Our Fibre Lasers
Our fibre laser systems are engineered for high-precision cutting applications where tight tolerances and edge quality are critical. They are widely deployed across industries such as machinery manufacturing, microelectronics, glass processing, and electronics, where consistent accuracy and repeatability are essential.
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Optimised for processing thin-gauge materials, these systems deliver efficient cutting of stainless steel, galvanised sheet, electrolytic plate, and a variety of other metals. Advanced beam quality and control ensure minimal heat-affected zones, clean edge finishes, and high-speed operation, supporting increased productivity without compromising precision.
Dual Rail and Dual Driver Design
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To prevent the cutting line deformation caused by the Y-axis screw bending, the Y-axis on both sides have been equipped two rails guide and double ball drive screw design to ensure the straightness and arc degree when with high-speed cutting is in operation.
Auto Focusing
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Without manual focusing
The software automatically adjusts the focusing lens to realize automatic perforating and cutting plates of different thickness. The speed of automatically adjusting focus lens is ten times of the manual adjusting.
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Bigger adjustment range
Adjustment range -10 mm~ +10mm, precision 0.01mm, suitable for 0 ~ 20mm different types of plates.
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Long service life
Collimator lens and focus lens both have water-cooling heat sink which reduces the temperature of the cutting head to improve the life of the cutting head.
3rd Gen Aluminium Gantry
Manufactured to aerospace-grade standards, the gantry is formed using 4300-ton press extrusion technology to ensure exceptional structural integrity. Following controlled aging treatment, it achieves the mechanical properties of 6061-T6 aluminium, delivering one of the highest strength-to-weight ratios available for this type of structure.
Aviation-grade aluminium offers multiple performance advantages, including high toughness, low density, excellent corrosion resistance, and strong anti-oxidation properties. Its lightweight characteristics significantly reduce inertial load, enabling higher acceleration and improved processing speeds without compromising stability or precision.
