Moules et matrices
Explorer l'habilitationPourquoi c'est mieux
HBD Metal 3D printing transforms molding by enabling faster, more efficient production with innovative features like conformal cooling channels. These optimized internal cooling paths significantly reduce cycle times and enhance product quality, while improving durability and lowering costs.
Comment l'impression 3D
fait la différence
Conformal Cooling for
Enhanced Heat Dissipation
- Avantage : 3D printing enables the design of conformal cooling channels that follow the mold geometry, improving heat dissipation efficiency.
- Problème résolu : Reduces cycle times, minimizes thermal stress, and improves product consistency by achieving uniform cooling across complex mold surfaces.
- Application typique : Conformal Cooling Injection Mold
High-Efficiency Batch Production for
Precision Mold Components
- Avantage : LPBF technology enables rapid and precise batch manufacturing of intricate mold inserts and components.
- Problème résolu : Reduces lead times and machining costs for high-precision small mold components, improving overall production efficiency.
- Application typique : Hot Runner Inserts
Microporous Structures for Ventilation
& Defect Reduction
- Avantage : Producing metal molds with integrated micropores improves air permeability to improve gas evacuation and prevent molding defects.
- Problème résolu : Eliminates issues like trapped air, burns, and surface defects in molded parts, enhancing mold performance and product quality.
- Application typique : Air-Venting Shoe Mold
High-Resolution Surface Texturing for
Complex Patterns
- Avantage : Direct printing of intricate textures onto mold surfaces eliminates the need for secondary etching or machining.
- Problème résolu : Reduces processing steps and enables highly detailed textures with consistent quality, even for complex geometries.
- Application typique : Aluminum Alloy Patterned Sole Mold
Recommandé Modèles
DBC 400
Volume de construction :
350 mm × 400 mm × 400 mm
(hauteur y compris la plaque de construction)
Puissance du laser :
2 lasers, 500W/1000W
4 lasers, 500W/1000W
6 lasers, 500W/1000W
DBC 500
Volume de construction :
430 mm × 520 mm × 520 mm
(hauteur y compris la plaque de construction)
Puissance du laser :
2 lasers, 500W/1000W
3 lasers, 500W/1000W
DBC 350
Volume de construction :
325 mm × 325 mm × 400 mm (hauteur y compris la plaque de construction)
Puissance du laser :
2 lasers, 500W/1000W
4 lasers, 500W/1000W
Volume de construction
158mmx 100mm
Puissance du laser
1 Laser, 300W
2 lasers, 300W
2 lasers, 300W
DBC 400
Volume de construction :
350 mm × 400 mm × 400 mm (hauteur y compris la plaque de construction)
Puissance du laser :
4 lasers, 500W/1000W
6 lasers, 500W/1000W
8 lasers, 1000W
Volume de construction
158mmx 100mm
Puissance du laser
1 Laser, 300W
2 lasers, 300W
2 lasers, 300W
DBC 500
Volume de construction :
430 mm × 520 mm × 520 mm (hauteur y compris la plaque de construction)
Puissance du laser :
2 lasers, 500W/1000W
3 lasers, 500W/1000W
Volume de construction
158mmx 100mm
Puissance du laser
1 Laser, 300W
2 lasers, 300W
2 lasers, 300W
Les bons matériaux pour le
Perfect Mold & Die Solution
Acier inoxydable
(316L)
Pourquoi le choisir ?
Excellente résistance à la corrosion et bonne usinabilité - idéal pour les moules exposés à des environnements humides ou corrosifs.
Meilleur pour :
Moules d'injection, moules de coulée sous pression et outillage exposés à des produits chimiques ou à l'humidité.
Acier maraging
(C300)
Pourquoi le choisir ?
High strength, superior toughness, and excellent wear resistance—perfect for high-performance molds and dies.
Best For :
Injection molds, high-stress tooling, and forming dies.
Corrax
(CX)
Pourquoi le choisir ?
Outstanding corrosion resistance, high hardness, and excellent polishability—suitable for demanding mold applications.
Best For :
Plastic injection molds, precision tooling, and high-humidity mold environments.
Alliage d'aluminium
(AlSi10Mg)
Pourquoi le choisir ?
Lightweight, thermally conductive, and easy to machine—great for rapid prototyping and heat-efficient mold designs.
Best For :
Prototype molds, heat transfer components, and lightweight mold inserts.
Acier inoxydable
(316L)
Pourquoi le choisir ?
Excellente résistance à la corrosion et bonne usinabilité - idéal pour les moules exposés à des environnements humides ou corrosifs.
Best For :
Moules d'injection, moules de coulée sous pression et outillage exposés à des produits chimiques ou à l'humidité.
Acier inoxydable
(17-4 PH)
Pourquoi le choisir ?
High strength, hardness, and corrosion resistance—ensuring long-lasting mold performance.
Best For :
Injection molds, die-casting tools, and wear-resistant tooling.
Acier inoxydable
(15-5 PH)
Pourquoi le choisir ?
Similar to 17-4 PH but with improved toughness and mechanical properties—ideal for precision mold applications.
Best For :
High-precision dies, injection molds, and structural mold components.
La confiance des leaders de l'industrie
“With HBD’s conformal cooling channel mold inserts, we significantly improved efficiency—cutting cooling time, reducing molding cycles, and increasing our daily output from 19,862 to 25,043 units. This optimization enhanced both product quality and design flexibility, giving us a stronger edge in industry competition.”
En savoir plus
Ready to Optimize Your Molding Process?
Get in touch with our team to learn how HBD’s advanced metal 3D printing technology can transform your molding operations. Let’s create smarter, faster, and more durable solutions together!
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