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By 2026, India will have become a major hub for fiber laser cutting machines. This change is due to advancements in metal sheet cutting technologies. The fiber laser cutting machine is the trendiest tool today. Many industries rely on it for its speed, versatility, and precision.
Fiber laser cutting machines are used in many fields. These include electronics, aerospace, automotive, and shipbuilding. They are also common in small-scale manufacturing. These machines are now essential for laser cutting manufacturing units.
As demand for fiber laser cutting machines grows quickly, buyers often feel confused about how to assess their prices in India. With many options, power choices, and brands out there, it’s hard to choose the best machine for your needs.
It's crucial for manufacturers, entrepreneurs, and business owners to know what affects the price of fiber laser cutting machines. Understanding these factors helps ensure that this investment supports long-term profit while fitting into the operational budget.
Application of Fiber Laser Cutting Machine
High-demand fiber laser cutting machines are very popular now because they perform well. Let's look at the top 5 industrial uses of fiber laser cutting. We’ll see how Techno Laser Engineering’s machines are changing the manufacturing industry.
Automotive Industry
In the automotive industry, laser cutting machines are reliable and essential. They excel at making intricate components and customized parts.
Manufacturers can achieve high precision and efficiency. This allows them to produce parts that manage complex designs with ease.
Some common examples of automotive parts made with laser cutting include:
- Precision-cut body panels improve the vehicle's look and help it move through the air better.
- Engine parts are shaped with great precision. This ensures top performance and reliability.
- Chassis and structural parts are made from strong metal sheets. They ensure the vehicle's safety and durability.
- Exhaust system parts are cut precisely with complex shapes. This ensures they fit well and allow for efficient exhaust flow.
Aerospace Industry
The role of laser cutting technology is very important in the aerospace industry. This is because this industry has the highest demand for lightweight parts and high-strength materials. Laser cutting is vital for aerospace parts because it offers high precision. It can work with many different materials, meeting this core requirement effectively.
In the manufacturing process, this laser cutting machine often uses fiber laser cutting or CO2 laser cutting technology. This allows for cutting while maintaining the structural integrity of the materials.
Construction Industry
The construction industry is another field where laser cutting machines have a significant impact. The use of laser cutting machines in the fabrication of steel frameworks and detailed architectural elements has brought a new level of creativity and precision to this field.
One of the greatest strengths of laser cutting machines is their ability to easily cut even thick steel plates while delivering precise cuts. Whether it's stainless steel used for structural support or decorative elements, laser cutting provides the perfect combination of strength and aesthetic appeal in modern construction and architecture.
Some common examples of laser cutting in modern architecture include:
- Laser-cut steel panels, which are extensively used in innovative building designs and contemporary facades.
- Custom architectural elements that accurately showcase intricate patterns and complex geometric shapes.
- Decorative metal screens, known as jali panels, add beauty to buildings. They also allow airflow and help manage light.
- Laser-cut railings and facade components that ensure structural strength along with a modern design finish in high-rise and commercial buildings.
Medical Device Industry
Laser cutting is vital in making medical devices. It requires great precision and flexibility. This process often uses fiber and CO2 laser cutting machines. They help make surgical instruments and medical implants with great accuracy.
Laser cutting machines in the medical device industry do more than make instruments. They also help improve patient safety, boost device reliability, and enhance overall quality of life. Laser cutting machines provide high precision. This means the tools and implants made with them meet strict safety and effectiveness standards.
Electronics Industry
Laser cutting machines are becoming crucial in the electronics industry. They are especially important for making small electronic parts. This process relies heavily on the high-precision cutting capabilities of laser technology.
Fiber laser cutting machines and solid-state lasers are used, providing precise control over cutting dimensions and cut quality. In electronics manufacturing, where even a fraction of a millimeter difference can affect the final product, laser cutting has become a reliable and essential solution.
Involvement of laser cutting in the electronics industry:
- Cutting for printed circuit boards (PCBs) and electronic components is intricate. High precision and consistency are key.
- Laser engraving and laser cutting of silicon wafers are critical steps in semiconductor manufacturing.
- Fabrication of microelectronic parts, where maintaining miniaturized designs and tight tolerances is crucial.
- Laser cutting of flexible circuits and connectors, ensuring clean edges, accurate dimensions, and improved assembly performance.
Key Features of Fiber Laser Metal Cutters
If you want to invest in a fiber laser cutting machine for your business, it's crucial to first clearly understand your requirements. First, decide what purpose you want to buy the laser cutting machine for. And what features of the machine are actually important for your work.
Understanding the key features of a fiber laser cutting machine is very important, as these features directly affect the machine's performance, output quality, and long-term efficiency. A decision made with the right understanding will give you better results and maximum value in the future.
Fiber Laser Power Source
Fiber laser cutting machines can achieve high power levels of up to 30kW. If your business is a small-scale business, a high-power machine might be quite expensive for you. Therefore, an ultra-high-power laser is not a practical option for every user.
For your business, you can use machines with power levels of 1kW, 2kW, or 3kW; these machines are suitable for a small-scale business.
Technically, the beam delivery system is a major limiting factor in metal cutting machines. Cutting heads designed for lower wattage do not perform effectively with ultra-high-power lasers.
Therefore, choosing the right power source becomes very important. Based on your cutting needs, material type, and production goals, choose the right fiber laser power level for your tasks.
Material Thickness
Material thickness is the biggest factor in laser cutting machines for steel cutting. It determines how much power you will need. If you have a low-power laser cutting machine, it will have considerable difficulty cutting thick steel material.
Therefore, when buying a machine, always consider the thickness of the material you will be using most often. A basic guideline for steel cutting is given below.
| Steel Thickness (Inch) | Steel Thickness (Approx. mm) | Required Fiber Laser Power |
|---|---|---|
| 1/4 inch | 6 mm | Minimum 1.5 kW |
| 3/8 inch | 10 mm | Minimum 2 kW |
| 1/2 inch | 12 mm | Minimum 3 kW |
| 1 inch | 25 mm | 6 kW Fiber Laser |
Cutting Speed
If you have a small-scale business and only use a fiber laser cutting machine occasionally, a low-power machine is sufficient. However, if you use a laser cutting machine at an industrial level, it's beneficial to invest in a high-power laser cutting machine. This is because it delivers faster output, better productivity, and saves time.
Techno Laser Engineering's fiber laser cutting machines are designed for high performance. These machines can achieve cutting speeds of up to 3333 mm/s and deliver smooth and precise cutting with 2.8G acceleration.
| Laser Power | Steel Thickness | Approx. Cutting Speed |
|---|---|---|
| 1 kW | 1 mm | 8 – 10 m/min |
| 3 mm | 3 – 4 m/min | |
| 5 mm | 1.2 – 1.5 m/min | |
| 2 kW | 1 mm | 12 – 15 m/min |
| 3 mm | 5 – 6 m/min | |
| 6 mm | 2 – 2.5 m/min | |
| 3 kW | 1 mm | 18 – 20 m/min |
| 5 mm | 4 – 5 m/min | |
| 10 mm | 1.2 – 1.5 m/min | |
| 6 kW | 1 mm | 30+ m/min |
| 6 mm | 6 – 8 m/min | |
| 20 mm | 1 – 1.2 m/min | |
| 12 kW | 1 mm | 45+ m/min |
| 10 mm | 4 – 5 m/min | |
| 30 mm | 0.8 – 1 m/min |
Focal Lens Length
Different focus lenses are used in laser cutting machines for your business, but this depends on the machine's power. Focus lenses are a very important part of your laser cutter machine because they determine how the laser beam will focus on the material.
The inch measurement used in laser cutting does not represent the actual size of the lens. This measurement indicates the focal distance from the material. It depends on the point at which the laser beam will focus sharply.
Each focus lens creates a different spot size on the material. The smaller the spot size, the more precise and clean the cutting will be. A larger spot size allows for more power transfer when cutting thicker materials.
1.5-inch Focal Length Lens
This focus lens comes with a short focal length, making it the best option for fine detailing, engraving, and thin lines. If you require very high precision work, such as logos or micro designs, this lens is perfect.
However, it is not suitable for thick cutting lines or heavy material cutting due to its shallow depth of field.
This focus lens has a spot size of approximately 0.003 inches, which delivers extremely sharp and clean engraving results.
2-inch Focal Length Lens
A 2-inch focal length lens is a very good option for fine engraving, thin lines, and detailed work.
Just like the 1.5-inch lens, this lens is not suitable for thick cutting lines, but it is considered quite reliable for general-purpose use.
This lens has a spot size of approximately 0.004 inches, which creates a sharp focus on the material. This gives a clean finish and clear details. It also improves accuracy in engraving, especially for light cutting or marking.
2.5-inch Focal Length Lens
This focus lens is best suited for jobs that require cutting thick materials and creating bold engraving lines.
This lens can easily cut materials up to 1/2 inch thick. Its spot size is only 0.005 inches, which focuses the laser energy into a controlled area, resulting in strong, stable, and clean cuts.
If you want to perform deep engraving along with laser cutting, this focus lens is considered a reliable option.
5-inch Focal Length Lens
Long-focus lenses are best suited for applications where work needs to be done in a deep cutting area, and working space is required around the tool.
This focus lens has a spot size of about 0.01 inches. This makes it great for big cuts, especially in large metal parts.
Due to the large spot size, this lens is not suitable for high-precision or fine detailed metal cutting. If you need sharp edges and micro-level accuracy for your business, a short-focus lens is a better option.
Best Material For Laser Cutting Machine
Metal Cutting
Techno Laser Engineering’s metal laser cutting machines are designed to cut steel, aluminum, and various metal sheets accurately. Fiber laser technology allows for high-precision cutting of metals. It is much better than traditional methods.
As you know, the cutting quality and maximum thickness directly depend on the machine's laser power capacity (1kW, 3kW, 6kW, 12kW, etc.). Low to mid-power lasers work well on thin metal sheets. In contrast, high-powered lasers provide clean, smooth, and burr-free cuts on thick metal sheets.
High-power laser machines are perfect for industrial fabrication, heavy-duty manufacturing, and custom metal parts. They offer speed, accuracy, and consistent quality, which are vital for these tasks.
Wood Cutting
Wood laser cutting is a safe and precise choice for both softwood and hardwood. When appropriate laser power (such as a 60W to 150W CO₂ laser) is used, it delivers clean and controlled results in both cutting and engraving.
Laser cutting offers smoother cuts, sharper edges, and finer details than traditional tools like saws. The correct laser power selection minimizes burn marks and maintains the wood's natural finish.
With high laser accuracy, complex designs, curves, and intricate patterns can be easily created on wood. This process boosts speed and precision. So, it produces a premium, handcrafted finish.
Plastic Cutting
For laser cutting of plastic materials, strong and stable plastic types are considered the best. Using the right laser power, like a 40W to 100W CO₂ laser, works well. Materials such as acrylic, polyester film, and polypropylene react well to the laser.
Choosing the right laser power leads to clean cuts, sharp edges, and a smooth finish on plastics. It also prevents excessive melting or burning. Thin plastics are easily cut at lower power, while higher laser power is better suited for thicker plastic sheets.
Laser cutting of plastics is common in the signage industry, for industrial parts, and for custom components. It offers precision, speed, and consistent quality.
3 kW Industrial Fiber Laser Cutting Machine
High Speed Metal Cutting Solution
Specifications
| Laser Power | 3000W Fiber Laser Source (Raycus / IPG / Max) |
|---|---|
| Cutting Capacity |
SS: 10–16 mm MS: 14–22 mm Aluminium: 8–12 mm |
| Working Area | 1500 × 3000 mm (Custom sizes available) |
| Cutting Speed | Up to 35–45 m/min |
| Positioning Accuracy | ±0.02 mm |
| Suitable Industries | Fabrication, automotive parts, industrial manufacturing, heavy production |
1.5 kW Fiber Laser Cutting Machine
Best for Medium Scale Cutting
Specifications
| Laser Power | 1500W Fiber Laser Source |
|---|---|
| Cutting Capacity |
SS: 5–8 mm MS: 6–12 mm Aluminium: 4–6 mm |
| Working Area | 1300×900 mm / 1500×3000 mm options |
| Cutting Speed | Up to 25–35 m/min |
| Control System | Advanced CNC Controller with Auto-Focus Head |
| Best For | Sheet metal, electrical panels, signage, mid-level production |
1000W Entry-Level Fiber Laser Cutting Machine
Small Business Metal Cutting Machine
Specifications
| Laser Power | 1000W Fiber Laser Source |
|---|---|
| Cutting Capacity |
SS: 3–5 mm MS: 4–8 mm Aluminium: 2–4 mm |
| Working Area | 600×600 mm / 1300×900 mm / 1500×3000 mm |
| Cutting Speed | Up to 18–25 m/min |
| Machine Type | Entry-level machine for small workshops & startups |
| Applications | Light fabrication, SS/MS signage, small component cutting |
CO₂ Laser Cutting Machine
Acrylic, Wood & Non-Metal Cutting Solution
Specifications
| Laser Power | 60W / 80W / 100W / 150W CO₂ Tube |
|---|---|
| Cutting Materials | Acrylic, MDF, Wood, Leather, Fabric, Paper (Non-metals only) |
| Working Area | 600×400 mm / 900×600 mm / 1300×900 mm |
| Cutting Thickness | Acrylic up to 15–20 mm (150W tube) |
| Cutting Speed | Up to 0–500 mm/s |
| Best For | Interior décor, signage, gift items, craft industry, acrylic jobs |
CNC Fiber Laser Cutting Machine
High Precision Metal Cutting with Advanced CNC Controller
Specifications
| Laser Power Options | 1000W / 1500W / 3kW / 6kW / 12kW |
|---|---|
| Working Area | 1300×900 mm / 1500×3000 mm / 2000×4000 mm |
| Controller Type | CNC System with Auto-Focus Cutting Head |
| Cutting Speed | 25–60 m/min (depends on power) |
| Accuracy | ±0.02 mm High Precision |
| Applications | Metal fabrication, automotive parts, industrial components, heavy production |
Brass Fiber Laser Cutting Machine – High Precision Brass Cutting Solution
Specifications Table
| Feature | Details |
|---|---|
| Cutting Capacity | SS: 6–12 mm, MS: 8–14 mm, Brass: 3–8 mm, Aluminium: 2–6 mm |
| Working Area | 1300×900 mm / 1500×3000 mm |
| Laser Power | 1kW – 3kW Fiber Laser |
| Compatible Materials | Brass, Stainless Steel, Mild Steel, Aluminium, Copper |
| Cutting Speed | Up to 30 m/min |
| Best For | Jewelry, decorative panels, industrial parts |
Sheet Metal Fiber Laser Cutting Machine – Industrial Metal Cutting Solution
Specifications Table
| Feature | Details |
|---|---|
| Cutting Capacity | SS: 10–20 mm, MS: 12–22 mm, Aluminium: 8–15 mm |
| Working Area | 1500×3000 mm / 2000×4000 mm |
| Laser Power | 1kW – 6kW Fiber Laser |
| Compatible Materials | Stainless Steel, Mild Steel, Aluminium, Brass, Copper |
| Cutting Speed | Up to 45 m/min |
| Best For | Industrial fabrication, automotive panels, heavy sheet production |
Fiber Laser Tube & Sheet Metal Cutting Machine – Dual-Purpose High Productivity
Specifications Table
| Feature | Details |
|---|---|
| Cutting Capacity | SS: 12–25 mm, MS: 14–30 mm, Aluminium: 10–18 mm, Brass: 5–12 mm |
| Working Area | Tube length: 3000–6000 mm, Diameter: 20–200 mm; Sheet size: 1500×3000 mm |
| Laser Power | 2kW – 6kW Fiber Laser |
| Compatible Materials | Stainless Steel, Mild Steel, Aluminium, Brass, Copper, Round/Square Tubes, Sheet Metal |
| Cutting Speed | Up to 50 m/min |
| Best For | Dual-purpose cutting, metal tubes, industrial fabrication, mass production |
Our Machine Specifications
| Specification | Details |
|---|---|
| Machine Type | Single Bed Fiber Laser Cutting Machine |
| Bed Size | 3000 x 1500 mm (Custom sizes available) |
| Laser Power Options | 1kW, 2kW, 3kW, 6kW |
| Cutting Materials | Mild Steel, Stainless Steel, Aluminium, Brass, Copper |
| Max Cutting Thickness | Depends on laser power configuration |
| Positioning Accuracy | ±0.02 mm |
| Repeat Positioning Accuracy | ±0.03 mm |
| Max Cutting Speed | Up to 60 m/min (varies by material & power) |
| Transmission System | Rack & Pinion / Servo Motor |
| Laser Source Type | Fiber Laser Source |
| Cooling System | Industrial Chiller |
| Control System | CNC Controller |
| Power Consumption | Varies according to laser power |
| Supported File Formats | AI, DXF, PLT, SVG, Gerber |
| Machine Weight | Approx. 1800–2500 kg (model dependent) |
| Warranty | Manufacturer Warranty Included |
Why Choose Techno Laser Engineering for Fiber Laser Cutting Machines
Choosing a Techno Laser Engineering machine means investing in top-notch fiber laser cutters. We offer advanced laser power options, quick cutting speeds, and high precision. Our dependable after-sales support helps keep costs down. It boosts long-term productivity in industrial fabrication and custom metal cutting.
Four factors are given that explain which factors you should consider when buying a machine for your business.
Energy Efficiency
Fiber laser cutting machines consume significantly less power compared to traditional cutting methods. They have high electrical-to-optical conversion efficiency, which reduces energy waste. Lower power use cuts electricity bills. This means cost savings and sustainable production for businesses over time.
Faster Cutting Speeds
The high cutting speed of fiber laser technology significantly increases production capacity. Faster processing means more parts are produced in less time, increasing overall throughput. This cuts labor costs, speeds up delivery, and helps businesses manage bulk orders and tight deadlines effectively.
Greater Precision
Fiber laser machines perform cutting with extremely high precision and accuracy. This minimizes material waste and ensures consistent part quality. Accurate cuts can remove the need for extra processing or finishing. This saves time and costs, boosting overall efficiency.
Lower Maintenance Costs
Fiber lasers have fewer moving parts than traditional machines. This means less wear and tear. This means lower maintenance needs, less machine downtime, and much lower servicing costs. This factor ensures smooth, uninterrupted, and cost-effective operations for industries.
Conclusion
Fiber laser cutting machines are now vital for India's manufacturing sector. They boost innovation, speed, and precision. This article explains why they are a key investment today. The price of fiber laser cutting machines in India depends on several factors. These include laser power, cutting area, machine features, automation level, brand reliability, and country of origin.
Laser cutting technology is improving. Now, better performance and competitive prices are available. This makes these machines accessible for small, medium, and large industries. Since this is a big investment, focus on more than just price. Consider production needs, material thickness, future growth, and after-sales support when choosing a machine.
To pick the best fiber laser cutting machine for your business at a good price, partner with Techno Laser Engineering. They offer reliable technology, customized solutions, and long-term profitability.
FAQ –Fiber Laser Cutting Machines
You will find yourself working in a true partnership that results in an incredible experience, and an end product that is the best.
How much is a fiber laser cutting machine?
The price of a fiber laser cutting machine depends on its power, table size, brand, and automation features. In India, entry-level machines usually start around ₹18–25 lakhs, while high-power industrial systems can go up to ₹1 crore or more. Your final cost mainly depends on the materials and thickness you plan to cut.
What is the price of a 1.5 kW fiber laser cutting machine in India?
A 1.5 kW fiber laser machine is ideal for general fabrication work. In India, its price typically ranges between ₹15–22 lakhs, depending on build quality, laser source brand, cooling system, and controller type.
How thick can a 3000W (3kW) fiber laser cut?
A 3 kW fiber laser delivers excellent cutting performance. On average, it can cut:
- Mild Steel: 12–14 mm
- Stainless Steel: 6–8 mm
- Aluminum: 4–6 mm
What is the cost of a fiber laser printer?
If you mean a fiber laser marking or engraving machine, these are much more affordable than cutting machines. In India, fiber laser printers (20W–50W) usually cost ₹1.5–4 lakhs, depending on wattage and features.
What is better — CNC or Laser?
Laser Cutting: Best for high-precision, high-speed, and clean-edge cutting, especially for thin and medium metal sheets.
CNC Router / CNC Plasma: Better for thicker materials, non-metals, and applications where extremely fine detailing is not required.
What is the price of a 6 kW fiber laser cutting machine in India?
A 6 kW fiber laser machine designed for heavy-duty industrial work typically costs ₹45–70 lakhs in India. The price varies based on table size, pallet changer options, dust extraction system, and automation level.
What is the cost of a 12 kW laser cutting machine?
A 12 kW fiber laser is a high-performance machine built for large-scale fabrication and fast production. In India, this machine usually costs ₹1.2–₹1.8 crore, depending on features and brand configuration.
Can a 20W laser cut leather?
A 20W laser is mainly designed for marking and engraving, not heavy cutting. It can cut very thin or soft leather, but the speed is slow and edges may not be perfectly smooth. For professional leather cutting, a CO₂ laser is usually recommended.
Get in touch
You will find yourself working in a true partnership that results in an incredible experience, and an end product that is the best.
Call us on
9758902411
Email us
info@technolaserengineering.in
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