Surface Treatment Lasers Overview
Lasers are utilized in a wide variety of different surface treatment applications in modern manufacturing and materials processing. This application space encompasses a wide variety of diverse processes, ranging from surface heating applications such as cladding and laser cleaning to thermal ablation applications like engraving and marking. As a result, the lasers required for such applications are also extremely diverse. For example, laser cladding involves the use of extremely high powered laser diode stacks, coupled with either a focused jet of powdered material in a buffer gas coincident with the cladding laser spot or by depositing the material on the surface first and then scanning over it with the cladding laser. By contrast, laser texturing uses q-switched laser pulses to engrave the negative image of a design into a mold to produce an end product with a raised decorative patterned surface. Perhaps one of the most unique laser surface treatment applications is lithography, which is widely used in the semiconductor industry for etching nanoscale structures into wafers, transferring shapes from a photomask to the wafer using ultraviolet light by UV lasers. On this page, you will find a list of all of the surface treatment lasers we offer at RPMC.
RPMC has years of experience supporting Surface Treatment applications, helping industry professionals select the right tool for the job.
Contact Us today to let one of our knowledgeable Product Managers assist you!
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Lasers are utilized in a wide variety of different surface treatment applications in modern manufacturing and materials processing. This application space encompasses a wide variety of diverse processes, ranging from surface heating applications such as cladding and laser cleaning to thermal ablation applications like engraving and marking. As a result, the lasers required for such applications are also extremely diverse. For example, laser cladding involves the use of extremely high powered laser diode stacks, coupled with either a focused jet of powdered material in a buffer gas coincident with the cladding laser spot or by depositing the material on the surface first and then scanning over it with the cladding laser. By contrast, laser texturing uses q-switched laser pulses to engrave the negative image of a design into a mold to produce an end product with a raised decorative patterned surface. Perhaps one of the most unique laser surface treatment applications is lithography, which is widely used in the semiconductor industry for etching nanoscale structures into wafers, transferring shapes from a photomask to the wafer using ultraviolet light by UV lasers. On this page, you will find a list of all of the surface treatment lasers we offer at RPMC.
[su_spacer size="30"]RPMC has years of experience supporting Surface Treatment applications, helping industry professionals select the right tool for the job.
Contact Us today to let one of our knowledgeable Product Managers assist you!
[su_spacer size="45"] [su_button url="https://www.rpmclasers.com/contact/" target="blank" style="flat" background="#ff6600" size="10" center="yes"]Talk to a Product Manager[/su_button] [su_spacer size="50"] [parent] => 0 [count] => 13 [filter] => raw [term_order] => 0 ) [queried_object_id] => 6398 [request] => SELECT SQL_CALC_FOUND_ROWS wp_posts.ID FROM wp_posts LEFT JOIN wp_term_relationships ON (wp_posts.ID = wp_term_relationships.object_id) LEFT JOIN wp_term_relationships AS tt1 ON (wp_posts.ID = tt1.object_id) LEFT JOIN wp_term_relationships AS tt2 ON (wp_posts.ID = tt2.object_id) WHERE 1=1 AND ( wp_term_relationships.term_taxonomy_id IN (6398) AND tt1.term_taxonomy_id IN (6398) AND tt2.term_taxonomy_id IN (6398) ) AND wp_posts.post_type = 'product' AND ((wp_posts.post_status = 'publish')) GROUP BY wp_posts.ID ORDER BY wp_posts.post_title ASC LIMIT 0, 10 [posts] => Array ( [0] => WP_Post Object ( [ID] => 24529 [post_author] => 7 [post_date] => 2019-11-13 16:06:00 [post_date_gmt] => 2019-11-13 16:06:20 [post_content] =>Overview of BDL-CW1000 – 915nm or 976nm Fiber-Coupled Direct Diode Laser
The BDL-CW1000 is a high-power, fiber-coupled, 915nm, or 976nm direct diode laser (DDL) from BWT, capable of CW output as well as modulated output up to 5kHz. This easy to integrate OEM laser diode module utilizes specially designed micro-optics to transform the asymmetric beam out of the laser chip, improving the beam quality to couple the laser into small core fiber optics, providing 1000 watts of power and unprecedented brightness from a 330µm fiber.BDL-CW1000 Key Specifications:
- 1000W CW
- 915 or 976nm
- 5kHz modulation
- 330µm fiber
- 100,000 hour diode lifetime
BDL-CW1000 Features:
- Maintenance-free operation
- Excellent power stability
- Outstanding reliability
- Convenient control interface
- High wall-plug efficiency
- Competitively priced
BDL-CW1000 Applications:
- Welding
- Cladding
- Surface treatment
- Li battery manufacturing
Overview of BDL-CW2000 – 915nm or 976nm Fiber-Coupled Direct Diode Laser
The BDL-CW2000 is a high-power, fiber-coupled, 915nm, or 976nm direct diode laser (DDL) from BWT, capable of CW output as well as modulated output up to 5kHz. This easy to integrate OEM laser diode module utilizes specially designed micro-optics to transform the asymmetric beam out of the laser chip, improving the beam quality to couple the laser into small core fiber optics, providing 2000 watts of power and unprecedented brightness from a 600µm fiber.BDL-CW2000 Key Specifications:
- 2000W CW
- 915 or 976nm
- 5kHz modulation
- 600µm fiber
- 100,000 hour diode lifetime
BDL-CW2000 Features:
- Maintenance-free operation
- Excellent power stability
- Outstanding reliability
- Convenient control interface
- High wall-plug efficiency
- Competitively priced
BDL-CW2000 Applications:
- Welding
- Cladding
- Surface treatment
- Li battery manufacturing
Overview of BDL-CW3000 – 915nm or 976nm Fiber-Coupled Direct Diode Laser
The BDL-CW3000 is a high-power, fiber-coupled, 915nm, or 976nm direct diode laser (DDL) from BWT, capable of CW output as well as modulated output up to 5kHz. This easy to integrate OEM laser diode module utilizes specially designed micro-optics to transform the asymmetric beam out of the laser chip, improving the beam quality to couple the laser into small core fiber optics, providing 3000 watts of power and unprecedented brightness from a 600µm fiber.BDL-CW3000 Key Specifications:
- 3000W CW
- 915 or 976nm
- 5kHz modulation
- 600µm fiber
- 100,000 hour diode lifetime
Features:
- Maintenance-free operation
- Excellent power stability
- Outstanding reliability
- Convenient control interface
- High wall-plug efficiency
- Competitively priced
Applications:
- Welding
- Cladding
- Surface treatment
- Li battery manufacturing
Overview of JOLD-1100-CAFN-10A: Laser Diode Stack
The JOLD-1100-CAFN-10A is a free space, multimode laser diode stack, with 1000W QCW output power, and wavelength options of 940nm, or 980nm. High power 1000W laser diode bar stacks require a very efficient actively cooled package, like microchannel cooling (MCC) heatsinks, due to a large amount of heat waste in a small area. Our vertical stacks enable you to increase the optical output power of your diode laser to your desired power output. To do so, we stack up to 12 mounted laser bars to form a diode laser stack or an assembly, providing up to 1200W output power. Because of the small gaps between the laser bars, maximum brilliance is achieved from the stacks. These JOLD-1100-CAFN-10A actively cooled stacks are available without collimation, with a Fast-Axis (FA) collimation only or combined Fast-Axis/Slow-Axis (SA) collimation. [su_spacer="30"]JOLD-1100-CAFN-10A Features:
- High optical output power up to 1100 W QCW
- Wavelengths: 940 and 980 nm
- High efficiency, low divergences
- Lifetime > 1 GShot, high reliability
- Collimation options
JOLD-1100-CAFN-10A Applications:
- Material processing: Curing of metals, annealing.
- Medical technology: Esthetics, dermatology.
- Industry: Pumping source for fiber lasers and solid-state lasers.
- Science and research: Pumping source for fiber lasers.
Overview of JOLD-1200-CANN-10A: Laser Diode Stack
The JOLD-1200-CANN-10A is a free space, multimode laser diode stack, with 1000W QCW output power, and wavelength options of 940nm, or 976nm. High power 1000W laser diode bar stacks require a very efficient actively cooled package, like microchannel cooling (MCC) heatsinks, due to a large amount of heat waste in a small area. Our vertical stacks enable you to increase the optical output power of your diode laser to your desired power output. To do so, we stack up to 12 mounted laser bars to form a diode laser stack or an assembly, providing up to 1200W output power. Because of the small gaps between the laser bars, maximum brilliance is achieved from the stacks. These JOLD-1200-CANN-10A actively cooled stacks are available without collimation, with a Fast-Axis (FA) collimation only or combined Fast-Axis/Slow-Axis (SA) collimation. [su_spacer="30"]JOLD-1200-CANN-10A Features:
- High optical output power up to 1200 W QCW
- Wavelengths: 940 and 976 nm
- High efficiency, low divergences
- Lifetime > 1 GShot, high reliability
- Collimation options
JOLD-1000-QANN-10A Applications:
- Material processing: Curing of metals, annealing.
- Medical technology: Esthetics, dermatology.
- Industry: Pumping source for fiber lasers and solid-state lasers.
- Science and research: Pumping source for fiber lasers.
Overview of JOLD-1320-CAFN-12A: Laser Diode Stack
The JOLD-1320-CAFN-12A is a free space, multimode laser diode stack, with 1320W QCW output power, and wavelength options of 940nm, or 976nm. High power 1320W laser diode bar stacks require a very efficient actively cooled package, like microchannel cooling (MCC) heatsinks, due to a large amount of heat waste in a small area. Our vertical stacks enable you to increase the optical output power of your diode laser to your desired power output. To do so, we stack up to 12 mounted laser bars to form a diode laser stack or an assembly, providing up to 1320W output power. Because of the small gaps between the laser bars, maximum brilliance is achieved from the stacks. These JOLD-1320-CAFN-12A actively cooled stacks are available without collimation, with a Fast-Axis (FA) collimation only or combined Fast-Axis/Slow-Axis (SA) collimation. [su_spacer="30"]JOLD-1320-CAFN-12A Features:
- High optical output power up to 1320 W QCW
- Wavelengths: 940 and 976 nm
- High efficiency, low divergences
- Lifetime > 1 GShot, high reliability
- Collimation options
JOLD-1320-CAFN-12A Applications:
- Material processing: Curing of metals, annealing.
- Medical technology: Esthetics, dermatology.
- Industry: Pumping source for fiber lasers and solid-state lasers.
- Science and research: Pumping source for fiber lasers.
Overview of JOLD-2400-Q-8A-H: Laser Diode Stack
The JOLD-2400-Q-8A-H is a free space, multimode laser diode stack, with 2400W QCW output power, and wavelength options of 940nm, or 976nm. High power 2400W laser diode bar stacks require a very efficient actively cooled package, like microchannel cooling (MCC) heatsinks, due to a large amount of heat waste in a small area. Our vertical stacks enable you to increase the optical output power of your diode laser to your desired power output. To do so, we stack up to 12 mounted laser bars to form a diode laser stack or an assembly, providing up to 2400W output power. Because of the small gaps between the laser bars, maximum brilliance is achieved from the stacks. These JOLD-2400-Q-8A-H actively cooled stacks are available without collimation, with a Fast-Axis (FA) collimation only or combined Fast-Axis/Slow-Axis (SA) collimation. [su_spacer="30"]JOLD-2400-Q-8A-H Features:
- High optical output power up to 2400 W QCW
- Wavelengths: 940 and 976 nm
- High efficiency, low divergences
- Lifetime > 1 GShot, high reliability
- Collimation options
JOLD-2400-Q-8A-H Applications:
- Material processing: Curing of metals, annealing.
- Medical technology: Esthetics, dermatology.
- Industry: Pumping source for fiber lasers and solid-state lasers.
- Science and research: Pumping source for fiber lasers.
Overview of JOLD-720-CAFN-10A: Laser Diode Stack
The JOLD-720-CAFN-10A is a free space, multimode laser diode stack, with 720W QCW output power, and wavelength options of 808nm. High power 720W laser diode bar stacks require a very efficient actively cooled package, like microchannel cooling (MCC) heatsinks, due to a large amount of heat waste in a small area. Our vertical stacks enable you to increase the optical output power of your diode laser to your desired power output. To do so, we stack up to 12 mounted laser bars to form a diode laser stack or an assembly, providing up to 720W output power. Because of the small gaps between the laser bars, maximum brilliance is achieved from the stacks. These JOLD-720-CAFN-10A actively cooled stacks are available without collimation, with a Fast-Axis (FA) collimation only or combined Fast-Axis/Slow-Axis (SA) collimation. [su_spacer="30"]JOLD-720-CAFN-10A Features:
- High optical output power up to 720 W QCW
- Wavelengths: 808 nm
- High efficiency, low divergences
- Lifetime > 1 GShot, high reliability
- Collimation options
JOLD-2400-Q-8A-H Applications:
- Material processing: Curing of metals, annealing.
- Medical technology: Esthetics, dermatology.
- Industry: Pumping source for fiber lasers and solid-state lasers.
- Science and research: Pumping source for fiber lasers.
Overview of JOLD-720-CANN-6A: Laser Diode Stack
The JOLD-720-CANN-6A is a free space, multimode laser diode stack, with 720W QCW output power, and wavelength options of 940nm, or 976nm. High power 720W laser diode bar stacks require a very efficient actively cooled package, like microchannel cooling (MCC) heatsinks, due to a large amount of heat waste in a small area. Our vertical stacks enable you to increase the optical output power of your diode laser to your desired power output. To do so, we stack up to 12 mounted laser bars to form a diode laser stack or an assembly, providing up to 720W output power. Because of the small gaps between the laser bars, maximum brilliance is achieved from the stacks. These JOLD-720-CANN-6A actively cooled stacks are available without collimation, with a Fast-Axis (FA) collimation only or combined Fast-Axis/Slow-Axis (SA) collimation. [su_spacer="30"]JOLD-720-CANN-6A Features:
- High optical output power up to 720 W QCW
- Wavelengths: 940 and 976 nm
- High efficiency, low divergences
- Lifetime > 1 GShot, high reliability
- Collimation options
JOLD-720-CANN-6A Applications:
- Material processing: Curing of metals, annealing.
- Medical technology: Esthetics, dermatology.
- Industry: Pumping source for fiber lasers and solid-state lasers.
- Science and research: Pumping source for fiber lasers.
Overview of JOLD-800-CANN-10A: Laser Diode Stack
The JOLD-800-CANN-10A is a free space, multimode laser diode stack, with 800W QCW output power, and wavelength of 808nm. High power 800W laser diode bar stacks require a very efficient actively cooled package, like microchannel cooling (MCC) heatsinks, due to a large amount of heat waste in a small area. Our vertical stacks enable you to increase the optical output power of your diode laser to your desired power output. To do so, we stack up to 12 mounted laser bars to form a diode laser stack or an assembly, providing up to 800W output power. Because of the small gaps between the laser bars, maximum brilliance is achieved from the stacks. These JOLD-800-CANN-10A actively cooled stacks are available without collimation, with a Fast-Axis (FA) collimation only or combined Fast-Axis/Slow-Axis (SA) collimation. [su_spacer="30"]JOLD-800-CANN-10A Features:
- High optical output power up to 800 W QCW
- Wavelengths: 808 nm
- High efficiency, low divergences
- Lifetime > 1 GShot, high reliability
- Collimation options
JOLD-800-CANN-10A Applications:
- Material processing: Curing of metals, annealing.
- Medical technology: Esthetics, dermatology.
- Industry: Pumping source for fiber lasers and solid-state lasers.
- Science and research: Pumping source for fiber lasers.
Overview of BDL-CW1000 – 915nm or 976nm Fiber-Coupled Direct Diode Laser
The BDL-CW1000 is a high-power, fiber-coupled, 915nm, or 976nm direct diode laser (DDL) from BWT, capable of CW output as well as modulated output up to 5kHz. This easy to integrate OEM laser diode module utilizes specially designed micro-optics to transform the asymmetric beam out of the laser chip, improving the beam quality to couple the laser into small core fiber optics, providing 1000 watts of power and unprecedented brightness from a 330µm fiber.BDL-CW1000 Key Specifications:
- 1000W CW
- 915 or 976nm
- 5kHz modulation
- 330µm fiber
- 100,000 hour diode lifetime
BDL-CW1000 Features:
- Maintenance-free operation
- Excellent power stability
- Outstanding reliability
- Convenient control interface
- High wall-plug efficiency
- Competitively priced
BDL-CW1000 Applications:
- Welding
- Cladding
- Surface treatment
- Li battery manufacturing