Metal 3D Printer ProX320

Contact by phone [Available from 9:00 a.m. to 5:00 p.m. on weekdays]
TEL:0120-99-7636

Company Profile

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Metal 3D Printer

ProX320

Material Properties

  • Heat resistance
  • Durability
  • High definition
  • Corrosion resistance
  • High hardness
  • Toughness
  • Surface roughness
  • Color
  • Transparent
    (Translucent)
  • Rubber-like resin

Suitable for modeling prototype and actual metal parts.

  • Provides a highly inert environment using a vacuum chamber and reduces modeling time thanks to the interactive powder layering system.
  • Also used for mass production in overseas.
Modeling method Sinter metal powder by laser irradiation.
Features - Achieves a density of 99.9%.
- Even complicated shapes can be formed in a short time even using hard materials, such as titanium and Inconel.
Applicable materials #1: Aluminum ALSi10Mg
#2: Titanium TiGr5 (64-titanium)
#3: Nickel alloy (Inconel) Ni718
Modeling size D: 275 x W: 275 x H: 380 mm

Examples of samples

LUMEX Avance-25

Material Properties

  • Heat resistance
  • Durability
  • High definition
  • Corrosion resistance
  • High hardness
  • Toughness
  • Surface roughness
  • Color
  • Transparent
    (Translucent)
  • Rubber-like resin

Applicable to modeling of molds (including inserts) and prototype metal parts.

  • Can form three-dimensional water pipes with shapes that provide more efficient cooling but that cannot be achieved by conventional machining, while shortening the molding cycle.
  • Can also quickly form substitutes for steel parts.
Modeling method Sinter metal powder by laser irradiation.
Features A hybrid molding machine combining modeling and cutting
Applicable materials Maraging steel
Modeling size D: 256 x W: 256 x H: 300 mm

Examples of samples

EOS M290

Material Properties

  • Heat resistance
  • Durability
  • High definition
  • Corrosion resistance
  • High hardness
  • Toughness
  • Surface roughness
  • Color
  • Transparent
    (Translucent)
  • Rubber-like resin

A printer that can give shapes to prototypes, final products, and molds directly from 3D data using metal materials.

  • The latest fiber laser which provides high performance and high stability is adopted.
  • Thanks to the small focus diameter of the laser beam, this machine reproduces detailed shapes with high precision and provides high-quality parts.
  • By using industrial materials optimized for EOS M, it can provide parts with high precision, high definition, excellent surface quality, high density, and excellent mechanical properties.
  • Minimum lamination thickness: 10 microns
Modeling method Sinter metal powder by laser irradiation.
Features - A metal 3D printer widely used in the world.
- Even complicated shapes can be formed in a short time even using hard materials, such as titanium and Inconel.
Applicable materials #1: Titanium Ti64
#2: Nickel-base superalloy (Inconel) IN718
Modeling size D: 250 x W: 250 x H: 325 mm

Examples of samples

ProX300

Material Properties

  • Heat resistance
  • Durability
  • High definition
  • Corrosion resistance
  • High hardness
  • Toughness
  • Surface roughness
  • Color
  • Transparent
    (Translucent)
  • Rubber-like resin

A metal powder printer that can prototype a wide variety of samples, from molds and other metal parts to actual parts.

  • Achieves a high modeling density of 99.9%.
  • Minimum and maximum lamination thickness: 10 / 50 microns
  • Repeatability: x=20 microns, y=20 microns, z=20 microns
  • Provides modeling accuracy of ±0.01 mm in each X, Y, and Z direction
  • 150 microns-thick ultra-thin standing walls can be formed.
  • Can make holes 300 microns in diameter.
Modeling method Sinter metal powder by laser irradiation.
Features - A metal 3D printer achieves a high density of 99.9% using a roller recoater.
- Even complicated shapes can be formed in a short time.
Applicable materials AlSi12
Modeling size D: 250 x W: 250 x H: 300 mm

Examples of samples

STEP

From contact to delivery

  1. STEP 01
    Contact

    Contact by email

    Contact by phone
    046-400-1755
    From 9:00 a.m. to 5:45 p.m. on weekdays

  2. STEP 02
    Quotation & Delivery date

    3D data in the STL or STEP format

    Click for more information on how to send your data.

  3. STEP 03
    Modeling

  4. STEP 04
    Post processing

    Heat treatment
    Wire cutting
    5-axis cutting (option)

  5. STEP 05
    Inspection

  6. STEP 06
    Delivery

One-stop ordering to save time and effort
From 3D design and data creation to 3D print!

Why ABIST 3D Print Service?

  1. Reason
    1

    Quick delivery

  2. Reason
    2

    Multiple modeling machines & materials

  3. Reason
    3

    3D design & prototype

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