Product

SLM Optical System supplier china 200W-1000W

Laser metal 3D printing technology mainly includes SLM (laser selective melting technology) and LENS (laser engineering net shaping technology), among which SLM technology is the mainstream technology currently used. This technology uses laser to melt each layer of powder and produce adhesion between different layers. In conclusion, this process loops layer by layer until the entire object is formed. SLM technology overcomes the troubles in the process of manufacturing complex-shaped metal parts with traditional technology. It can directly form almost completely dense metal parts with good mechanical properties, and the precision and mechanical properties of the formed parts are excellent.
Compared with the low precision of traditional 3D printing (no light is needed), laser 3D printing is better in shaping effect and precision control. The materials used in laser 3D printing are mainly divided into metals and non-metals。Metal 3D printing is known as the vane of the development of the 3D printing industry. The development of the 3D printing industry largely depends on the development of the metal printing process, and the metal printing process has many advantages that the traditional processing technology (such as CNC) does not have.
In recent years, CARMANHAAS Laser has also actively explored the application field of metal 3D printing. With years of technical accumulation in the optical field and excellent product quality, it has established stable cooperative relations with many 3D printing equipment manufacturers. The single-mode 200-500W 3D printing laser optical system solution launched by the 3D printing industry has also been unanimously recognized by the market and end users. It is currently mainly used in auto parts, aerospace (engine), military products, medical equipment, dentistry, etc.


  • Wavelength: 1030-1090nm
  • Application: Aerospace/Mould
  • Power: 200-1000W Single Mode Laser
  • Brand Name: CARMAN HAAS
  • Product Detail

    Product Tags

    Product Description

    Laser metal 3D printing technology mainly includes SLM (laser selective melting technology) and LENS (laser engineering net shaping technology), among which SLM technology is the mainstream technology currently used. This technology uses laser to melt each layer of powder and produce adhesion between different layers. In conclusion, this process loops layer by layer until the entire object is formed. SLM technology overcomes the troubles in the process of manufacturing complex-shaped metal parts with traditional technology. It can directly form almost completely dense metal parts with good mechanical properties, and the precision and mechanical properties of the formed parts are excellent.
    Compared with the low precision of traditional 3D printing (no light is needed), laser 3D printing is better in shaping effect and precision control. The materials used in laser 3D printing are mainly divided into metals and non-metals。Metal 3D printing is known as the vane of the development of the 3D printing industry. The development of the 3D printing industry largely depends on the development of the metal printing process, and the metal printing process has many advantages that the traditional processing technology (such as CNC) does not have.
    In recent years, CARMANHAAS Laser has also actively explored the application field of metal 3D printing. With years of technical accumulation in the optical field and excellent product quality, it has established stable cooperative relations with many 3D printing equipment manufacturers. The single-mode 200-500W 3D printing laser optical system solution launched by the 3D printing industry has also been unanimously recognized by the market and end users. It is currently mainly used in auto parts, aerospace (engine), military products, medical equipment, dentistry, etc.

    Advantages of metal 3D printing:

    1. One-time molding: Any complicated structure can be printed and formed at one time without welding;
    2. There are many materials to choose from: titanium alloy, cobalt-chromium alloy, stainless steel, gold, silver and other materials are available;
    3. Optimize product design. It is possible to manufacture metal structural parts that cannot be manufactured by traditional methods, such as replacing the original solid body with a complex and reasonable structure, so that the weight of the finished product is lower, but the mechanical properties are better;
    4. Efficient, time-saving and low cost. No machining and molds are required, and parts of any shape are directly generated from computer graphics data, which greatly shortens the product development cycle, improves productivity and reduces production costs.

    Technical Parameters:

    1030-1090nm F-Theta Lenses 

    Part Description

    Focal Length (mm)

    Scan Field

    (mm)

    Max Entrance

    Pupil (mm)

    Working Distance(mm)

    Mounting

    Thread

    SL-(1030-1090)-170-254-(20CA)-WC

    254

    170x170

    20

    290

    M85x1

    SL-(1030-1090)-170-254-(15CA)-M79x1.0

    254

    170x170

    15

    327

    M792x1

    SL-(1030-1090)-290-430-(15CA)

    430

    290x290

    15

    529.5

    M85x1

    SL-(1030-1090)-290-430-(20CA)

    430

    290x290

    20

    529.5

    M85x1

    SL-(1030-1090)-254-420-(20CA)

    420

    254x254

    20

    510.9

    M85x1

    SL-(1030-1090)-410-650-(20CA)-WC

    650

    410x410

    20

    560

    M85x1

    SL-(1030-1090)-440-650-(20CA)-WC

    650

    440x440

    20

    554.6

    M85x1

    1030-1090nm QBH Collimating Optical Module

    Part Description

    Focal Length (mm)

    Clear Aperture (mm)

    NA

    Coating

    CL2-(1030-1090)-25-F50-QBH-A-WC

    50

    23

    0.15

    AR/AR@1030-1090nm

    CL2-(1030-1090)-30-F60-QBH-A-WC

    60

    28

    0.22

    AR/AR@1030-1090nm

    CL2-(1030-1090)-30-F75-QBH-A-WC

    75

    28

    0.17

    AR/AR@1030-1090nm

    CL2-(1030-1090)-30-F100-QBH-A-WC

    100

    28

    0.13

    AR/AR@1030-1090nm

    1030-1090nm Beam Expander

    Part Description

    Expansion

    Ratio

    Input CA

    (mm)

    Output CA (mm)

    Housing

    Dia(mm)

    Housing

    Length(mm)

    BE-(1030-1090)-D26:45-1.5X-A

    1.5X

    18

    26

    44

    45

    BE-(1030-1090)-D53:118.6-2X-A

    2X

    30

    53

    70

    118.6

    BE-(1030-1090)-D37:118.5-2X-A-WC

    2X

    18

    34

    59

    118.5

    1030-1090nm Protective Window

    Part Description

    Diameter(mm)

    Thickness(mm)

    Coating

    Protective Window

    98

    4

    AR/AR@1030-1090nm

    Protective Window

    113

    5

    AR/AR@1030-1090nm

    Protective Window

    120

    5

    AR/AR@1030-1090nm

    Protective Window

    160

    8

    AR/AR@1030-1090nm


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