Introduction
The landscape of industrial equipment manufacturing is witnessing a rapid expansion in the use of high-reflective metal materials, such as aluminum alloy and red copper. However, these materials pose a unique challenge due to their limited absorption rate for laser light, leading to issues such as compromised cutting surface finish, unstable welding processes, intricate weld formation, and susceptibility to porosity. Rising to meet this challenge, Han’s Laser has introduced an innovative solution – the single-module 3000W fiber laser. This technical article explores the technological marvel of this cutting-edge creation and its role in revolutionizing precision welding and cutting across diverse industries.
Empowering with High-Power Fiber Lasers
The escalating use of high-reflective metal materials necessitates innovative solutions. To meet this growing market demand, Han’s Laser has unveiled a new generation of single-module 3000W lasers, grounded in their established R&D platform and experimental center. This product features a proprietary transmission optical fiber that seamlessly integrates the benefits of high-power full output, superior beam quality, and robust anti-high reflection capability. This novel creation effectively addresses the challenges associated with welding and cutting high-reflective materials like aluminum alloy and copper.
Multi-angle product images
A Compact Powerhouse
As compared to multi-mode 3000W continuous fiber lasers, the layout structure of the single-module variant is notably more compact and streamlined. This design lends itself to a wider array of specialized environments, particularly those demanding strict volume and weight requirements. Notably, this compact layout contributes to reduced space and weight within the processing system, enhancing its versatility and applicability to a broader range of customer needs.
Comparison between new and old product
Elevated Integration and Enhanced Efficiency
The single-module 3000W fiber laser by Han’s Laser boasts an elevated integration level, characterized by a photoelectric separation-based overall structure. This thoughtful design not only simplifies future maintenance but also effectively resolves the issues of output beam quality, stability, redundancy, and bulkiness commonly associated with high-power fiber lasers. The result is a seamless synergy of precision laser cutting and welding capabilities, providing industries with enhanced production efficiency and reliability.
Output power curve
Exploring Diverse Applications
Driven by technological innovation, Han’s Laser single-module fiber laser family is on an explorative journey, closely aligning with industries such as automobile manufacturing, new energy, and aerospace. This dynamic integration extends to welding of auto parts, aluminum connecting pieces of power batteries, shell and cover sealing aluminum alloy welding, aviation blade laser precision repair, and precision cutting. Moreover, the single-module 3000W products find diverse applications in metal laser welding, fine cutting, surface treatment, thin plate drilling, 3D printing rapid prototyping, and beyond. This technological prowess significantly amplifies efficiency in welding and cutting tasks, presenting a distinct advantage over comparable laser technologies.
Welding samples
A Future of Innovation
The successful launch of the single-module 3000W fiber laser is a testament to Han’s Laser’s unwavering commitment to progress, technical excellence, and meticulous structural design. Moving forward, Han’s Laser remains steadfast in its pursuit of innovation, adapting to the ever-evolving market landscape, championing the miniaturization and lightweight technological revolution, and expanding the horizons of fiber laser application scenarios.
Welding samples