Budget laser cutting of metal in Moscow according to customer drawings

Metal laser cutting services

Laser cutting for metal as a process is based on contact of the surface being processed with laser radiation.
When exposed to a beam during laser cutting of parts, the material at the point of contact reaches the melting temperature. Laser cutting of large thicknesses is usually carried out in this way. Residues of molten metal are removed using gas: nitrogen, oxygen, helium or argon. If laser cutting services in Moscow are required for particularly thin products, the metal is brought to a boiling point, resulting in its evaporation. This is a more labor-intensive operation, so custom laser cutting of metal is more expensive.

Features of gas cutting

The gas cutting process is carried out in the following way. Using propane or acetylene, the workpiece is heated to 1000-1200 degrees. Then the oxygen supplied to the heated surface ignites and cuts the metal. The method is applicable for processing parts whose combustion temperature is lower than the melting temperature. This can be steel containing low and medium alloying components.

The gas cutting method is low cost, and the equipment used is portable and easy to use.

The accuracy of gas cutting is much less than that of plasma or laser.

Materials for laser cutting and engraving

Modern laser cutting of materials extends not only to metals and alloys. Plastic, glass and plexiglass, sheets of paper and cardboard, as well as natural wood and products based on it can be laser cut to order according to a sketch. But unlike cutting steel with a laser, the intricacies of which have long been studied, each of the non-metallic materials has its own characteristics. This means that the approach to its processing, especially if laser cutting is required for small parts, must be special.

Features of waterjet cutting

Waterjet cutting is carried out using a mixture of water with the addition of abrasive particles. Silicon carbide, electrocorundum or garnet sand can be used as an abrasive. Water is supplied to the cutting head under a pressure of about 6000 atmospheres. Then, at a speed of 1000 meters per second, it is fed into the chamber with the abrasive, mixed with it, and the ready-made abrasive mixture cuts the metal and at the same time washes away the waste from the cutting process.

A distinctive feature of the waterjet process is the absence of heating of the treated surface.

There are a number of advantages to this:

• The use of waterjet cutting is suitable for processing any materials;
• Due to the absence of the process of melting and burning of the treated surface, the cut is perfect;
• Can be used for heat sensitive materials;
• There are no harmful emissions during operation;
• Complete fire safety of the work performed.

The disadvantages of the method include the low processing speed, in comparison with laser or plasma technology. Also, expensive equipment is used here, which results in a high cost of the process.

Among all the options presented, the laser cutting method is the most optimal.

This method, in addition to cutting, can be used for marking, engraving and marking metal products.

The shortest route for your laser cutting order

One of the advantages of our laser cutting of metal to customer sizes is efficiency.
That is why we suggest you use the quick order form on our website, in the “Order and Delivery” section. Specify what type of processing you require: for example, sheet metal laser cutting or laser cutting of small parts. Next, leave your coordinates - phone and email. You can also attach photos of metal products for which you need laser cutting. After sending your message, we will contact you as soon as possible.

What products are produced using laser cutting?

By cutting metal with a laser you can create different types of products. These include sheet panels for finishing work in construction and repair, and threading on tools for working with metal, and all kinds of metal license plates, plates, key rings, engraved souvenirs, industrial metal products for industries and enterprises.

How laser cutting is carried out in practice

A production facility offering metal laser cutting must be equipped with the most modern equipment. Any such installation can be divided into three parts:

• active medium, that is, the source of the laser beam;
• a source that creates an environment for the formation of electromagnetic radiation;
• optical system that amplifies the radiation power.

Laser cutting of metal to order according to a sketch can be carried out with solid-state, gas and gas-dynamic lasers. The latter are among the most powerful and are used for laser cutting of corners and other large parts.

What types of lasers are there?

There are several technologies for laser cutting of metal, determined depending on the type of working element - laser, and its power. Today there are three main types of laser systems:

• solid-state with a power not exceeding 6 kW;
• the power of gas installations reaches 20 kW;
• The most powerful are gas-dynamic units, the minimum power of which is 100 kW.

VT-metall offers services:

Industry mainly uses solid-state machines designed for laser metal processing.

Laser radiation in such installations, due to which metal is cut, can be either pulsed or continuous. The working elements (working fluid) in such devices are represented by ruby, glass with an admixture of neodymium or calcium fluorite. The main advantage of this type of equipment is the ability to create a powerful laser pulse in a fraction of a second. Gas laser systems are more suitable for scientific or technical purposes; they are rarely used in industry.

The working fluid in this type of equipment is a mixture of gaseous substances, which is used in the process of laser metal working. The installations operate using nitrogen, carbon dioxide and helium. Electric current, acting on the atoms of these gases, excites them, due to which properties such as monochromaticity and directionality begin to appear. These are the main advantages of gas laser systems.

The most powerful are gas-dynamic lasers, the working substance of which is carbon dioxide.

The process of laser metal working is as follows: carbon dioxide heated to a certain temperature enters a narrow channel, in which its structure expands, after which the gas is cooled. As a result, the necessary energy is generated, due to which laser cutting of metals is performed.

When is plasma cutting effective?

Along with laser cutting of metal and products made from it, customers are offered plasma cutting, when a compressed plasma arc comes into contact with the material. This method is preferable for processing parts of large thickness. Plasma technology allows you to cut metal faster and with less energy consumption. But a better quality cut is still obtained by laser processing, and urgent laser cutting of metal can also be carried out in the shortest possible time.

How is the cost of metal laser cutting calculated?

Working with customers, we prove every day: laser cutting of metal in Moscow (PLC) can be inexpensive. The final cost of the order is affected by:

• material characteristics,
• complexity and precision of execution,
• batch size,
• urgency of work.

Call - and our specialists will advise you on all aspects, and also offer a way to save money and order inexpensive laser cutting of metal.

Order laser cutting

We are waiting for your applications around the clock (online) or by calling the company hotline. After concluding a contract and transferring payment, our specialists immediately begin performing precise laser cutting. By the way, while offering laser cutting cheaply in Moscow, we also take care of delivery. Forget about the hassle of self-pickup: your order will be delivered by reliable and spacious transport.

Low prices for laser cutting: why?

There is no catch in the fact that we offer laser cutting services in Moscow so cheaply.
Our metalworking shop operates on its own premises, not on rented ones. Most custom metal laser cutting operations are automated, which greatly reduces labor costs. Finally, we have been working in the market for a long time and we no longer need to recoup the costs of equipment. Thus, we carry out orders at the lowest prices for the capital and are ready to offer you budget laser cutting for metal without skimping on quality.

Laser cutting and bending of metal in Moscow

Laser processing of workpieces is far from the only operation they will have to endure.
Very often, within the framework of one order, our company solves two problems at once - it performs laser cutting and bending of metal in Moscow. And before starting with them, he carries out mechanical, but also very precise cutting of sheets for future workpieces. The leading metalworking operations - laser cutting, bending - are not necessarily carried out in the listed sequence. Sometimes bending precedes cutting, but consideration should be given to whether the laser beam can process the reshaped workpiece.

Our workshop is equipped with all the necessary equipment to perform laser cutting and sheet bending services in the shortest possible time and without loss of quality. Before executing an order, we compare the physical characteristics of the workpiece and material with the load it can withstand. The possibility of marriage is completely excluded.

After laser cutting, metal bending is carried out as follows:

• the workpiece is carefully clamped in a vice;
• a press is connected to the work, acting on the part with a calculated force;
• finished volumetric products are inspected by inspectors.

What determines the quality of laser cutting?

The concept of laser cutting quality presupposes the accuracy of the cut and the absence of roughness.

The following factors influence the result of work:

• Material of the part and its dimensions;
• Correct equipment setup;
• Technical serviceability of the machine;
• Precision in design development.

If all requirements are met, the cutting accuracy can be 0.1 mm.

The cutting speed is influenced by the power of the equipment, thermal conductivity and thickness of the workpiece. The higher these numbers, the faster the heat removal is performed, and the more energy is required to complete the task.

The cutting speed is influenced by the power of the equipment, thermal conductivity and thickness of the workpiece. The higher these numbers, the faster the heat removal is performed, and the more energy is required to complete the task.

How does a laser cut metal?

First, about how a beam of intangible light can cut through durable metal.

Light brings warmth

Imagine. You are lying on the beach, with your eyes closed, seagull waves and all that, but the seagull waves don’t interest us now, but the sun interests us. Is it warm? The surface of the skin is directly heated. And in the shade it would be cool. It is the light that heats the skin.

Next is a matter of technology. The light from the laser beam also heats the metal. The same, but much stronger, because the laser beam is concentrated on the heated surface, and the emitter is located very close to it.

What materials can be processed? Is it possible, for example, to cut thin sheet steel?

Certainly! It is also possible to cut thin sheet steel, thick sheet, black, and stainless steel...

Among the metals processed, we highlight steel - regular and stainless steel, aluminum, copper and brass. The minimum thickness of the processed sheet is 0.2 mm, the maximum is 50 mm.

It should be noted that each material uses its own type of laser, depending on its physical properties. The most favorable materials for this procedure are those with low thermal conductivity - because in such conditions, the laser energy is concentrated on a smaller area of ​​the object.

What equipment is used to cut metal with a laser?

When laser cutting metal sheets, equipment with three types of lasers is used:

• solid state laser;
• fiber laser;
• gas laser.

The equipment can operate in two modes:

• pulse-periodic;
• continuous.

Given the high energy concentration and high power, laser equipment requires a cooling system. Cooling is carried out in two ways:

• air blowing;
• coolant circulation (the latter is mainly water passing through the refrigerator).

We were talking only about sheets, but what about objects of other shapes? Is laser cutting of pipes possible?

Yes, it is worth noting that cutting shapes from metal or non-metal sheets is not the only task that laser cutting can perform. For example, if laser equipment is equipped with an element for rotation, it is possible to process objects made in the shape of a cylinder; accordingly, laser cutting of pipes is also possible. In addition, there are special machines that perform cutting on both sides of the object.

In general, laser equipment is capable of performing the following operations:

• cut;
• surfacing;
• welding;
• engraving;
• marking;
• volumetric cutting (3D).

Review of machines for laser metal processing

The practical implementation of the achievements of academic physics is laser processing of metal . Discovered in the second half of the twentieth century, a quantum generator, or laser, is a source of monochromatic coherent light and is an amazing optical device that generates photons in an avalanche manner, with the same energy, direction of motion and polarization, i.e. emits a highly focused, high-power light beam.

Physicists and engineers immediately appreciated this discovery, and already in 1962, almost immediately after testing the first laboratory quantum generator, commercial lasers were developed and offered to the market (USA). This is the time of a real revolution in laser technology, as a result of which many modifications and types of lasers were created and are now successfully used: from the smallest, several microns in size, to the giant “Nova” at the Lawrence Livermore National Laboratory in the USA, with a length of 137 m and a total power of 1014 W. Laser technology has penetrated into all scientific and industrial areas and is more in demand in metalworking.

The laser has become a highly efficient tool in machine tools due to its unique properties: high radiation power (up to 108-109 W/cm2 in continuous mode and up to 1016-1017 W/cm2 in pulsed mode) at the local processing area, allowing instant heating (burning) and cooling of metal without subjecting the entire workpiece to thermal deformation. Removal of combustion products from the cutting zone is carried out by blowing with oxygen, air, nitrogen or other process gas. In addition, the laser beam is easily controlled, i.e. fits seamlessly into automated systems.

In the 70-80s of the 20th century, lasers began to be successfully used in welding, surfacing, marking, hardening, and cutting metals in the manufacture of parts such as gaskets, brackets, panels, instrument panels, doors, decorative grilles, and circular saws.

After the advent of kinematically complex robotic manipulators and flexible optoelectronic beam guides, laser processing of metals received a “second wind”, i.e. began to be used when cutting spatial metal products. Laser equipment used in cutting is classified according to radiation sources and output power, which in turn determines the processing material. Thus, for processing ferrous metals and stainless steel, solid-state (Nd:YAG neodymium garnet) quasi-continuous and pulse-periodic laser radiation sources with an output power of 100-300 W are used; at the same time, continuous gas CO2 lasers with an output power of up to 2500 W are used to process alloy steels and some types of alloys (as well as ferrous metals).

As a rule, modern equipment for laser cutting of metal consists of:

• laser with cooling and power systems;
• coordinate table for fixing the workpiece;
• computer table control system;
• process gas supply devices;
• ventilation system.

Huge radiation powers lead to overheating of the laser, so double-circuit water systems or refrigeration compressors using freon are used to cool it. Laser power sources are selected based on the technological problems being solved - transformer or pulsed. Where reliability is needed, transformer circuits are used; When minimizing laser installations, pulsed ones are used.

Modern coordinate tables are high-precision equipment and, as a rule, are based on a portal design (“flying optics”), where a stationary metal workpiece is cut by a moving laser beam. There are other schemes. So, when cutting Nd:YAG lasers, the beam moves along one coordinate, and the table with sheet material moves along another.

The coordinate machine is controlled by an industrial computer and, in addition to hardware devices - drives, sensors, etc., includes a package of the following files:

• programs for inputting source data (electronic drawings) in graphic editors AutoCad, CorellDraw, Adobe Illustrator, etc. (*.plt, *.ai, *.dxf, *.cf2 formats);
• control programs for rotating, scaling and reproducing the source file (drawing) across the working area of ​​the table;
• programs for setting parameters of laser processing and insertion mode, automatically taking into account the width of the cut, determining internal and external contours, adjusting the cutting mode directly in the technological process, etc.;
• programs for setting the parameters of the coordinate drive and the operator’s working environment, generating (drawing) the simplest geometric shapes;
• programs for connecting external devices, controlling a laser emitter, communication with an external local network.

In laser cutting modes, different process gases are used, for example, for gentle cutting of ferrous metals, oxygen is used (gas laser cutting), and for stainless steel, a flow of inert gas, usually nitrogen, is used. To remove gaseous and aerosol decomposition products that occur when burning a metal sheet, ventilation is used, which is created by a special device, which is an integral part of all industrial laser processing complexes.

One of the alternative methods to “flying optics” is the use of deformable mirrors, combining the advantages of a stationary and “portal” design. The laser beam changes its trajectory twice, being reflected in a complex of mirrors with a controlled surface shape, before reaching the workpiece. A clear advantage of the method is the absence of complex mechanics; The disadvantages include the difficulty in controlling the surface of the mirrors.

Despite the commonality of the initial ideas, approaches and principles used in equipment for laser cutting of metals, machine tool companies try to produce original equipment so as not to find themselves as outsiders in this very promising market segment - metalworking. Let's focus on the leaders whose machines are widely used.

The German company Trumpf is known for its Trumatic 600L and Trumatic L3030 machines , which use the “flying optics” principle. Everything on these machines is done with German pedantry: impeccable CO2 lasers from FANUC (Germany) will ensure cutting quality at the highest level; the table is equipped with guides made with filigree precision; the drive is carried out by step-by-step single-moment motors and toothed belts, which, together with laser position control sensors, guarantee ideal positioning of the laser head; Computer-controlled pneumatics automate the feeding and unloading of steel sheets.

Technological laser cutting complexes from Tecnology Italiano FPL TRADE claim to be universal in the tasks they perform and, depending on the configuration, are equipped with a 1000, 2000 or 4000 Watt laser. However, unlike most technical counterparts, united by the principle of “flying optics”, the lasers in Tecnology Italiano FPL TRADE machines are fixed. The result is stable radiation generated, and this affects the impeccable quality of the cut. The coordinate table together with the workpiece has an impressive weight and is mounted on a special (without residual stresses in the structure) massive frame. It is controlled by powerful and complex drives. Therefore, this equipment is more likely focused on raster engraving or cutting single or small batches of particularly complex products.

Among the Japanese machine tool manufacturers, traditionally leaders in metalworking, it is worth highlighting the machines of the Ymazaki Mazak group, which are capable of laser cutting of volumetric structures - pipes of various diameters, complex boxes, etc. with various thicknesses up to 25 mm. The equipment is equipped with automatic feeding and unloading systems for products, i.e. can be used in conveyor processing. Of interest in this regard is the automated Fabric Gear complex, designed for laser cutting of profiles of various sections: round, square, rectangular, triangular, and other types. Of course, it belongs to the latest generation of metalworking centers, since it is equipped with an artificial intelligence system and additional tools that allow it to process particularly complex volumetric products in automatic mode. This company produces its machines in six factories in Japan, the USA, England and Singapore.

Among other companies interesting in this area are Bystronic (Swiss engineering group; AMADA (Japan); SALVAGNINI (Italy); LVD (Belgium).

Among the domestic manufacturers of equipment for laser cutting of metal, it is worth highlighting the products of TekhnoLazer CJSC (Moscow region, Shatura), which produces machines for laser cutting of sheet materials based on technological CO2 lasers with a power of 700 to 5000 W and 2 coordinate tables equipped with a pallet – a loading device, the main function of which is to deliver the workpiece to the laser cutting technological space. An obvious drawback is the manual operation of the pallet. The movement of the laser head is standard, portal type and is carried out by actuators (motor, gearbox, drive gear) by moving two longitudinal trusses connected by transverse beams.

Coordinate table on laser machines TechnoLaser

Laser technologies (including laser cutting of metal ) are certainly at the very beginning of their evolution and will be improved through the introduction of new economical and high-power lasers, light guides, delivery schemes to the workpiece and other innovations.