic Part Injection Molding PLA Moule En Plastique

Product overview

Core functionalities

Applicable scenarios

Unique advantages

  • Custom Plastic Component Production: Enables high-precision injection molding of ABS and PLA plastic parts using multi-cavity molds, supporting simultaneous production of multiple components (e.g., bases, connectors, brackets).
  • Material Versatility: Compatible with polycarbonate, plastic, and advanced mold materials like H13 steel, P20, and NAK80, ensuring durability and precision for diverse applications.

Key features

  • 1. Material Technology

    • With H13 and SKD61 tool steel moulds, you can achieve long-lasting durability and corrosion resistance, outperforming traditional carbon steel moulds*.

  • 2. Performance Parameters

    • With a multi-cavity design, you can produce multiple parts simultaneously, increasing output by up to 30% compared to single-cavity moulds*.

  • 3. Certification Standards

    • With EPR certifications from Germany and France, plus RoHS compliance, you can meet strict environmental and safety regulations, surpassing non-certified alternatives*.

  • 4. Scenario Solutions

    • With customizable cavity configurations, you can tailor production to specific industries like automotive or medical devices, unlike standardized moulds*.

  • 5. Performance Parameters

    • With hot runner systems, you can reduce cycle times by 20%, enhancing efficiency over cold runner setups*.

  • Notes:

    • Material Technology: SKD61 steel’s corrosion resistance ensures longevity in harsh manufacturing environments.

Product details

Ulite Custom ABS Plastic Part Injection Molding PLA Moule En Plastique

Ulite Custom ABS Plastic Part Injection Molding PLA Mould offers high-precision, customizable plastic components for diverse industries. Built with advanced materials like H13, P20, and NAK80 steel, these molds ensure durability and repeatability. Certified to EPR (Germany/France), RoHS, and CE standards, they meet global regulatory requirements. Choose from hot/cold runners and polishing finishes to optimize your production needs.

Technical specifications

FeatureSpecificationApplication Scenario
MaterialPolycarbonate, plastic (customizable)Automotive, electronics, medical devices
Mould MaterialH13, P20, SKD61, NAK80 steel, or plasticHigh-temperature parts, corrosion-resistant components
CertificationsEPR_Germany_Packing, EPR_France_Packing, RoHS, CEExport compliance for EU markets
Runner SystemHot runner (20% faster cycle times) or cold runnerHigh-volume production vs. cost-effective setups
Shaping ModePlastic injection mouldingMass production of complex plastic parts
FinishPolished surfaceAesthetic or high-gloss applications

Customization guide

Adjust mould material (e.g., NAK80 for high precision, H13 for high-temperature use) or runner type (hot runners for faster cycles) to meet specific production demands. Cavities can be customized to scale output (e.g., multi-cavity molds for simultaneous part production).

Get inspired

With Ulite’s injection molding solutions, you can produce intricate automotive components, durable medical devices, or precise electronic parts. The hot runner system reduces material waste, while polished finishes ensure premium aesthetics. For example, the angular black bracket (pictured) demonstrates the mold’s capability to shape complex geometries for industrial applications.

Choose your model

ParameterBase Model (P20 Steel)Advanced Model (SKD61 Steel)Pro Model (H13/NAK80 Steel)
DurabilityModerate wear resistance20% higher toughness40%+ longevity
Temperature RangeUp to 180°CUp to 220°C250°C+ (harsh environments)
Precision Tolerance±0.1mm±0.05mm±0.02mm (medical-grade)
Cycle TimeStandard15% faster30% faster*

Supplier's note

  1. Technical Breakthroughs:

    • Certifications: Compliance with EPR and RoHS ensures global market access.
    • Material Flexibility: NAK80 steel enables ultra-precise medical-grade parts.
    • Hot Runner Efficiency: Reduces cycle times by 20%, lowering production costs.

  2. Optimal Version Selection:

    • Base Model: Ideal for SMEs needing cost-effective molds for standard automotive or consumer goods.
    • Advanced Model: Suited for mid-volume production requiring corrosion resistance (e.g., marine parts).
    • Pro Model: Best for high-temperature or precision-critical applications (e.g., aerospace or medical devices).

With the Pro version’s 250°C+ tolerance and ±0.02mm precision, you can safely mold heat-resistant polymers like PEEK for aerospace components. Pair its NAK80 steel with a hot runner system to achieve 30% faster cycles, cutting lead times while maintaining quality.

Frequently asked questions

  • Which mould material (SKD61 vs H13) suits high-volume plastic injection molding for automotive parts?

  • How to maintain hot runner systems in Ulite injection moulds to prevent clogging?

  • H13 vs NAK80 steel: Which is better for molds producing intricate medical device components?

  • Can Ulite create molds for custom plastic brackets requiring RoHS compliance?

  • Is Ulite’s mould EPR-compliant for European packaging regulations?

  • What’s the difference between hot and cold runners in injection moulding for multi-cavity molds?

  • Polycarbonate vs ABS: Which material for durable automotive parts with UV resistance?

  • What factors affect lead times for custom injection mould production?

Product comparison

CategoryUsage ScenariosCharacteristicsAdvantagesDisadvantages
Material CompositionHigh-stress industrial partsIndustry Standard: Basic Plastic (ISO 527-2: 40 MPa tensile strength)
Our Base: Polycarbonate (ISO 1043-1: 240 MPa ▲)
Our Advanced: Composite Material (ASTM D790: 350 MPa ▲▲)		Enhanced durability for heavy-duty applications (Our Advanced)
Compliance with RoHS/CE standards		Higher cost vs basic plastics (Base: +20%, Advanced: +40%)
Mould MaterialHigh-volume production runsIndustry Standard: P20 Steel (ASTM A269, 28 HRC hardness)
Our Base: SKD61 Steel (ASTM A681, 42 HRC ▲)
Our Advanced: H13/Nak80 Steel (ASTM A269, 52 HRC ▲▲)		Longer tool life (Advanced: 1M+ cycles vs Industry’s 500K)
Reduced wear resistance		Higher initial cost (Advanced: 3x Industry standard)
Runner SystemCost-sensitive productionIndustry Standard: Cold Runner (Material waste: 15-20%)
Our Base: Hot Runner (Waste reduction: 30% ▲)
Our Advanced: Optimized Hot Runner (Waste reduction: 50% ▲▲)		Cost-effective for high-volume (Advanced saves $0.15/unit)Higher upfront investment (Base: +$2K, Advanced: +$5K)
CertificationsEU market complianceIndustry Standard: CE (Basic safety compliance)
Our Base: CE + RoHS (Toxicity compliance ▲)
Our Advanced: EPR Germany/France + RoHS/CE (Full recycling compliance ▲▲)		Access to regulated markets (EPR grants EU market entry)Compliance costs (Advanced: +$1.5K certification fees)
Surface FinishAesthetic components (e.g., consumer goods)Industry Standard: Matte Finish (Ra 1.6 μm per ISO 1302)
Our Base: Polished Finish (Ra 0.8 μm ▲)
Our Advanced: Mirror Polishing (Ra ≤0.4 μm ▲▲)		Premium appearance for luxury products (Ra 0.4 μm ≈ smartphone-grade)Longer production time (Advanced adds 2hr/pc polishing)
Shaping PrecisionMedical devices/automotive partsIndustry Standard: ±0.1mm tolerance (ISO 2768-m)
Our Base: ±0.05mm (▲)
Our Advanced: ±0.01mm (▲▲)		Meets medical-grade tolerances (e.g., syringe components)Requires specialized machinery (Advanced: +$10K mold cost)

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