| Model | AKJ1530F | AKJ1545F | AKJ1560F | AKJ2030F | AKJ2040F | AKJ2060F | AKJ2560F |
|---|---|---|---|---|---|---|---|
| Cutting Range | 1500*3000mm | 1500*4500mm | 1500*6000mm | 2000*3000mm | 2000*4000mm | 2000*6000mm | 2500*6000mm |
| Laser Power | 1500-40000W | ||||||
| Laser Generator | Raycus/Max/IPG | ||||||
| Control System | Au3tech/Cypcut | ||||||
| Laser Cutting Head | Au3tech/Raytools/Boci | ||||||
| Transmission System | Rack Drive | ||||||
| Rack | VASTUN/Apex/YYC | ||||||
| Guide Rail | HIWIN | ||||||
| Gear Reducer | Motoreducer | ||||||
| Ball Screw | TBI | ||||||
| Servo Motor | Delta/Yaskawa | ||||||
| Electronic Components | Schneider | ||||||
| Pneumatic Components | SMC/AirTAC | ||||||
| Water Chiller | S&A/Hanli | ||||||
| Maximum Moving Speed | 100m/min | ||||||
| Maximum Acceleration | 1.0G | ||||||
| Positioning Accuracy | ±0.01mm | ||||||
| Repeat Positioning Accuracy | ±0.03mm | ||||||
| Voltage and Frequency | 380V 50Hz/60HZ | ||||||
| Comparison Item | Laser Cutting | Plasma Cutting | Waterjet Cutting | Mechanical Cutting |
|---|---|---|---|---|
| Cutting Principle | Focused laser beam melts/vaporizes material | Ionized gas (plasma arc) melts metal | High-pressure water with abrasives erodes material | Physical force using blades/tools |
| Material Compatibility | Metals, some non-metals | Conductive metals only | Almost all materials | Mostly metals and soft materials |
| Cutting Precision | Very high (±0.01–0.05 mm) | Medium (±0.1–0.5 mm) | High (±0.05–0.1 mm) | Low to medium |
| Edge Quality | Smooth, clean, minimal burr | Rougher, requires finishing | Smooth, no heat marks | Often requires deburring |
| Heat-Affected Zone (HAZ) | Very small | Large | None (cold cutting) | None or minimal |
| Cutting Speed | Very fast (especially thin metals) | Fast (thick metals) | Slow to medium | Medium |
| Thickness Capability | Medium to thick (depends on power) | Excellent for thick metals | Excellent for very thick materials | Limited by tool strength |
| Kerf Width | Very narrow | Wider | Medium | Wide |
| Material Deformation | Minimal | Moderate due to heat | None | Possible due to force |
| Automation Capability | Highly automated (CNC/robotic) | Automated | Automated | Semi-automatic or manual |
| Operating Cost | Medium to high (depends on laser type) | Medium | High (abrasives + maintenance) | Low to medium |
| Maintenance Requirements | Moderate (optics, source) | Moderate (consumables) | High (pumps, seals) | Low |
| Environmental Impact | Low emissions, clean process | Produces fumes and gases | No heat, but water disposal needed | Generates chips and noise |
| Noise Level | Low | High | High | Medium |
| Setup Time | Quick | Moderate | Longer setup | Quick |
| Tool Wear | No physical tool wear | Electrode/nozzle wear | Nozzle wear, abrasive usage | High tool wear |
| Ability for Complex Shapes | Excellent (fine details) | Good | Excellent | Limited |
| Secondary Processing Needed | Rarely | Often required | Rarely | Often required |
| Energy Efficiency | High | Medium | Low (high power consumption) | Medium |
| Typical Applications | Precision parts, electronics, automotive | Heavy metal fabrication, shipbuilding | Aerospace, composites, stone cutting | Basic fabrication, construction |
AccTek Laser integrates advanced laser technology into its cutting machines to deliver high precision, stable performance, and efficient cutting results. Their systems use reliable laser sources and optimized control systems, ensuring that operators achieve consistent cuts with minimal material waste. This innovation also helps in enhancing material quality while reducing the risk of thermal damage during the cutting process.
AccTek Laser offers a broad selection of laser cutting machines with different power levels and configurations to suit diverse application requirements. Customers can choose from compact, portable systems for small-scale operations to large industrial machines for high-volume cutting tasks. This makes it easy to find the right solution for cutting metal sheets, plastics, ceramics, and more, ensuring versatility for various industries.
AccTek Laser machines are built using top-quality components sourced from globally recognized suppliers. This includes durable laser sources, cutting-edge scanning systems, and reliable control electronics. By using premium parts, AccTek Laser enhances machine stability, extends service life, and ensures consistent performance under demanding operating conditions, ultimately reducing maintenance needs.
AccTek Laser provides flexible customization options to meet specific customer needs. Machine features like laser power, cutting speed, cooling systems, and automation integration can be tailored to suit different production environments and application requirements. This flexibility ensures that customers achieve optimal cutting performance, productivity, and cost-efficiency.
AccTek Laser offers comprehensive technical support throughout the entire purchase and operation process. Their experienced team assists with machine selection, installation, operation training, and troubleshooting. This level of support helps customers seamlessly adapt to laser cutting technology, ensuring smooth operations and quick issue resolution when necessary.
With years of experience serving customers globally, AccTek Laser provides dependable international service and support. They offer detailed documentation, remote assistance, and responsive after-sales service to help customers maintain their machines and minimize downtime. This ensures that customers can continue their operations with minimal disruptions, enhancing long-term productivity and customer satisfaction.
Learn the key environmental considerations and regulations for CO2 laser cutting machines, including emissions, ventilation, waste management, OSHA, EPA, and global compliance standards.
This article explores the various factors that contribute to the operating costs of laser cutting machines, including energy consumption, materials, labor, maintenance, and technological advancements.
This article mainly discusses how to systematically select a CO2 laser cutting machine suitable for your production scenario, based on key factors such as power, configuration, application requirements, and cost.
This article mainly teaches you how to choose a suitable Chinese brand laser cutting machine. If you are also thinking of getting one, please read this article patiently; you will
The price of a 10kw laser cutting machine can range significantly based on factors such as the manufacturer, country of origin, features, and automation capabilities. Typically, the cost for a basic 10kw laser cutting machine falls between $65,000 and $150,000. However, if additional features are required, such as automatic loading and unloading systems, automatic nozzle replacement, or specialized software, the price can increase accordingly.
It’s important to note that this cost is just a general estimate, and the actual price may vary depending on the specific machine configuration and manufacturer. The purchase cost is only one component of the overall investment. Additional costs should be considered, such as maintenance and operational costs, training, support services, and the availability of replacement parts.
When considering a 10kw laser cutting machine, it’s crucial to ensure that the machine aligns with your specific cutting needs and production goals. While it may represent a significant upfront investment, a high-quality machine can result in enhanced productivity, higher precision, and improved cutting speeds, all of which contribute to long-term cost savings and efficiency improvements. Proper training and maintenance are key to maximizing the lifespan and performance of the machine, ensuring that it continues to meet your needs for years to come.
The 10kw laser cutting machine is specifically designed for cutting a variety of metal materials, offering numerous advantages for industries requiring high-precision, high-speed, and efficient cutting solutions.
The 10kw laser cutting machine enables manufacturers to achieve faster cutting speeds, better accuracy, and minimal material waste across a wide range of metals. The high-powered laser ensures clean, precise cuts with reduced post-processing needs, making it an ideal choice for industries demanding top-notch cutting performance.
The 10kw laser cutting machine offers exceptional cutting capabilities across a wide range of metal materials. The thickness it can cut depends on the material type, and here are the general guidelines for each:
These thicknesses are general estimates and can vary based on factors like the laser settings, material quality, and assist gases used. However, a 10kw laser cutting machine is capable of handling a broad range of materials with high efficiency, providing top-notch cutting performance for a wide variety of applications.
The cutting speed of a 10kw laser cutting machine can vary based on factors such as material type, thickness, and specific cutting parameters. However, here are some general cutting speed ranges for different materials, assuming optimal conditions:
The 10kw laser cutting machine offers high cutting speeds across a range of materials, making it ideal for high-productivity environments. The cutting speed will vary depending on material characteristics, thickness, and cutting parameters, but the machine’s power ensures fast and precise results for a wide range of applications.
The power consumption of a 10kw laser cutting machine can be broken down based on its key components. Here’s a detailed breakdown of the estimated power usage:
This means the machine typically consumes around 49.6 kW to 51 kW of electricity during operation, depending on the specific configuration and operating conditions. Understanding these power requirements will help ensure that your facility is equipped with the necessary power supply and infrastructure for optimal machine performance.
The 10kw laser cutting machine can utilize several different auxiliary gases depending on the material being cut, desired cutting speed, and edge quality. These gases play a crucial role in improving cutting efficiency, enhancing surface quality, and reducing the heat-affected zone (HAZ). Below are the primary auxiliary gases commonly used:
The most common auxiliary gases for a 10kw laser cutting machine include oxygen, nitrogen, compressed air, argon, and gas mixtures. Each gas offers distinct benefits based on the material being cut and the desired outcome. Oxygen is commonly used for cutting carbon steel, nitrogen for stainless steel and non-ferrous metals, and argon for specialty applications like aluminum and copper.
Maintaining a 10kw laser cutting machine is essential to ensure optimal performance, extend its lifespan, and prevent costly downtime. Proper maintenance involves several key tasks, from daily inspections to periodic servicing of critical components. Here’s how to maintain your 10kw laser-cutting machine effectively:
By following these maintenance practices, you can keep your 10kw laser cutting machine in top working condition, reduce downtime, and extend the machine’s lifespan, ensuring it continues to deliver high-performance results over time.
Our laser cutting machine is backed by a comprehensive warranty designed to give you peace of mind and protect your investment:
Please note that this warranty excludes damage resulting from improper use, mishandling, or other artificial causes.
4 reviews for 10KW Laser Cutting Machine
Lila –
I use this machine regularly, and it’s been easy to get used to. The controls are simple, and I can make changes without slowing down. The movement is smooth, which helps keep everything accurate. The cuts come out clean, so I don’t have to spend much time fixing them. Even during longer shifts, it runs without problems. It’s a reliable machine that makes daily work easier.
Kyle –
We’ve been using this machine for a range of jobs, and it has handled them well. The structure feels solid, and it stays stable during long runs. The cutting results are clean, which reduces extra work for the team. My operators learned the system quickly, which helped maintain productivity. It also responds well to adjustments. It’s a dependable machine that supports efficient work in a busy shop.
Isaac –
We added this machine to improve consistency in our production line, and it has performed well. The laser output is stable, which helps maintain quality across different jobs. The motion system keeps positioning accurate, even during repeated tasks. It also integrates easily into our existing workflow. The system is not overly complex, which makes it easier for operators to manage. Overall, it’s a dependable solution for handling regular production work.
Jade –
Since adding this machine to our facility, planning has become more predictable. It runs reliably, so we can schedule jobs with more confidence. I’ve noticed fewer delays caused by machine issues. The cutting quality remains consistent, which improves overall efficiency. My team doesn’t spend much time troubleshooting. It fits well into our workflow and supports smooth daily operations.