Get Binder Jet Parts from Endeavor 3D

Digital Additive Manufacturing for the Production of Metal Parts

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Technology

Multi Jet Fusion (MJF)

Printers

5200 Series

Materials

High Density Thermoplastics

Printers

L1 series

Materials

High Density Thermoplastics

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3D printed polymer part
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3D printed polymer part
3D printer
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3D printers
3D printed polymer part
3D printers

John Shnow

Watcher on the Wall

“As a large-scale, high-volume additive serial manufacturer we build. As a large-scale, high-volume additive. As a large-scale, high-volume additive serial manufacturer we build.”

200+
HAPPY
CUSTOMERS
10K+
PARTS
PRINTED
60+
COMBINED YEARS
OF EXPERIENCE

Heading About Intro to Individual Technology

3D printed metal part
3D printed metal part

Binder Jet parts production can be the key to reducing supply chain through parts consolidation; improving performance through weight reduction; and increasing throughput by faster production.

The Power of Metal Binder Jet Technology

Endeavor3D is one of a select group of manufacturers participating in GE Additive’s Binder Jet Beta Partner Program. This collaboration enables us to leverage GE’s extensive experience and investment in scaling serial additive manufacturing, and to fulfill additive manufacturing’s true potential of printing repeatability, part quality, and true manufacturing productivity.

Benefits of Metal Binder Jet Printing

Here are some of the reasons to consider metal binder jet 3D printed parts

Complex metal fan assembly

Fast, Easily Scalable Builds

Good Precision and Accuracy

No Supports Needed

Reduced Supply Chain

Parts consolidation can reduce the need for multiple parts

Improved Performance

Weight reduction can be a key factor in the improvement of performance

3D printed metal part

High-Volume Production

Efficient production through parts nesting is possible

Build Volume

15.7 x 9.8 x 18.1 in (400 x 250 x 460 mm)

XY; Z Resolution

160 microns; 25, 50, or 100 microns

General Accuracy

Up to +/- 0.003 in + 0.001 in per dimension size (+/- 70 microns + 1 micron)

Production Repeatability Accuracy

Up to +/- 0.002 in (+/- 40 microns)

Metal turbine
3D printed polymer part
3D printed polymer part

Application Study

Hydraulic Manifold

Casting Challenges

  • Ability to machine very precise flow path
  • Demand for improved energy efficiency and improved performance
  • Current manufacturing process is time consuming

Redesign Process

By leveraging the design freedom AM offers, the manifold was designed to be extremely compact and efficient. The tubing is organized in a layered approach so that the tubes collectively support one another, creating an exceptionally rigid structure.

The short, swept passages enable rapid fluid transfer and easy access for de-powdering and handling. The flange layout is adaptive which allows the manifold to act as one central interface that accommodates all the desired incoming connection angles.

Outcome

  • Monolithic construction creates a more durable part
  • Assembly consolidation reduces the overall lead time for production
  • Elimination of material waste and significant weight reduction
  • Optimized passages offer more efficient system function
  • Improved fluid flow performance
  • Design freedom for wall thicknesses, inner diameters & fixture points
3D printed polymer part

Application Study

3D printed polymer part

Efficiency And Cost Savings With Hydraulic Manifold

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Lorem ipsum dolor sit amet, consectetur adipiscing elit. Suspendisse varius enim in eros elementum tristique. Duis cursus, mi quis viverra ornare, eros dolor interdum nulla, ut commodo diam libero vitae erat.

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3D printers
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Lorem ipsum dolor sit amet, consectetur adipiscing elit. Suspendisse varius enim in eros elementum tristique. Duis cursus, mi quis viverra ornare, eros dolor interdum nulla, ut commodo diam libero vitae erat.

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APPLICATION STUDY
Hydraulic Manifold

Casting Challenges

  • Ability to machine very precise flow path
  • Demand for improved energy efficiency and improved performance
  • The current manufacturing process is time consuming

Redesign Process

By leveraging the design freedom AM offers, the manifold was designed to be extremely compact and efficient. The tubing is organized in a layered approach so that the tubes collectively support one another, creating an exceptionally rigid structure. The short, swept passages enable rapid fluid transfer and easy access for de-powdering and handling. The flange layout is adaptive which allows the manifold to act as one central interface that accommodates all the desired incoming connection angles.

Redesign Process

  • Monolithic construction creates a more durable part
  • Assembly consolidation reduces the overall lead time for production
  • Elimination of material waste and significant weight reduction
  • Optimized passages offer more efficient system function
  • Improved fluid flow performance
  • Design freedom for wall thicknesses, inner diameters & fixture points

Browse Our Binder Jet Metals

All Materials

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