Technical

About Using of Fiber Laser Source

raycus 1500w
max
IPG 1000w laser source

Raycus Fiber Laser Source

Max Fiber Laser Source

Imported IPG Fiber Laser Source

1.Comparison of IPG and raycus

 

 

 

Raycus

IPG

 

 

Structure and Features

explanation

Industrial chain

Integration of the whole industry chain, self-developed and self-produced core components

Integration of the whole industry chain, self-developed and self-produced core components

Only 2 companies in the world have realized the integration of the whole industry chain

Pump source structure

Single core junction structure

Single core junction structure

The chips are independent, do not affect each other, stable and reliable

Module power and quantity

1KW modules*6 (Raycus’s largest single module technical capability reaches more than 3KW)

3 2KW modules (saving manufacturing cost and reducing size)

The lower the module power, the more stable it is, the after-sales risks are relatively dispersed, and the module replacement cost is lower

Fiber Configuration

20 m length 100 micron diameter transmission fiber

20 m length 100 micron diameter transmission fiber

use exactly the same

QBH Quartz Crystal Protection Window

Standard

not included

In the process of assembly and after-sales maintenance, if there is no protective window, it will contaminate the transmission optical fiber head and cause a burning accident. However, the imported brand transmission optical fiber has no warranty and warranty, and the replacement price is tens of thousands. Raycus comes standard with protective windows and provides free replacement services for the first time pollution and burning of protective windows.

beam quality

BPP<4

BPP<4

 

Laser power attenuation index

less than 3% per year

less than 3% per year

Raycus reserves redundant power in the laser to ensure that the laser can be restored to the factory state if there is any attenuation within 2 years

Power Stability and Attenuation Specifications

Power stability

<±3%

<±3%

identical

Laser power attenuation index

<3% per year

<3% per year

identical

Applications

Cutting ability

Carbon steel 25mm
Stainless steel 20mm
Aluminum alloy 20mm
Brass 16mm

Carbon steel 25mm
Stainless steel 20mm
Aluminum alloy 20mm
Brass 16mm

identical

Warranty and After Sales Service

Warranty

Warranty period  + two-year warranty parameters

Warranty period

Guaranteeing the usability refers to ensuring that the machine is not broken, and guaranteeing the use parameters refers to ensuring that the laser light output parameters are consistent with those from the factory under the condition that the machine is not damaged.

 

2. Cutting Parameter of Raycus Laser Source

Rel-C1000 Cutting Parameter

REL-C1000 Continue Laser Source(25μm)

Material

Thickness

(mm)

Speed

(m/min)

Power

(w)

Gas

air pressure

(bar)

Nozzle

(mm)

focus position

(mm)

cutting height

(mm)

Carbon steel

0.8

0.8

1000

N2/Air

10

1.5S

0

1

1

10

10

1.5S

0

1

2

4

1000

O2

2

1.2D

+3

0.8

3

3

0.6

1.2D

+3

0.8

4

2.3

0.6

1.2D

+3

0.8

5

1.8

0.6

1.2D

+3

0.8

6

1.5

0.6

1.5D

+3

0.8

8

0.8

0.6

1.5D

+3

0.8

10

0.8

0.6

2.5D

+3

0.8

Stainless steel

1

20

1000

N2

12

1.5S

0

0.5

2

13

12

1.5S

0

0.5

3

6

12

2.0S

-1

0.5

5

3

12

3.0S

-1.5

0.5

6

1

14

3.0S

-2

0.5

Aluminum Alloy

0.8

18

1000

N2

12

1.5S

0

0.8

1

10

12

1.5S

0

0.5

2

5

14

2.0S

-1

0.5

3

1.5

16

3.0S

-1.5

0.5

Brass

1

9

1000

N2

12

2.0S

0

0.5

2

2

14

2.0S

-1

0.5

3

0.8

16

3.0S

-1.5

0.5

PS: The red-marked parameters in the table are proofing parameters, which are greatly affected by various factors in actual processing, and are only suitable for small batch production. Mass production and processing are not recommended, and higher power lasers are recommended.

Rel-C1500W Laser Source Parameter

Rel-C1500 Cutting Parameter

REL-C1500 Continue Laser Source(50μm)

Material

Thickness

(mm)

Speed

(m/min)

Power

(w)

Gas

air pressure

(bar)

Nozzle

(mm)

focus position

(mm)

cutting height

(mm)

 Carbon Steel

1

20

1500

N2/air

10

1.5S

0

1

2

5

1500

O2

2

1.2D

+3

0.8

3

3.6

0.6

1.2D

+3

0.8

4

2.5

0.6

1.2D

+3

0.8

5

1.8

0.6

1.2D

+3

0.8

6

1.4

0.6

1.5D

+3

0.8

8

1.2

0.6

1.5D

+3

0.8

10

1

0.6

2.0D

+2.5

0.8

12

0.8

0.6

2.0D

+2.5

0.8

14

0.65

0.6

3.0D

+2.5

0.8

16

0.5

0.6

3.0D

+2.5

0.8

Stainless steel

1

20

1500

N2

10

1.5S

0

0.8

2

7

12

2.0S

-1

0.5

3

4.5

12

2.5S

-1.5

0.5

5

1.5

14

3.0S

-2.5

0.5

6

0.8

16

3.0S

-3

0.5

Aluminum Alloy

1

18

1500

N2

12

1.5S

0

0.5

2

6

14

2.0S

-1

0.5

3

2.5

14

2.5S

-1.5

0.5

4

0.8

16

3.0S

-2

0.5

Brass

1

15

1500

N2

12

1.5S

0

0.5

2

5

14

2.0S

-1

0.5

3

1.8

14

2.5S

-1.5

0.5

PS: The red-marked parameters in the table are proofing parameters, which are greatly affected by various factors in actual processing, and are only suitable for small batch production. Mass production and processing are not recommended, and higher power lasers are recommended.

Rel-C2000W Laser Source Parameter

Rel-C2000 Cutting Parameter

REL-C2000 Continue Laser Source(50μm)

Material

Thickness

(mm)

Speed

(m/min)

Power

(w)

Gas

air pressure

(bar)

Nozzle

(mm)

focus position

(mm)

cutting height

(mm)

Carbon Steel

1

25

2000

 

N2/air

10

1.5S

0

1

2

9

10

2.0S

-1

05

2

5.2

2000

O2

1.6

1.0D

+3

0.8

3

4.2

0.6

1.0D

+3

0.8

4

3

0.6

1.0D

+3

0.8

5

2.2

0.6

1.2D

+3

0.8

6

1.8

0.6

1.2D

+3

0.8

8

1.3

0.5

2.0D

+2.5

0.8

10

1.1

0.5

2.0D

+2.5

0.8

12

0.9

0.5

2.5D

+2.5

0.8

14

0.8

0.5

3.0D

+2.5

0.8

16

0.7

0.6

3.5D

+2.5

0.8

18

0.5

0.6

4.0D

+3

0.8

20

0.4

0.6

4.0D

+3

0.8

Stainless steel

1

28

2000

N2

10

1.5S

0

0.8

2

10

12

2.0S

-1

0.5

3

5

12

2.0S

-1.5

0.5

4

3

14

2.5S

-2

0.5

5

2

14

3.0S

-.5

0.5

6

1.5

14

3.0S

-3

0.5

8

0.6

16

3.0S

-4

0.5

Aluminum Alloy

1

20

2000

N2

12

1.5S

0

0.8

2

10

12

2.0S

-1

0.5

3

4

14

2.0S

-1.5

0.5

4

1.5

14

2.5S

-2

0.5

5

0.9

16

3.0

-2.5

0.5

6

0.6

16

3.0

-3

0.5

Brass

1

18

2000

N2

12

1.5S

0

0.8

2

8

12

2.0S

-1

0.5

3

3

14

2.5S

-1.5

0.5

4

1.3

16

3.0S

-2

0.5

5

0.8

16

3.0S

-2.5

0.5

PS: The red-marked parameters in the table are proofing parameters, which are greatly affected by various factors in actual processing, and are only suitable for small batch production. Mass production and processing are not recommended, and higher power lasers are recommended.

 

Rel-C3000W Laser Source Parameter

Rel-C3000 Cutting Parameter

REL-C3000 Continue Laser Source(50μm)

Material

Thickness

(mm)

Speed

(m/min)

Power

(w)

Gas

air pressure

(bar)

Nozzle

(mm)

focus position

(mm)

cutting height

(mm)

Carbon Steel

1

35

3000

 

N2/air

10

1.5S

0

1

2

20

10

2.0S

0

0.5

2

5.5

3000

O2

1.6

1.0D

+3

0.8

3

4

0.6

1.0D

+4

0.8

4

3.5

0.6

1.0D

+4

0.8

5

3.2

0.6

1.2D

+4

0.8

6

2.7

0.6

1.2D

+4

0.8

8

2.2

0.5

1.2D

+4

0.8

10

1.5

0.5

1.2D

+4

0.8

12

1

0.5

3.0D

+4

0.8

14

0.9

0.5

3.0D

+4

0.8

16

0.75

0.6

3.5D

+4

0.8

18

0.65

0.6

4.0D

+4

0.8

20

0.6

0.6

4.0D

+4

0.8

22

0.55

0.6

4.0D

+4

0.8

Stainless steel

1

45

3000

N2

10

1.5S

0

0.8

2

24

12

2.0S

-0.5

0.5

3

10

12

2.5S

-1.5

0.5

4

6.5

14

2.5S

-2.5

0.5

5

3.6

14

3.0S

-3

0.5

6

2.7

14

3.0S

-3

0.5

8

1.2

16

3.5S

-3.5

0.5

10

0.8

16

4.0S

-4

0.5

Aluminum Alloy

1

30

3000

N2

12

1.5S

0

0.8

2

18

12

2.0S

0

0.5

3

8

14

2.0S

-1

0.5

4

6

14

2.5S

-2

0.5

5

3.2

16

3.0S

-3

0.5

6

2

16

3.0S

-3.5

0.5

8

0.9

16

3.5S

-4

0.5

Brass

1

28

3000

N2

12

1.5S

0

0.8

2

15

12

2.0S

0

0.5

3

6

14

2.5S

-1

0.5

4

3

14

3.0S

-2

0.5

5

2.2

14

3.0S

-2.5

0.5

6

1.3

 

 

16

3.0S

-3

0.5

PS: The red-marked parameters in the table are proofing parameters, which are greatly affected by various factors in actual processing, and are only suitable for small batch production. Mass production and processing are not recommended, and higher power lasers are recommended.

REL-C4000 Laser Source Parameter

REL-C4000 Laser source parameter

REL-C4000 Continue Laser Source(50μm)

 

Material

Thickness

(mm)

Speed

(m/min)

Power

(w)

Gas

air pressure

(bar)

Nozzle

(mm)

focus position

(mm)

cutting height

(mm)

Notice

Carbon Steel

1

35

4000

N2/air

 

10

1.5S

0

1

1

2

15

4000

10

2.0S

-1

0.5

3

10

4000

10

2.0S

-1.5

0.5

3

4.5

1800

O2

0.6

1.2D

+3

0.8

2

4

3.5

2400

0.6

1.2D

+3

0.8

5

3.2

2400

0.6

1.2D

+3

0.8

6

2.8

3000

0.6

1.2D

+3

0.8

8

2.3

3600

0.6

1.2D

+3

0.8

10

2

4000

0.6

1.2D

+3

0.8

12

1.2

1800-2200

0.6

3.0D

+2.5

0.8

14

1

1800-2200

0.5

3.5D

+2.5

0.8

16

0.8

2200-2600

0.5

3.5D

+2.5

0.8

18

0.7

2200-2600

0.5

4.0D

+2.5

0.8

20

0.65

2200-2600

0.5

4.0D

+3

0.8

22

0.6

2200-2800

0.5

4.5D

+3

0.8

25

0.5

2400-3000

0.5

5.0D

+3

0.5

Stainless steel

1

40

4000

N2

10

1.5S

0

0.8

 

2

20

12

2.0S

-1

0.5

3

12

12

2.0S

-1.5

0.5

4

7

12

2.5S

-2

0.5

5

4.5

14

2.5S

-2.5

0.5

6

3.5

14

3.0S

-3

0.5

8

1.8

14

3.0S

-4

0.5

10

1.2

16

4.0S

-5

0.5

12

0.8

16

4.0S

-6

0.5

Aluminum Alloy

1

30

4000

N2

12

1.5S

0

0.6

 

2

20

12

2.0S

-1

0.5

3

13

14

2.0S

-1.5

0.5

4

7

14

2.5S

-2

0.5

5

5

14

2.5S

-2.5

0.5

6

3

16

3.0S

-3

0.5

8

1.3

16

3.0S

-4

0.5

10

0.8

16

3.5

-5

0.5

Brass

1

28

4000

N2

12

1.5S

0

0.6

 

2

15

12

1.5S

-1

0.6

3

8

14

2.0S

-1

0.6

4

5

14

2.5S

-2

0.5

5

3

14

3.0S

-2

0.5

6

2.5

16

3.0S

-2.5

0.5

8

1

16

3.0S

-4

0.5

Remark 1: It is recommended to use air or nitrogen to cut carbon steel 1-3mm, the cutting speed is faster than that of oxygen, and there will be slight slag.

Remark 2: The power used for commissioning and the speed of commissioning will also vary according to the site gas purity, plate quality, etc.

Remarks: The red-marked parameters in the table are proofing parameters, which are greatly affected by various factors in actual processing, and are only suitable for small batch production. Mass production and processing are not recommended, and higher power lasers are recommended.


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