| 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.
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The price of a 1000w laser cutting machine can vary based on several factors, such as brand, quality, and the specific features it offers. Normally, the price of a 1000w laser cutting machine ranges from $15,000 to $100,000, and some high-end models even exceed this range. To give you a more detailed understanding of cost factors, here are some factors that may affect the price:
The price of a fiber laser cutting machine is just one factor to consider when choosing a machine. Other factors like reliability, after-sales support, and ease of use should also be considered when making a purchasing decision. In addition, the price of fiber laser cutting machines may change over time due to market demand, technological progress, and other factors. You can contact us to get the latest 1000w laser cutting machine price. AccTek Laser will provide you with the most suitable laser-cutting machine according to your needs and budget.
The 1000w laser cutting machine is a versatile and powerful tool commonly used in various industries for cutting metal materials. While it excels at cutting metals, it typically cannot cut non-metallic and composite materials.
The 1000w laser cutting machine is very suitable for cutting a variety of metal materials, including mild steel, stainless steel, aluminum, brass, and copper, but is not suitable for cutting non-metallic or composite materials. It can accurately cut a certain thickness of metal and provide a clean cut and smooth edges.
The cutting speed of a 1000w laser cutting machine can vary depending on several factors such as the material type, material thickness, laser settings, and the assist gas used. However, there are general ranges of cutting speeds for common materials:
The 1000W laser cutting machine can cut through thinner metals at higher speeds, but as the material thickness and hardness increase, the speed decreases.
AccTek Laser provides expert guidance in selecting the ideal laser generator for your 1000w laser cutting machine, offering options from trusted brands like Max Photonics and IPG Photonics. Both brands are renowned in the laser industry for delivering high-quality, reliable laser sources.
Max Photonics is a leading Chinese manufacturer specializing in fiber lasers, offering a broad range of products, including high-power fiber lasers designed for industrial cutting applications. IPG Photonics, a global leader, is known for its advanced high-power fiber lasers and amplifiers, delivering exceptional performance and cutting-edge technology.
When deciding between these brands, key factors such as performance, reliability, cost, and after-sales support should be carefully evaluated. At AccTek Laser, we assist you in assessing your specific cutting needs to help you choose the best laser generator that perfectly aligns with your requirements.
The power consumption of a 1000w laser cutting machine can be broken down based on its various components. Here’s a detailed breakdown of the estimated power consumption:
When you add up the power consumption of all components, the total estimated power consumption of a 1000w laser cutting machine is 8500w to 10,700w. This means that the total power consumption of a 1000w laser cutting machine can range from 8500w to 10,700w depending on the specific model, system configuration, and operational conditions.
Yes, a 1000w laser cutting machine is relatively easy to operate. Here are the key points:
However, operators need to understand basic material types and cutting settings. It also requires safety precautions like protective eyewear and proper ventilation. In short, it’s easy to use with a little training and understanding.
The environmental requirements for a 1000w laser cutting machine are important to ensure safe and optimal operation. Here are the key factors:
In short, a 1000w laser cutting machine requires a controlled environment with appropriate temperature, humidity, and ventilation to operate efficiently and safely.
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 1000W Laser Cutting Machine
Ethan –
We added this machine as part of a production upgrade, and it has performed well so far. The laser output is stable, which helps maintain consistent quality. The motion system works smoothly, and positioning stays accurate even during repeat jobs. I’ve checked results across batches, and they stay within our required range. It was also easy to integrate 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 industrial tasks.
Adrian –
We’ve been running this laser cutting machine for a few months now, and it has been a stable addition to our line. The structure feels solid, and there’s very little vibration even during longer runs. That has helped improve accuracy compared to what we had before. The movement is smooth, and the machine responds quickly when we adjust settings. My team got used to the controls without much training. The cutting results are consistent across different materials, which is important for our daily work. Overall, it’s a reliable machine that supports steady production without causing unnecessary interruptions.
Bianca –
I use this machine every day, and it’s been easy to work with from the start. The interface is simple, so I don’t waste time figuring things out. What I notice most is how smooth the motion is while cutting. It feels stable, and that helps keep the results clean. The cutting head does a good job, so I don’t need to spend much time fixing edges. Even during long shifts, it keeps running without issues. It’s a dependable setup that makes daily tasks easier and more predictable.
Denise –
From my experience on the shop floor, this machine is comfortable to use. The controls are clear, and making adjustments during a job is straightforward. The movement stays smooth, and I don’t notice much vibration. That helps keep the cuts accurate. It also runs at a steady pace, which makes it easier to stay on schedule. Once a job is set, it doesn’t need constant attention. I can focus on preparing the next task. It’s a solid machine that supports efficient work during long shifts.