Paramètres de découpe laser 30000W

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In the dynamic world of metal fabrication, precision and efficiency are paramount. The latest 30000W découpe laser machine, equipped with a 100μm multimode laser source, is designed to meet these demands, offering unparalleled cutting capabilities. This article explores the cutting parameters of our advanced 30KW laser cutter, providing you with the detailed information needed to optimize your operations and achieve superior results.

Cutting Parameters Overview

The cutting parameters for a 30000W laser cutting machine are essential to achieving high-quality cuts with minimal waste. These parameters include cutting speed, focal position, gas pressure, and power settings, which vary based on the material type and thickness. Below, we present a comprehensive table of cutting parameters for different materials to help you achieve optimal results.

Paramètres de découpe laser 15000W

Material	Thicknes (mm)	Speed (m/min)	Power (W)	Gas	Pressure (bar)	Nozzles (mm)	Focus Point (mm)	Cutting Height (mm)	Remark
Acier au carbone	8	20-25	30000	N2 / Air	10	4.5 Single	-1	0.5	1
Acier au carbone	10	15-20	30000	N2 / Air	10	4.5 Single	-2	0.5	1
Acier au carbone	12	10-14	30000	N2 / Air	12	4.5 Single	-3	0.5	1
Acier au carbone	14	9.0-10.5	30000	N2 / Air	14	4.5 Single	-3	0.5	1
Acier au carbone	16	8.0-9.5	30000	N2 / Air	14	5.0 Single	-4	0.5	1
Acier au carbone	18	6.0-7.0	30000	N2 / Air	20	5.0 Single	-7	0.5	1
Acier au carbone	20	4.0-5.0	30000	N2 / Air	25	6.0 Single	-10	0.5	1
Acier au carbone	10	2.2-2.5	6000	O2	0.6	1.2 Double	8	0.6	2
Acier au carbone	12	1.9-2.1	6500	O2	0.6	1.2 Double	9	0.6	2
Acier au carbone	14	1.8-1.9	8000	O2	0.6	1.4 Double	10	0.6	2
Acier au carbone	16	1.6-1.8	8500	O2	0.6	1.4 Double	11	0.6	2
Acier au carbone	18	1.5-1.7	11000	O2	0.5	1.5 Single	+12~13	0.3	2
Acier au carbone	20	1.5-1.6	11000	O2	0.5	1.5 Single	+12~13.5	0.3	2
Acier au carbone	22	1.3-1.5	12000	O2	0.5	1.6 Single	+12~13.5	0.3	2
Acier au carbone	25	1.25-1.4	12000	O2	0.5	1.6 Single	+13~14.5	0.3	2
Acier au carbone	30	1.1-1.3	17000	O2	0.8	1.6 Single	+13~14.5	0.3	2
Acier au carbone	35	1.1-1.2	17000	O2	1	1.7 Single	+13.8~14.5	0.3	2
Acier au carbone	40	0.9-1.1	20000	O2	1.2	1.8 Single	+14~15	0.3	2
Acier au carbone	45	0.7-0.9	28000	O2	1.2	1.8 Single	+15~16	0.3	2
Acier au carbone	50	0.4-0.5	30000	O2	1.3	1.8 Single	+15~16	0.3	2
Acier au carbone	60 *	0.2-0.3 *	30000	O2	1.6 *	1.8 Single *	+16~17 *	0.3 *	2
Acier au carbone	70 *	0.1-0.2 *	30000	O2	1.6 *	1.8 Single *	+16~17 *	0.3 *	2
Acier au carbone	80 *	0.1-0.15 *	30000	O2	1.6 *	1.8 Single *	+16~17 *	0.3 *	2
Acier inoxydable	6	30-35	30000	N2	8	4.5 Single	+1~-2	0.5
Acier inoxydable	8	25-28	30000	N2	8	5.0 Single	-1~-2	0.5
Acier inoxydable	10	20-22	30000	N2	8	5.0 Single	-1~-3	0.5
Acier inoxydable	12	15-17	30000	N2	10	5.0 Single	-1~-5	0.5
Acier inoxydable	14	10-12	30000	N2	14	5.0 Single	-3~-5	0.5
Acier inoxydable	16	8.5-10.0	30000	N2	14	5.0 Single	-4~-5	0.5
Acier inoxydable	18	6.0-7.0	30000	N2	16	5.0 Single	-5~-6	0.5
Acier inoxydable	20	5.0-6.0	30000	N2	20	6.0 Single	-5~-6	0.5
Acier inoxydable	25	3.0-4.0	30000	N2	20	6.0 Single	-6.5~-7.5	0.5
Acier inoxydable	30	2.0-2.5	30000	N2	25	8.0 Single	-9.5~-10.5	0.3
Acier inoxydable	35	1.5-1.8	30000	N2	25	8.0 Single	-11~-13	0.3
Acier inoxydable	40 *	0.9-1.2 *	30000	N2	25 *	8.0 Single *	-15~-16.5 *	0.3 *
Acier inoxydable	50 *	0.2-0.25 *	30000	N2	25 *	6.0 Single *	+8 *	0.3 *
Acier inoxydable	60 *	0.15-0.2 *	30000	N2	25 *	6.0 Single *	+9 *	0.3 *
Acier inoxydable	70 *	0.1-0.15 *	30000	N2	25 *	8.0 Single *	+9 *	0.3 *
Acier inoxydable	80 *	0.08-0.12 *	30000	N2	25 *	8.0 Single *	+9 *	0.3 *
Acier inoxydable	90 *	0.05-0.1 *	30000	N2	25 *	8.0 Single *	+9 *	0.3 *
Acier inoxydable	100 *	0.05-0.08 *	30000	N2	25 *	8.0 Single *	+9 *	0.3 *
Aluminium Alloy	1	60-80	20000	N2	8	3.0 Single	0	0.5
Aluminium Alloy	2	50-60	20000	N2	8	3.0 Single	0	0.5
Aluminium Alloy	3	35-45	20000	N2	8	3.0 Single	-1	0.5
Aluminium Alloy	4	30-40	20000	N2	8	3.0 Single	-1	0.5
Aluminium Alloy	5	20-25	20000	N2	10	4.5 Single	-2	0.5
Aluminium Alloy	6	15-22	20000	N2	10	4.5 Single	-2	0.5
Aluminium Alloy	8	14-20	20000	N2	10	5.0 Single	-3	0.5
Aluminium Alloy	10	8.0-10	20000	N2	10	5.0 Single	-3	0.5
Aluminium Alloy	12	7.0-8.0	20000	N2	10	5.0 Single	-4	0.5
Aluminium Alloy	14	4.0-6.0	20000	N2	12	5.0 Single	-5	0.5
Aluminium Alloy	16	3.0-4.5	20000	N2	14	5.0 Single	-6	0.5
Aluminium Alloy	18	2.3-3.0	20000	N2	14	5.0 Single	-6	0.5
Aluminium Alloy	20	2.0-2.3	20000	N2	16	5.0 Single	-7	0.5
Aluminium Alloy	25	1.0-1.5	20000	N2	18	6.0 Single	-8	0.5
Aluminium Alloy	30	0.6-0.8	20000	N2	20	6.0 Single	-8	0.5
Aluminium Alloy	40 *	0.3-0.6 *	20000	N2	25 *	6.0 Single *	+8 *	0.5 *
Aluminium Alloy	50 *	0.3-0.4 *	20000	N2	28 *	6.0 Single *	+8 *	0.5 *
Aluminium Alloy	60 *	0.2-0.3 *	20000	N2	28 *	6.0 Single *	+8 *	0.5 *
Brass	1	50-60	20000	N2	10	3.0 Single	0	0.5
Brass	2	35-45	20000	N2	10	3.5 Single	0	0.5
Brass	3	28-35	20000	N2	10	3.5 Single	0	0.5
Brass	4	23-28	20000	N2	10	3.5 Single	-1	0.5
Brass	5	15-20	20000	N2	12	4.5 Single	-1	0.5
Brass	6	12-15	20000	N2	12	4.5 Single	-1.5	0.5
Brass	8	8.0-10	20000	N2	12	5.0 Single	-2	0.5
Brass	10	5.0-7.0	20000	N2	13	5.0 Single	-3	0.5
Brass	12	3.5-5.5	20000	N2	14	5.0 Single	-3	0.5
Brass	14	3.0-4.5	20000	N2	14	5.0 Single	-4	0.5
Brass	16	2.0-3.0	20000	N2	14	5.0 Single	-5	0.5
Brass	18	1.0-1.5	20000	N2	16	5.0 Single	-6	0.5
Brass	20	0.7-0.9	20000	N2	18	6.0 Single	-6.5	0.5
Cuivre	1	30-40	20000	O2	8	3.0 Single	0	0.5	3
Cuivre	2	22-30	20000	O2	8	3.0 Single	0	0.5	3
Cuivre	3	20-25	20000	O2	8	3.5 Single	0	0.5	3
Cuivre	4	15-18	20000	O2	10	3.5 Single	-1	0.5	3
Cuivre	5	12-14	20000	O2	10	5.0 Single	-1	0.5	3
Cuivre	6	7.0-9.0	20000	O2	10	5.0 Single	-2	0.5	3
Cuivre	8	4.5-5.5	20000	O2	10	5.0 Single	-3	0.5	3
Cuivre	10	3.0-3.5	20000	O2	12	5.0 Single	-4	0.5	3
Cuivre	12 *	2.0-2.5 *	20000	O2	14 *	5.0 Single *	-5 *	0.5 *	3

Important Remarks

Remark 1: It is recommended to use air or nitrogen for cutting carbon steel 1-6mm. The cutting speed is faster than using oxygen, and there will be slight slag hanging.
Remark 2: Depending on the on-site gas purity, plate quality, etc., the power used for debugging and the speed of debugging will also be different.
Remark 3: Copper needs to be cut with high-pressure oxygen. Using other gases for cutting may risk damaging the laser.

Note on Actual Cutting Conditions

Note: The actual batch cutting, affected by machine tools, systems, cutting head, air pressure, materials and other factors, the data may be changed, the asterisks marked parameters in the table are proofing parameters, in the actual processing is greatly affected by various factors, only suitable for small batch production, mass production and processing is not recommended, it is recommended to use higher power laser.

Optimizing Your Cutting Process

Understanding and applying the correct 30000W laser cutting parameters is essential for achieving high-quality, precise cuts. By fine-tuning power output, cutting speed, focus position, gas pressure, and pulse frequency, you can optimize your laser cutting operations to meet specific material requirements. Our latest 30KW laser cutting machine, with its advanced features and customizable parameters, ensures superior performance and efficiency.

For more detailed information and to explore how our 30000W laser cutting machine can enhance your production process, visit our website. Stay tuned for more updates and insights on laser cutting technologies.