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GLC11-300-300 Glass Laser Cutting And Breaking Machine

Glass Laser Cutting And Breaking Machine

Outdoor Multi-Channel Photovoltaic Module Steady-State Test System

Desktop Multi-Light Laser Engraving Machine

LC-LED-AAA-2400 Steady-State Solar Simulator

Fully Automatic Thin Film Photovoltaic Laser Scribing Equipment

Multi Station Laser Marking and Cutting System

Roll to Roll Laser Scribing Edge Cleaning System

Consumer Electronics Laser Drilling Equipment

High-Precision 5-Axis Simultaneous Laser Processing System

P-Series High-Speed Laser Tube Cutting Machine

High-Power Fiber Laser Cutting Machine

Integrated Processing Equipment for Thin-Film Solar Cells

Laser Welding Equipment for Metal Fabrication Automation

Fiber Laser Cutter for Sheet Metal and Tube Processing

CO2 Laser Engraving Machine for Acrylic Wood and Packaging

Power Battery Welding Line for EV Cell Module Assembly

Robotic Laser Welding Cell for Automated Metal Joining

Wafer Laser Annealing System for Semiconductor Processing

Flexible OLED Laser Cutting System for Display Panel Manufacturing

Laser Metal 3D Printer for Industrial Additive Manufacturing

Dual Chuck Laser Tube Cutting Machine for Metal Pipe Processing

PCB Laser Drilling Equipment for Precision Microvia Processing

Photovoltaic PV Cell Laser Scribing Machine

Laser Glass Cutting and Breaking All in One Machine

3D Laser Cutting Machine for Automotive Sheet Metal Parts

HDI Microvia Laser Drilling Equipment for PCB Manufacturing

Handheld Laser Cleaner for Rust Removal and Surface Preparation

Cabinet Laser Cleaning Machine for Industrial Surface Treatment

Micro LED Laser Mass Transfer System for Display Manufacturing

Backpack Laser Cleaner for Portable Rust and Surface Cleaning

Handheld Laser Cleaning Gun for Rust Paint and Weld Cleaning

Laser Optics and Accessories for Industrial Laser Systems

Laser Etching Equipment for Precision Industrial Surface Processing

LC-LED-AAA-300S LED Solar Simulator for PV Module Testing

Picosecond Glass Laser Cutting System for Precision Display Panels

Portable Handheld Laser Welding Machine for Metal Fabrication

UV Laser Marking Machine for Plastic Glass and Electronics

Fiber Laser Marking Machine for Metal Plastic and Electronics

Green Laser Marking Machine for Precision Industrial Coding

LED Solar Simulator for Photovoltaic Module Testing

Laser Cladding Machine for Surface Repair and Additive Manufacturing

Desktop Metal Laser Cutter for Small Parts Fabrication

CO2 Laser Marking Machine for Packaging and Industrial Parts

Air-Cooled Handheld Laser Welding Machine

Dual-Station Solder Paste Laser Welder

Multi-Channel PV Module Steady-State Testing System

LC-SPV-ST-2525 Space Photovoltaic Module Stability Test System

Outdoor Multi-Channel PV Module Aging Test System

Multi-Channel PV Module Steady-State Test System

One-Stop Solution for Space Environment Testing Equipment

XY-QE-001 Quantum Efficiency Measurement System

Multi Channel PV Module IV MPPT Steady State Test System

Multi Channel Photovoltaic IV MPPT Test System for Low Light Conditions

Silicon Carbide Ingot Laser Slicing System

Laser High Precision Micro Machining Equipment

Contact us

Lecheng Intelligent Technology Suzhou

Address

J Building Sound Valley Innovation Accelerator Center Changshu Economic Development Zone Changshu City Jiangsu Province

Address

jack@le-laser.com

Phone

+86-17751173582

Fax

P-Series High-Speed Laser Tube Cutting Machine

P-Series delivers industry-leading 120m/min cutting speed. Six-axis CNC control enables complex 3D pipe profiles. Automatic loading/unloading boosts production efficiency. Maintains ±0.1mm precision across all pipe diameters.

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P-Series High-Speed Laser Tube Cutting Machine application and selection guide

P-Series High-Speed Laser Tube Cutting Machine is designed for industrial laser processing projects that require stable beam control, process repeatability, and reliable integration with production requirements. For ├ Laser Cutting Equipment selection, buyers should compare material type, processing accuracy, automation level, throughput, maintenance access, and after-sales support before confirming the final equipment configuration.

Related laser solutions include Dual-Chuck Laser Tube Cutting Machine, 3D Laser Cutting Machine, Flexible OLED Laser Cutting System. These internal references help users compare similar systems and move naturally between cleaning, cutting, scribing, marking, welding, and photovoltaic laser equipment pages.

P-Series High-Speed Laser Tube Cutting Machine Description

Overview

The P-Series high-speed laser tube cutting machine is designed for precision metal tube processing. Equipped with high-power fiber laser and intelligent motion control, it handles round, square, and profile tubes up to 200mm diameter with ±0.05mm accuracy, ideal for automotive, furniture, and machinery industries.

P-Series High-Speed Laser Tube Cutting Machine

Laser Tube Cutter

Key Features

Laser System:

1000W-6000W fiber laser (optional)
Auto-focus cutting head (±0.02mm)
Cuts carbon steel, stainless steel, aluminum

Motion System:

Servo motor driven
Max tube length 6500mm
Rotary axis accuracy ±0.03°

Control System:

Intelligent CAM software
3D file import for automatic path generation
Real-time quality monitoring

Automation:

Auto loading/unloading (optional)
200-tube capacity magazine
Automatic finished/ waste sorting

Technical Advantages

Performance	Specification	Customer Benefit
Cutting Speed	15m/min (2mm SS)	3x productivity increase
Cutting Accuracy	±0.05mm	Reduces secondary ops
Material Utilization	25% improvement	Lowers material costs
Energy Consumption	60% less than plasma	Significant OPEX saving

Core Performance Rating (10-point scale):
Speed：■■■■■■■■■□ 9
Precision：■■■■■■■■■■ 10
Automation：■■■■■■■■□□ 8
Cost-Effectiveness：■■■■■■■■■□ 9

Typical Applications

Automotive: Chassis tubes, exhaust pipes
Furniture: Chair frames, stair rails
Machinery: Hydraulic tubes, structures
Sports Equipment: Fitness machine tubes

Specifications are indicative only - All equipment is fully customizable to your needs！

How long does it take from equipment ordering to official production when cooperating with Locsen?
The overall timeline varies depending on equipment specifications and production line scale. For standalone equipment, standard models require a 45-day manufacturing cycle, with total duration (including shipping and installation) of approximately 60 days. Customized equipment requires an additional 30 days based on technical requirements. For complete line solutions: • 100MW-level production lines require ~4 months for planning, equipment manufacturing, installation, and commissioning • GW-level production lines require ~8 months We provide detailed project schedules with dedicated managers ensuring seamless coordination. Example: A client's 1GW perovskite production line was completed 15 days ahead of schedule through parallel equipment manufacturing and facility construction.
Does Locsen offer suitable equipment and partnership solutions for startup perovskite companies
Locsen offers a "Phased Partnership Program" specifically designed for perovskite startups. For the initial R&D phase, we provide compact pilot-scale equipment (e.g., 10MW laser scribing systems) bundled with essential process packages to facilitate technology validation and product iteration. During scale-up phases, startups qualify for upgrade benefits: • Core modules from pilot equipment can be traded in with value deduction toward production-line machinery • Optional technical collaboration including process development support and experimental data sharing This program has successfully enabled multiple startups to transition smoothly from lab to pilot production while mitigating early-stage investment risks.
Can Locsen's equipment handle perovskite solar cells of varying sizes? What is the maximum supported dimension?
Locsen's laser equipment features exceptional size compatibility, capable of processing perovskite solar cells ranging from 10cm×10cm to 2.4m×1.2m. For oversized cell processing (e.g., 12m×2.4m rigid substrates), we offer customized gantry-type laser systems with multi-laser-head synchronization to ensure both precision and throughput. • Proven Performance: Successfully processed 1.2m×0.6m cells with industry-leading scribing accuracy (±15μm) and uniformity (＞98%) • Modular Design: Swappable optical modules adapt to varying thicknesses (0.1-6mm) • Smart Calibration: AI-assisted real-time beam alignment compensates for substrate warpage
Does Locsen provide tailored laser solutions for all key production stages of perovskite solar cells?
Yes, Locsen provides comprehensive laser processing solutions covering the entire perovskite solar cell production chain: P0 Laser Marking: For cell identification post-film deposition P1/P2/P3 Laser Scribing: Precision patterning of • Transparent conductive layers (P1) • Perovskite active layers (P2) • Back electrodes (P3) P4 Edge Isolation: Micron-level edge trimming to prevent short-circuiting Tandem Cell Modules: Dedicated laser etching systems for multi-material layer processing Our integrated equipment ecosystem ensures all laser processing requirements are met with: • ≤20μm alignment accuracy across layers • Thermal Affect Zone controlled under 5μm • Modular platforms supporting R&D to GW-scale production
What composition tolerance ranges do Locsen's tools support for variant perovskite formulations?
Locsen's laser systems demonstrate exceptional adaptability to diverse perovskite compositions. • Preloaded Parameters: Optimized settings for mainstream formulations (e.g., FAPbI₃, CsPbI₃) in the laser recipe library enable instant operator access • R&D Support: For novel compositions (e.g., Sn-based perovskites), our team delivers: Custom wavelength/fluence calibration within 72 hours Performance validation ensuring <1% PCE degradation post-processing • Smart Compensation: On-board spectroscopy modules monitor reflectivity in real-time, automatically adjusting: Pulse duration (20-500ns) Beam profile (Top-hat/Gaussian) Energy density (0.5-3J/cm²) Technical Highlights: ▸ Tolerance for ±15% stoichiometric variation in Pb:Sn ratios ▸ Support for 2D/3D hybrid phase patterning ▸ Non-contact processing avoids cross-contamination

Related Products

Dual Chuck Laser Tube Cutting Machine for Metal Pipe Processing

Dual-chuck design enables non-stop material processing. Synchronous cutting/loading doubles production output. Precision servo control maintains ±0.08mm accuracy. Smart chuck synchronization eliminates material waste.

3D Laser Cutting Machine for Automotive Sheet Metal Parts

Five-axis robotic cutting for complex 3D metal parts. High-power fiber laser handles thick and thin materials. Precision ±0.05mm cutting for automotive components. Smart programming reduces material waste significantly.

Flexible OLED Laser Cutting System for Display Panel Manufacturing

Ultra-precise laser cutting for flexible OLED panels. Non-contact process prevents display layer damage. Automated alignment ensures micron-level cutting accuracy. Compact design fits cleanroom production environments.

Silicon Carbide Ingot Laser Slicing System

Silicon carbide ingot laser slicing system provides non contact cutting for SiC wafer preparation. High precision laser processing helps reduce material loss and improve slicing consistency. Suitable for semiconductor materials advanced wafer processing and SiC production applications.

Picosecond Glass Laser Cutting System for Precision Display Panels

Cold Laser Processing: Cuts glass without thermal cracks or chipping. Micron-Level Precision: Achieves clean edges with ≤20μm accuracy. Multi-Layer Capable: Processes laminated/tempered glass effortlessly. Industrial Reliability: 24/7 operation with minimal maintenance.

CO2 Laser Engraving Machine for Acrylic Wood and Packaging

Versatile Dual Function: Precision cutting AND engraving in one compact system. Non-Material Master: Perfectly processes wood, acrylic, leather, fabric, paper. User-Friendly Operation: Intuitive software & rapid setup for instant productivity. Industrial-Grade Results: Professional quality without industrial complexity.

Desktop Metal Laser Cutter for Small Parts Fabrication

Space-Saving Design: Compact benchtop unit fits any workshop or office. Precision Metal Cutting: Cuts steel, aluminum, copper with razor-sharp detail. Plug-&-Play Operation: User-friendly software, minimal training required. Industrial Performance: Professional results without industrial space needs.

Fiber Laser Cutter for Sheet Metal and Tube Processing

High-Power Fiber Laser: Delivers superior speed & cuts thick metals effortlessly. Exceptional Precision & Quality: Achieves clean, burr-free edges on intricate contours. Energy-Efficient & Cost-Effective: Low power consumption maximizes operational savings. Versatile & Reliable: Processes diverse metals (steel, aluminum, copper) with consistent results.

Laser Etching Equipment for Precision Industrial Surface Processing

Laser etching equipment provides precise non contact material removal and patterning. Stable beam control helps improve edge quality consistency and processing efficiency. Suitable for photovoltaic panels glass electronics and precision industrial materials.

Laser High Precision Micro Machining Equipment

Laser high precision micro machining equipment supports burr free drilling cutting and fine feature processing. Ultrafast laser control helps achieve clean edges nanometer level precision and stable repeatability. Suitable for electronics glass ceramics semiconductor parts and precision material processing.

Products

Featured products

Contact us

P-Series High-Speed Laser Tube Cutting Machine

P-Series High-Speed Laser Tube Cutting Machine application and selection guide

P-Series High-Speed Laser Tube Cutting Machine Description

Key Features

Technical Advantages

Typical Applications

Specifications are indicative only - All equipment is fully customizable to your needs！

Get Quote

How long does it take from equipment ordering to official production when cooperating with Locsen?

Does Locsen offer suitable equipment and partnership solutions for startup perovskite companies

Can Locsen's equipment handle perovskite solar cells of varying sizes? What is the maximum supported dimension?

Does Locsen provide tailored laser solutions for all key production stages of perovskite solar cells?

What composition tolerance ranges do Locsen's tools support for variant perovskite formulations?

Related Products

Get Quote