This product is no longer promoted on Made-in-China.com. If you find any infringement or sensitive information of it, please contact us for handling. Thank you.

Industrial Powder Bed Electron Beam 3D Printing Machine

Product Details
Warranty: 1 Years
File Format: STL
Connection: USB
  • Industrial Powder Bed Electron Beam 3D Printing Machine
  • Industrial Powder Bed Electron Beam 3D Printing Machine
  • Industrial Powder Bed Electron Beam 3D Printing Machine
  • Industrial Powder Bed Electron Beam 3D Printing Machine
  • Industrial Powder Bed Electron Beam 3D Printing Machine
  • Industrial Powder Bed Electron Beam 3D Printing Machine
Find Similar Products

Basic Info.

Model NO.
Customized
Precision
53-105mu
Thickness
<20mu
Printer Material
Metal
Forming Technology
3DP
Operating System
Windows 7
Feature 1
High Efficiency
Colour
Gray and White
Feature 2
No Reflection
Delivery Time
Negotiable
Transport Package
Carton/Wooden
Specification
Sailong Y150
Trademark
Sailong AM
Origin
Guangzhou
Production Capacity
3

Product Description

 
Product introduction
 SEBM takes spherical metal powder as raw material and electron beam as energy source. At the beginning of the process, the powder is evenly spread on a specific metal base plate. The powder is sintered slightly by preheating the powder bed.  The bottom plate is then lowered one layer and the process is repeated to form the design part.  The entire molding process is maintained in a high vacuum environment (10-3Pa) to prevent oxidation or nitriding of metal parts and powders.  





Technical principle

The electron beam is produced in an electron gun.  There are tungsten filament in the electron gun, the electron gun adopts the direct heating type tungsten belt three-stage electron gun, to ensure the tungsten filament continuous working life of 40 hours.  When electrons are accelerated to 0.1 to 0.4 times the speed of light, their energy density can reach 106kw/cm2.  To avoid electron beam scattering due to the presence of gas atoms, the vacuum chamber containing the electron gun and metal powder has a pressure as low as 10E-4mbar.  As electrons penetrate the surface of the powder and enter between the particles of the powder, the speed of the electrons decreases.  During this time, the kinetic energy of the electrons is converted to heat energy, and the metal powder reaches melting temperature.  To excite an electron beam, the gun uses an array of electromagnetic lenses (called a deflector coil) so that the beam scans the surface of a metal powder from side to side and melts it at the desired location (similar to how a regular television set works).  X-rays are emitted when electrons in the beam strike the surface of the powder in the molding chamber.  

The thermal-electron gun consists of a cathode, a gate and an anode.  The cathode is negative and emits hot electrons.  The gate is negative, which is more negative than the cathode.  The anode is positive, accelerating the hot electrons.  The three poles form a compound field and play a focusing role, thus forming a cross beam spot with cross section diameter D0 and divergence Angle A0 between the gate and anode.  When the filament is heated to a temperature T, its energy is above φ to produce electrons, which then escape from the filament to form a usable electron beam.  Both W and LaB6 filaments are used as tri-pole gun cathodes. In addition to the cathode, there is a grid called a Wehnelt cylinder and an earthing anode with a circular hole in the center.  The cathode is connected to the high voltage cable, the other end of the high voltage cable is connected to the high voltage power supply, the high voltage cable is connected to the tungsten filament to provide the current to heat the filament, LaB6 filament is not directly heated, but tied together with the metal rhenium with good heat resistance.

 



 

Features of Selective Electron Beam Melting

1. High energy utilization rate  

The energy effectively absorbed by lasers only accounts for about 5% of the total power input.  The energy effectively absorbed by the electron beam can account for about 75% of the total electrical energy input.  Therefore, in the long run, the electron beam saves more power and the operation cost is lower.  

2. High production efficiency  

The output power of electron beam is 3-6kW, and most lasers are 300-500W;  The electron beam uses magnetic deflection coil to realize two-dimensional scanning, scanning frequency up to 20,000 Hz, without moving parts, while the laser must replace the mirror or rely on the movement of CNC workbench to realize scanning;  SEBM produces titanium acetabular cups 5-8 times more efficiently than SLM at less than half the cost.  

3. No reflection, wide range of machined materials  

All kinds of metal materials have high absorption rate of electron beam.  In laser rapid manufacturing, the absorptance of laser is different metal materials related to the wavelength of the laser, can limit the laser processing, the kinds of materials and in the process of laser manufacturing, the absorptance of laser is solid powder materials is low, the formation of molten pool, the absorption rate will rise suddenly, result in forming material vaporized.  At the same time, laser is not suitable for processing high reflectivity titanium, aluminum and high melting point tungsten and other materials. In electron beam rapid manufacturing, a variety of conductive materials can be processed, and the absorption rate of formed materials to electron beam is stable during the whole melting process.  

4. Low forming stress  

SEBM can preheat the powder bed at 1300ºC and is currently the only 3D printing technology that can achieve high-quality printing of brittle metal materials.  

5. High cleanness of vacuum environment  

High vacuum environment, reduce oxygen, nitrogen, water vapor and other impurities pollution, suitable for active and oxygen sensitive material printing.  

SEBM forming materials and properties  

SEBM forming materials cover stainless steel, titanium and titanium alloy, Co-Cr-Mo alloy, TiAl intermetallic compound, nickel base superalloy, copper alloy, niobium alloy and other metals and alloy materials.  For example:

1. T
he heat treatment properties of SEBM formed CoCrMo alloy meet the requirements of medical standards
 

 

2. Ti-48al-2cr-2nb alloy formed by SEBM has similar mechanical properties to castings after heat treatment (duplex microstructure) or hot isostatic pressing (equiaxed microstructure).  




Applications

1. Aerospace  

Since 2005, Arcam AB's SEBM forming system has been purchased by American Aerospace Center's Marshall Space Flight Center, CalRAM For rapid manufacturing, and Boeing for Phantom for the manufacture of related aerospace components.  

2. Biomedical  

By the end of 2017, more than 100,000 acetabular cups prepared by pulverized bed electron beam 3D printing technology have been implanted into human bodies worldwide, and orthopedic implants prepared by this technology have involved more than 20 parts such as artificial joints, maxillofacial, skull and spine.  

 


Finished products display 

Certificate

FAQ
Q1. Do you test all your goods before delivery?
A: Yes, we have 100% test before delivery.

Q2: How does your factory do regarding quality control?
A: Quality is priority, We always attach great importance to quality controlling from raw materials till finished product.

Q3: Are you a factory or trading company?
A: We are a  manufacturer. It is located in Guangzhou , Guangdong province, China. All of our clients from home and abroad, are warmly welcomed to visit us!

Q4: How do you make our business long-term and good relationship?
A:1. We keep good quality and competitive price to ensure our customers benefit ;
    2. We respect every customer as our friend and we sincerely do business and make friends with them no matter            where they come from.

Send your message to this supplier

*From:
*To:
*Message:

Enter between 20 to 4,000 characters.

This is not what you are looking for? Post a Sourcing Request Now