China CCMT2026 Exhibits 52 Sets of Laser Processing Machine Tools
2026-07-09 13:50
Favorite

en.Wedoany.com Reported - At the China CCMT2026 exhibition, a total of 33 related manufacturers participated, showcasing 52 sets of laser processing machine tools. At this exhibition, laser processing machine tools are accelerating their evolution towards integration, intelligence, and production line coordination, becoming key equipment in the high-end manufacturing sector. Equipment exhibited by Chinese companies has shown significant progress in high-dynamic lightweight structures and specialized industry solutions. The performance of some products has reached internationally advanced levels, and the pace of domestic substitution continues to accelerate.

In terms of laser cutting machine tools, with advancements in high-power fiber lasers, intelligent cutting heads, CNC systems, and auxiliary gas control technologies, equipment forms are evolving from general-purpose flatbed cutting machines towards high-power, specialized, integrated, and automated directions. The G3015HF EXPERT high-power laser cutting machine tool exhibited by Han's Laser Technology Industry Group Co., Ltd. supports a maximum power output of 60kW, adapting to processing needs for different thicknesses and materials, suitable for thick plate processing in industries such as heavy machinery and pressure vessels. The GP 3015P ultra-high-speed laser cutting machine tool from Ningbo Haitian Laser Technology Co., Ltd. covers a power range of 3000-30000W, featuring a center-of-gravity-driven semi-monocoque steel beam and a rotary direct-drive motor, with a linkage speed of 196m/min and positioning accuracy of ±0.03mm/m, suitable for high-end processing scenarios like precision sheet metal. The HLF-1530 from Jiangsu Yawei Machine Tool Co., Ltd. is equipped with a 6000W laser, supports flying cutting technology, with a linkage speed of 200m/min and repeat positioning accuracy of ±0.02mm, suitable for processing new energy vehicle parts, medical equipment shell parts, and metal precision structural components.

Image

Image

Image

Han's Laser's F2 dedicated laser tube cutting machine is suitable for processing various tube types including round, square, and special-shaped tubes. It adopts a dual-chuck linkage design and is equipped with dedicated tube cutting software that can automatically generate optimized cutting paths. The Hongshan R2PRO laser cutting machine from Guangdong Hongshi Laser Technology Co., Ltd. has the capability to cut special-shaped tubes. Using dual-line scan real-time correction technology, it achieves processing accuracy of ±0.1mm for extruded tubes and ±0.2mm for special-shaped tubes. The K12 series laser cutting machine from Foshan Huibaisheng Laser Technology Co., Ltd. features a dual-chuck horizontal bed, with a maximum chuck rotation speed of 140r/min, suitable for batch processing needs in multiple industries such as steel structures and furniture manufacturing.

Image

The HPML-3058 punch-laser combination machine tool from Jiangsu Yawei Machine Tool Co., Ltd. integrates servo punching and laser cutting functions into one unit. Equipped with a high-precision worktable and a multi-station tool turret, it enables continuous processing of multiple processes including punching, forming, cutting, and bending. The Air series laser cutting machine from Jinan Bodor Laser Co., Ltd. is an air-cooled integrated handheld laser device with a power range of 600-1500W, integrating functions of welding, cutting, and rust removal cleaning.

Image

Laser precision processing machine tools are primarily targeted at processing objects such as cemented carbide tools, superhard material parts, precision molds, and micro-structured functional surfaces. They are evolving from simple laser processing towards integrating high-precision motion platforms, five-axis linkage control, automatic tool setting and positioning, process databases, and closed-loop compensation. The LASERTEC 50 PrecisionTool Femto laser processing machine tool from DMG MORI has maximum X, Y, and Z axis travels of 540mm, 500mm, and 700mm respectively, utilizing a 20W femtosecond laser combined with five-axis linkage processing technology. The LASER S 500 (U) laser machine tool from the Swiss UMS Group is configured with a digital three-axis scanning galvanometer, and the laser head is equipped with a probe for precise measurement of X, Y, and Z axis positions.

Image

The CL2-400 precision CNC laser tool processing machine tool from Beijing Ander Jianqi Digital Equipment Co., Ltd. combines five-axis linkage control with fiber laser technology. The A-axis rotation angle is -210°~+40°, and the B-axis rotation angle is ±360°. The A/B axes use torque motor direct drive and a dual-support cradle structure. The multifunctional five-axis laser machine tool 330QH exhibited by Shenzhen Muji Technology Co., Ltd. integrates five-axis linkage technology with nanosecond laser processing, incorporating multiple functions such as tangential/inverse cutting, laser turning, 3D engraving, drilling, and marking. It adopts controllable passivation and ultra-sharp edge technology, with a minimum processing tooth pitch of 0.05mm, supporting the processing of PCD integral drills above 0.3mm. The MK065 laser precision processing machine tool exhibited by Wuhan Huagong Laser Engineering Co., Ltd. is centered on the Industrial Intelligent Agent AI vision algorithm, integrating a large model expert system to achieve a full-process closed loop of intelligent operation and maintenance, process learning, and AI intelligent programming. The high-speed micro-hole laser processing equipment exhibited by Xi'an Zhongke Micro Precision uses a servo motor drive coupled with a high-precision ball screw and precision-grade guide rail transmission. The machine tool has a processing accuracy of 0.02mm, positioning accuracy of 0.01mm, repeat positioning accuracy of 0.008mm, maximum rapid traverse speed of 20m/min, maximum feed speed of 12m/min, and adopts a full closed-loop feedback system.

Image

Image

The RJ303 series water-jet guided laser processing machine tool from Nanjing Zhongke Yuchen Laser Technology Co., Ltd. features fully independent and controllable core technologies, including the water-jet guided laser coupling processing head, ultrapure water system, and high-pressure water system. The MLS300 ultra-precision water-jet guided laser processing machine tool from Changzhou Mingseal Robot Technology Co., Ltd. can perform ultra-precision processing on thin and brittle materials such as ceramics, wafers, and thin alloy sheets, as well as thick and hard materials like silicon carbide, boron carbide, carbon fiber, and diamond, achieving a cutting depth ratio of over 30:1. This equipment uses non-contact processing, with a material heat-affected zone of less than 5µm and a minimum cutting kerf of 30µm.

In terms of laser additive manufacturing equipment, its application is shifting from process trials and prototype manufacturing to the engineering production of complex metal parts. Equipment evaluation focuses more on forming efficiency, dimensional accuracy, performance consistency, and subsequent processing integration. The C650M powder bed 3D printing equipment from Ningbo Haitian Additive Technology Co., Ltd. adopts a single-recoater bidirectional powder spreading system and multi-laser collaborative technology, with a forming rate of 100cm³/h, maximum scanning speed of 7m/s, and powder layer thickness of 20~100μm. The RC-ASHM V40 additive-integrated five-axis machining center from Nanjing Zhongke Yuchen Laser Technology Co., Ltd. integrates laser cladding deposition with five-axis linkage precision machining, with a positioning accuracy of 0.008mm, suitable for titanium-nickel-based alloys, mold steel, etc. The MT400M laser powder bed fusion equipment showcased by AVIC Metal Additive Technology (Beijing) Co., Ltd. has a forming size of 420mm×350mm×400mm, standardly equipped with 4-laser technology, with an optional 6-laser module. The dislocation deviation in the overlapping area of each laser is controlled within 5μm, and the 4-laser forming efficiency can reach 100-150cm³/h.

Image

From this exhibition, the development of laser processing and additive manufacturing machine tools shows multiple trends. The localization of core components is transitioning from substitutability to stability and reliability, especially with further improvements in the localization of key modules such as cutting heads, welding heads, galvanometers, and CNC systems. Digital linkage capability is becoming an important indicator for distinguishing equipment levels. Functions such as process databases, process monitoring, and path compensation are increasing, and equipment is moving towards a "monitorable, feedback-capable, traceable" direction. Integration is becoming a key direction for breaking through application boundaries. Processes like water-jet guided laser processing promote the synergistic development of multi-energy fields, while the integration of manufacturing processes transforms machine tools from single processing equipment into complete manufacturing units. Laser additive manufacturing equipment is shifting from prototype trial production to engineering manufacturing. Features such as large-size forming, efficient powder spreading, stable atmosphere control, and online monitoring are more prominently reflected, but continuous improvements are still needed in areas such as material process databases, process defect control, and post-processing integration.

This bulletin is compiled and reposted from information of global Internet and strategic partners, aiming to provide communication for readers. If there is any infringement or other issues, please inform us in time. We will make modifications or deletions accordingly. Unauthorized reproduction of this article is strictly prohibited. Email: news@wedoany.com