| 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 30KW laser cutting machine typically ranges between $90,000 and $150,000. Several factors contribute to this pricing, including the machine’s capabilities, customization options, and the manufacturer. High-power laser machines like the 30KW are designed to handle larger and thicker materials, making them ideal for industries that require precision cutting of heavy-duty metals. The overall cost can also vary based on additional features such as automation systems, material handling, and integration with other equipment.
It’s important to note that while the initial purchase price is significant, the long-term benefits include increased cutting efficiency, faster production times, and reduced operational costs. Additionally, ongoing costs for maintenance, operating gases, and consumables should also be considered when budgeting for a 30KW laser-cutting machine.
The 30KW laser cutting machine is capable of cutting a wide range of metal materials, offering significant advantages for industries requiring high-precision and high-speed cutting of thick, heavy-duty metals.
The 30KW laser cutting machine provides superior cutting quality for a range of metals, making it perfect for industries that require heavy-duty, high-speed cutting of thicker and more demanding materials.
The 30KW laser cutting machine is highly capable of cutting through a variety of metals, especially thicker materials. Here are the general thickness capabilities for each material:
This extended cutting range allows the 30KW laser cutting machine to handle demanding projects, cutting through a variety of materials with efficiency and accuracy, even at thicker levels.
The cutting speed of a 30KW laser cutting machine is influenced by factors such as material type, thickness, cutting parameters, and assist gas used. Below is a general guideline for cutting speeds across different materials:
The 30KW laser cutting machine offers fast and efficient cutting across a wide range of materials, with cutting speeds varying by material thickness and type. The machine’s high power enables it to handle thicker materials at a faster rate, providing productivity and precision for demanding applications.
The power consumption of a 30KW 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 between 130.5 kW and 133.5 kW of electricity during operation, which is higher than its nominal cutting power due to the additional systems for cooling, movement, and air compression. This breakdown will help you understand the energy requirements for operating the machine and ensure your facility is prepared with the necessary power supply.
Yes, the 30KW laser cutting machine can be customized to meet specific operational needs and requirements. The level of customization can vary depending on the manufacturer and the intended application. Below are some common customization options available:
These customizations allow the 30KW laser cutting machine to be more adaptable to unique manufacturing environments, improving productivity and cutting precision for specific applications.
For a 30KW laser cutting machine, various auxiliary gases can be used depending on the material being cut, the desired cutting speed, and the required edge quality. The right gas not only affects cutting efficiency but also influences the overall quality of the cut and the production cost. Below are the commonly used auxiliary gases for a 30KW laser cutting machine:
The choice of auxiliary gas for a 30KW laser cutting machine depends on factors such as the material type, thickness, and desired cut quality. Oxygen is typically used for faster cutting of carbon steel, while nitrogen and argon are preferred for clean, oxidation-free cuts on stainless steel and non-ferrous metals. Compressed air offers a low-cost alternative for general-purpose cutting, and gas mixtures provide flexibility for customized cutting needs. Selecting the right gas for each application ensures optimal cutting efficiency and quality.
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 30KW Laser Cutting Machine
Matthew –
This machine has been running in our shop almost every day. What stands out is how steady it is during operation. The heavy bed keeps everything stable, even when cutting thicker plates. The cuts come out clean, and there’s less need for finishing work. The system is straightforward, so operators don’t struggle with it. We’ve had very few issues since installation. It’s been a solid addition to our equipment lineup and has helped improve productivity.
Aiden –
I work mainly with custom parts, and this laser cutter has been helpful. The precision is good, especially for detailed shapes. The beam moves quickly but still maintains accuracy. I also like that it doesn’t lose alignment over time. The control system is easy to understand, which speeds up setup. It handles continuous jobs well without overheating. Overall, it’s a reliable machine that meets our daily requirements.
Sebastian –
We’ve been using this machine in a high-volume environment, and it performs well. The cutting speed is efficient, and the quality remains consistent across batches. The structure is strong, which reduces vibration and improves accuracy. The intelligent system helps with layout planning, saving material costs. Maintenance has been low so far, which is important for our operations. It’s a dependable piece of equipment that supports our production goals.
Jack –
From a programming perspective, this machine is easy to work with. The control system responds well, and the interface is clear. It handles complex paths without issues, and the motion is smooth. The servo motors help keep everything precise, even during fast movements. We’ve been able to run detailed designs without losing quality. It’s a solid machine that integrates well into our workflow.