Industrial Laser Welding Machine
Blue Light Hybrid Laser Weld for Sealed Welding of Copper Liquid Cooling Plates
Blue Light Hybrid Laser Weld for Sealed Welding of Copper Liquid Cooling Plates This system is designed for metals with high reflectivity such as copper, gold, and silver. The blue light wavelength interacts more efficiently with these materials, allowing energy to be absorbed more easily and supporting stable weld formation in demanding conductive applications. The equipment integrates composite laser sources with an adaptive wobble function to improve energy distribution
Blue Light Hybrid Laser Welder with Superior Absorption for Deep & Consistent Welds
Blue Light Hybrid Laser Welder with Superior Absorption for Deep & Consistent Welds The advanced blue hybrid laser welder is engineered for materials like copper, gold, and silver that typically reflect most laser energy. Its blue wavelength enables efficient absorption, producing a stable and consistent weld. Ideal for electronic components, battery busbars, and high-conductivity parts. Key Features Precision Welding for Highly Reflective Metals. Hybrid Beam with Controlled
HanWei Innovative Inner and Outer Ring Laser Design Full Version Spot-Ring Welder
HanWei Innovative Inner and Outer Ring Laser Design Full Version Spot-Ring Welder This full-version dot-ring laser welding system incorporates a company-developed laser source with independently adjustable inner and outer ring energies. Its advanced optical design ensures stable, uniform beam distribution, allowing precise energy control tailored to a variety of industrial welding applications. The system supports multiple beam output options, including single inner-ring
HW QCW Laser Welder for Extended Pulse Duration and High Peak Power Applications
HW QCW Laser Welder for Extended Pulse Duration and High Peak Power Applications The QCW (Quasi-Continuous Wave) fiber lasers are engineered for industrial processes requiring both extended pulse duration and high peak power output. These systems excel in applications such as spot welding and seam welding, delivering controlled energy over defined time periods for stable melt pool formation and consistent weld penetration. Key Features Designed for applications requiring
Full Version Spot-Ring Welder for Complex and High-Quality Welding Applications
Full Version Spot-Ring Welder for Complex and High-Quality Welding Applications Product Description The full-version dot-ring laser welding system features a self-engineered laser source with independently tunable inner and outer ring energy. This design ensures highly stable and uniform beam output, giving precise control over energy distribution to meet diverse industrial welding needs. This laser welding machine offers multiple beam configurations, including Gaussian beam
High Absorption Blue Light Composite Laser Welder for Improved Weld Penetration
High Absorption Blue Light Composite Laser Welder for Improved Weld Penetration The blue laser hybrid welding machine is mainly used for welding high-reflective materials such as copper, gold, and silver. Compared with traditional lasers, blue wavelength improves energy absorption on these metals, helping achieve a more stable and consistent welding process. It is suitable for conductive components and battery-related applications. Key Features Designed for High-Reflective
QCW Laser Welder With Reduced Maintenance And Increased Operational Reliability
QCW Laser Welder With Reduced Maintenance And Increased Operational Reliability The QCW (Quasi-Continuous Wave) fiber laser delivers high peak energy over extended pulse durations, making it ideal for precision spot welding, seam welding, and other industrial applications. Its concentrated and stable pulses rapidly heat the target area, producing uniform melt pools while minimizing heat-affected zones. Whether welding thin sheets or combining different metal thicknesses, the
Stable Molten Pool Blue Light Composite Laser Welding Machine With Almost No Spatter
Stable Molten Pool Blue Light Composite Laser Welding Machine With Almost No Spatter To address the challenge that high-reflection metals like copper, gold, and silver barely absorb energy from conventional lasers, the blue laser hybrid welding machine adopts short-wave blue laser technology to achieve significantly higher energy coupling efficiency. Even for highly conductive and thermally conductive materials, it can rapidly form a stable molten pool, greatly reducing risks
HanWei QCW Laser Welding Machine for High Energy Density and Long Pulse Welding
HanWei QCW Laser Welding Machine for High Energy Density and Long Pulse Welding Quasi-continuous wave (QCW) fiber lasers deliver high-intensity laser energy over a long operating duration, enabling the material surface to rapidly form a stable melting zone. This characteristic makes them particularly suitable for welding processes that require stable heat input, such as precision spot joining and continuous welding path processing. Through precise control of pulse parameters,
Platform Single Motor Welder with Multiple Structures for Flexible Application Adaptation
Platform Single Motor Welder with Multiple Structures for Flexible Application Adaptation The platform swing welding machine is equipped with a swing welding head optimally designed for fiber laser systems, featuring a highly integrated overall structure and an ultra-lightweight design concept. Weighing only about 3kg, the welding head greatly reduces the load on the platform, making it particularly suitable for miniaturized and compact equipment. Its internal optical path
Blue Laser Hybrid Welder with High Absorption Characteristics for Ideal Weld Depth
Blue Laser Hybrid Welder with High Absorption Characteristics for Ideal Weld Depth The blue laser hybrid welding machine is mainly used for the joining and processing of high-reflectivity metal materials such as copper, gold and silver. Such materials tend to cause energy rebound under the action of conventional lasers, leading to unstable welding. The blue laser wavelength has stronger energy coupling ability on the metal surface, which can quickly complete heat input and
Thin-Plate Friendly Semiconductor Hybrid Welding Machine with Reduced Burn-Through
Thin-Plate Friendly Semiconductor Hybrid Welding Machine with Reduced Burn-Through The Hanwei semiconductor hybrid welding machine leverages the characteristic of semiconductor lasers that enable higher energy absorption on the surface of metal materials, allowing for the rapid formation of a stable molten pool at the initial stage of welding. Compared with traditional single laser welding methods, it effectively mitigates energy fluctuations caused by highly reflective
HW Blue Laser Hybrid Welder Enhanced Weld Quality via Ultra-High Absorption Rate
HW Blue Laser Hybrid Welder Enhanced Weld Quality via Ultra-High Absorption Rate HW Blue Laser Hybrid Welder Enhanced Weld Quality via Ultra-High Absorption Rate Description: Hanwei blue laser hybrid welding machine is specially designed for high-reflective metals such as copper, gold and silver. its short-wave blue laser can be efficiently absorbed by materials, enabling rapid heat transfer to the molten pool for stable welding. this avoids the problems of high reflection
Mold Repair Fiber Laser Welding Machine 1500w 2000w 3000w Laser Power
Mold Repair Fiber Laser Welding Machine 1500w 2000w 3000w Laser Power P roduct description The Die/Mold repair welding fiber laser system through HanWei independent research and development welding head, control system and also fiber laser source to achieve Die repair welding function. The welding system with less maintenance, Do not need beam adjustable, power energy saving, integration equipment features and advantages. Hanwei Die welding fiber laser system inherit from YAG
Blue Laser Hybrid Welding Machine of High Absorption and Optimal Weld Performance
Blue Laser Hybrid Welding Machine of High Absorption and Optimal Weld Performance The blue laser hybrid welding machine adopts short-wavelength blue laser, specially designed to solve the processing challenges of highly reflective metals such as copper, gold and silver. The blue laser energy can be rapidly absorbed by the metal surface, enabling stable formation of molten pools and avoiding welding defects caused by energy reflection. This equipment achieves higher efficiency
Bursting & Leakage-Free Semiconductor Hybrid Welder with Enhanced Welding Efficiency
Bursting & Leakage-Free Semiconductor Hybrid Welder with Enhanced Welding Efficiency The semiconductor hybrid welding machine demonstrates remarkable advantages in welding medium and thin plates, aluminum materials and highly reflective materials. Its advanced laser control system enables precise regulation of heat input, effectively reducing weld defects such as porosity, spatter and uneven welding. This enhances welding quality and reliability, making it particularly
HW Functional Replacement-Oriented QCW Welding Machine for YAG Welding Scenarios
HW Functional Replacement-Oriented QCW Welding Machine for YAG Welding Scenarios The quasi-continuous wave (QCW) fiber laser is capable of delivering concentrated energy peaks over a relatively extended pulse period, which endows it with unique advantages in industrial welding. This output characteristic is highly suitable for welding processes that require stable molten pool control, such as local fusion welding and continuous weld seam joining. By setting pulse parameters
Starship Laser Welder for Low-spatter, High-quality Welding of Diverse Metal Materials
Starship Laser Welder for Low-spatter, High-quality Welding of Diverse Metal Materials Starship Laser Welder for Low-spatter, High-quality Welding of Diverse Metal Materials The Starship Fiber Laser Welding Machine Launched in 2020, the Starship Fiber Laser Welding Machine is an original patented device developed by our company based on long-term laser application experience. Instead of following the design concept of the internationally mainstream annular beam laser, this
HanWei Spatter-Free Blue Laser Welding Machine for Efficient and Clean Processing
HanWei Spatter-Free Blue Laser Welding Machine for Efficient and Clean Processing The blue laser hybrid welding machine is specifically designed to address the welding challenges of highly reflective metals such as copper, gold, and silver. Traditional infrared lasers tend to be reflected by the material surface, resulting in insufficient heat input. In contrast, blue laser beams can be highly absorbed by metal surfaces, enabling rapid formation and stable maintenance of the
StarShip Laser Welder – Expert in Spatter-Free Welding of Copper & Stainless Steel
StarShip Laser Welder – Expert in Spatter-Free Welding of Copper & Stainless Steel StarShip Laser Welder – Expert in Spatter-Free Welding of Copper & Stainless Steel Description: The StarShip Fiber Laser Welding Machine is the company's flagship invention-patented product launched in 2020. It adopts a development route entirely different from the globally prevalent annular spot laser technology, with in-depth restructuring of the light source architecture, energy control
Blue Light Hybrid Welder: Composite Energy Superposition & Wobble for Wider Applications
Blue Light Hybrid Welder: Composite Energy Superposition & Wobble for Wider Applications The Blue Light Composite Welding Machine was developed to address the long-standing issues of low welding absorption rate and unstable heat input in highly reflective metals such as copper, gold, and silver. The blue light wavelength can be more fully absorbed by these metals, allowing the laser energy to be rapidly converted into an effective heat source, shortening the time required to
QCW Laser Welder with Significantly Reduced Maintenance via Structural Optimization
QCW Laser Welder with Significantly Reduced Maintenance via Structural Optimization Quasi-Continuous Wave (QCW) fiber lasers deliver extremely high instantaneous energy over extended pulse durations, making them highly suitable for metal processing scenarios requiring strict thermal stability and energy concentration. Whether employed for precise metal spot welding or continuous linear welding, their output mode maintains excellent repeatability. When processing various
QCW Laser Welder with Independently Developed Optical Distribution & Timing Control System
QCW Laser Welder with Independently Developed Optical Distribution & Timing Control System Quasi-Continuous Wave (QCW) fiber lasers are widely used in metal manufacturing fields requiring strict thermal input control, thanks to their ability to deliver high peak energy over extended pulse durations. Whether for spot welding on metal surfaces, regular weld seam joining, or welding of small-to-medium-sized structures demanding stable energy density, this type of laser source
QCW Fiber Laser Welder Meeting Long Pulse Width and High Peak Power Requirements
QCW Fiber Laser Welder Meeting Long Pulse Width and High Peak Power Requirements QCW Fiber Laser Welder Meeting Long Pulse Width and High Peak Power Requirements Description: Quasi-Continuous Wave (QCW) fiber lasers are widely recognized as ideal light sources for high-demand industrial welding processes, thanks to their long pulse width output and high peak power capability. Whether for metal spot welding, precision seam welding, or sealing welding processes that require
