Thursday, October 20, 2022

5 Essential Tools for Professional Sculpture Work

When we see the finest sculptures works, an idea pops up in our mind about how these sculptures are made. Such innovative artworks will be enough to astonish you and artists in these fields use a lot of tools to curate their inner thoughts through their sculpture statues.

Now, if you are a novice artist and passionate about sculpture art, you must be curious about the tools that artists generally use. We are gonna help you by sharing details of the 5 most essential sculpture tools.

  • Twisted Wire Rake

Twisted Wire Rake is basically used for clay sculpting. Here two or more wires are twisted together for a loop making. With the help of this tool, you can blend lumps and bumps and clean the surface and racking of the sculpture work. It can also be used for shaping sculpture work. For any clay sculpture artist, it is a must-have tool.

  • Mini Wire Brush

This tool has the look of a chopstick but it is way more useful for modern sculpture-making. Some clump wires are embedded at the head of a chopstick-looking piece of stick.

Mini Wire Brush is used for smoothing hard areas of a sculpture or the portion of an artwork where there is rich work. Even lumpy areas can be cleared properly with this tool. The tool is mostly used for clay sculpture-making purposes.

  • Rubber Tipped Tools

The use of these Rubber Tipped Tools is broadly seen in the painting. But the tool is equivalently good for creating sculpture techniques. You can use this tool for blending purposes.

This tool works magically on those sections of work where there are requirements for blending different varieties of materials together. The tool has different sizes and shapes and you can choose the appropriate one based on your requirement.

  • Chisels

If you are going to become a stone sculpture artist, the Chisels are important and a must-have tool for you. It is one of the oldest tools of sculpture history but over time there are several changes and improvements occurred with this piece of instrument.

With the help of this tool, you can remove small pieces of unnecessary stone parts from your work even if it is very small. Artists can create the perfect shape of a stone as of their imagination. There are different types of chisels for different types of sculpture art. For example lettering chisels, carving chisels and rounded chisels.

  • Hypertherm Plasma Cutter

This is one of the best tools used for metal sculpture work. Many top-class artists use this Hypertherm Plasma Cutter to make home decor art from woods, metals etc.

Famous wall art artist Jimmy Don Holmes, uses Hypertherm Powermax 45 Consumables, Powermax 65 plasma cutter and a lot more variations for his art.

Sisters Ariane and Alexia, the two famous sculpture artists combined wood and metal for creating unique art pieces with the help of this Hypertherm Plasma Cutter. Also, there are other famous artists, for example, Cindy Chinn, Kelly Phipps etc. everyone uses Hypertherm Powermax 45 Consumables, Powermax 65 plasma cutter, Powermax30 XP etc. for their works.

So, now you can surely understand which kind of tools you should require to become a sculpture artist. Among all kinds of art and sculpture work, the metal sculpture is such an art that has many practical uses. Many home decor items, creative furniture etc. are made using metal sculpture techniques. As a result, there is a huge demand for metal sculpture tools including Hypertherm Plasma Cutter tools.

We at Alternative Parts Inc. are blessed with expertise in manufacturing Hypertherm plasma cutter parts at the most affordable prices. Our products are made with the finest quality materials and are considered the best in the market.

All of our products go through strict quality parameters before fetching them to our clients. The in-house quality team takes care of all the quality tests and only the appropriate quality products are taken and defective items are segregated for reproduction or correction. Like all the other products, Hypertherm plasma cutter parts that we supply are manufactured following all the relevant quality parameters so that our clients can rest assured of the product quality. If you are also looking for parts of a Hypertherm plasma cutter, we can be your best choice.

How Does A Fiber Laser Cutting Machine Work?

Laser cutting is a process that uses heat from a laser to cut materials and does not require blades or knives. A fiber laser cutting machine uses infrared light to cut materials, which makes it possible for the device to operate with extreme precision and accuracy.

Laser cutting is an alternative to traditional industrial cutting processes such as water jet cutting, blade cutting, or sawing. It is also more cost-effective than other digital fabrication processes such as 3D printing or CNC routing.

The main benefits of laser cutting are its speed, accuracy, clean cuts, and minimal need for post-processing of the final product. This article covers everything you need to know about how a fiber laser cutting machine works:

What Is A Fiber Laser?

First, let’s understand what fiber lasers are. Fiber lasers are the most powerful, high-precision cutting tools designed for industrial use. They create high-intensity focused beams of light by pumping a laser diode through an optical fiber.

Fiber lasers are an extremely versatile type of laser that can be used for many different industrial applications. These include laser cutting, welding, and pumping.

Fiber lasers are energy-efficient, high-power devices that generate a high-intensity beam. Fiber lasers operate at high temperatures, so they usually require water cooling. The high power of fiber lasers is generated by a process called “pumping” which uses electricity to pump electrons through a rod of rare-earth elements such as ytterbium or neodymium.

This process creates high-density, high-wavelength radiation. The radiation is then guided through a fiber that acts as a superconducting wire, channeling the laser’s power.

Fiber lasers are powerful, efficient, and durable cutting tools. They are able to produce extremely precise, clean cuts and are used in a wide range of industries including aerospace, medical, automotive, and structural engineering.

Bystronic Parts And Bystronic Laser Consumables

Bystronic parts and Bystronic Laser consumables include:

  • Laser Tubes

Laser tube replacement as well as service and maintenance are covered by the standard equipment warranty in case of failure.

  • Laser Tube Modules

Depending on the size of the machine and the configuration, there are multiple possibilities for the fiber laser tube modules. In the case of tube replacement, the customer needs to take into account the configuration of the machine.

  • Laser Tube Cooling Water Tubes

The Bystronic Laser consumables have a wide range of cooling water tubes for all types of machines. Depending on the machine, different water tubes may be used.

  • Air Filters

The air filters are designed to remove all kinds of particles from the air to protect the machine from failures.

  • Drive Units

The drive units are responsible for the linear motion of the machine. They include electric motors and mechanical parts.

  • Laser Head

The laser head is the device that encloses the laser tube. Depending on the type of machine, there are different laser heads available.

How Does A Fiber Laser Cutter Work?

Fiber laser cutting works in a similar way to laser cutting. The device focuses a high-intensity light beam onto the surface of the material that is being cut. The light energy is so intense that it vaporizes the material, creating a plasma that burns the surface.

The intense heat causes a reaction between the gas and the surrounding surface, which creates a chemical reaction that results in a rapid breakdown of the material. The plasma created by the intense light energy also creates an electromagnetic field that is strong enough to separate the charged ions in the material.

Once the material is broken down into fine dust, the device uses a suction mechanism to pull the dust away from the cut surface. The key difference between laser cutting and fiber laser cutting is that fiber lasers use optical fiber to focus the light beam.

This means that the device is able to deliver a controlled, concentrated beam that is more precise and accurate than a regular laser beam.

Bottom line

Fiber lasers are very powerful, high-precision cutting tools. They use concentrated light beams to vaporize the surface of the material being cut and create a chemical reaction that results in a rapid breakdown of the material.

Fiber laser cutters are extremely precise, accurate, and powerful machines that can create clean, accurate cuts with little or no post-processing.

However, these devices are very expensive and have some limitations, including a long warm-up time and a short working time. They are also very noisy and require water cooling to prevent them from overheating.

Thursday, October 6, 2022

Advantages of laser engraving and cutting

Nobody would ever want to return to carving with a chisel and a hammer it takes far too long. Technology has produced a wide range of superior substitutes, with laser cutters parts dominating the list.

Notably, technology offers improved speed and accuracy in addition to other benefits. For your domestic carvings, laser engravers and cutters can be used on a greater variety of materials, such as leather, wood, chiffon, metal, etc.

This is where Amada parts may assist you with most of your engraving requirements. Industrial and commercial companies can satisfy their needs for engraving, cutting, or marking various materials with the correct Amada laser cutting equipment, using technology that typically outperforms the competition. In this article, let's look at the Advantages of Laser Engraving and Cutting.

Laser cutters require little involvement from people

Laser cutters operate without much human labour, unlike other cutting and carving procedures. As a result, you will save money that you would have otherwise spent on different hands. You will need a technical specialist to oversee the process and operate the equipment, but they won't have much to do.

It is recommended to purchase with a feeding system and a follow-up conveyor if you have some additional cash to spend from Amada parts. Furthermore, despite interference from people, the speed and accuracy of these machines are maintained.

Increased accuracy

You may get more detailed engraving with this technology thanks to Amada laser parts. You will be able to create flawless copies of originals, but other mechanical techniques are sure to have a number of errors.

Regardless of the client's description, manufacturers may precisely produce intricate carvings. The fundamental reason is that the machine works without touching the material. As a result, the affected areas have no chances of abrasion. Furthermore, there is very little tolerance for these faults due to the rapid speed of the laser beam.

Increased program window size

You will need different tools or equipment to work with various materials in the majority of cutting or engraving machines. But the contrary is the situation with laser cutters and engravers.

Amada laser parts engraving equipment can cut or engrave various materials without changing tools. However, the thickness of the materials you cut with a certain arrangement must match. These parts can work efficiently with multiple materials, including stone, paper, glass, wood, and plastic. Additionally, you can cut and engrave the material without endangering it inadvertently.

Probabilities of material damage are extremely low

Many assume that the material you are cutting will be harmed due to the high heat and speed of laser cutters. They express concern that the heat will cause the fabric to warp or deform. Regardless of the material's thickness, this is not the case.

This is so that the material is not directly exposed to the heat from the laser. The material's tolerance is unaffected by heat, and laser cutter faults have a +/- 0.1mm error margin. With this level of precision, manufacturers don't have to worry much about working with any material.

Accelerated production and minimal energy use

Laser technology is far the fastest when it comes to cutting and engraving tasks requiring more complexity. Comparing it to other traditional techniques like plasma or flame cutting is useless. Compared to laser engraving and cutting machines, they are still slower.

Power and speed are the basic settings that require adjustment. The cutting of lighter materials, such as paper, will proceed at full speed but with minimal power.

This is because using a higher power level could cause the material to be discoloured. Also, the machine has limited moving parts, resulting in reduced power consumption.

Offer few waste products

A laser cutter does not produce any actual trash and does not need any consumables, which makes using one in your workshop or on your production line one of the nicest things you can do.

Consider that you are producing auto parts that need to be tagged for traceability, and you can either use chemical etching or laser cutting the markings. If you decide to use etching, you will need to build up a network of vendors who can offer you the chemicals, and wastewater treatment tools you will need to dispose of the waste properly.

Additionally, you will need to create a unique physical stencil for every special marking or change a stencil that has been used 20 to 30 times.

Bottom Line

The businesses that use laser cutting and engraving equipment gain greatly from Amada parts. In addition to their precision and durability, Amada parts are valued for their excellent safety designation and the point that they deliver with no material waste.

Sunday, September 25, 2022

What is plasma cutting? Function and benefits

An accelerated jet of burning plasma is used to cut through workpieces made of electrically conducting materials. Thick sheet metal may be efficiently cut with this method, whether you are fabricating finished products or producing artwork.

Plasma cutting provides countless options for cutting materials like stainless steel, aluminum, and more. Let's go into detail about plasma cutting in this blog, including what it is, how it functions, and its benefits.

What is Plasma?

Solid, gas, and liquid, are the three primary forms of matter you have undoubtedly heard about. But there is also the fourth one. It is indeed plasma.

Plasma can be found in the natural world however it is most common in the upper atmosphere of the planet. Plasma-based solar winds are the cause of the well-known polar lights. Plasma is also used in lighting and high-temperature fire.

Plasma is an ionized gas-like material that conducts electricity. This indicates that some atoms have electrons missing and that additional free electrons are present. Plasma is created when gas is warmed to an increased temperature. Therefore, plasma is frequently referred to as an ionized gas.

Because the atoms are not always in contact with one another, plasma is comparable to gas. In addition, it responds to an electrical and magnetic field similarly to liquids in terms of its ability to flow.

How do plasma cutters operate?

A thermal cutting technique is plasma cutting. In other words, it melts the metal rather than mechanically cutting it.

The general operation of the system never changes. Compressed air or other gases, such as nitrogen, are used in plasma cutters.

In most cases, the electrode comes into touch with the compressed gases, which ionize to increase the pressure. A stream of plasma is pushed in the direction of the cutting head as the pressure increases.

A stream of plasma is produced when the cutting point restricts the flow. This is subsequently applied to the workpiece. The workpiece is electrically linked to the ground through the cutting table since plasma is electrically conductive.

The metal melts because of the high temperature when the plasma arc comes into touch with it. The molten metal is simultaneously blown away by the fast-moving gases.

Benefits of plasma cutting machine:

  • The functioning of one or more burners depending on the series
  • Cutting of medium- and large-thickness high-alloy steel and aluminum materials
  • Wonderful performance in soft steel thicknesses of small and medium
  • Cutting of structural high-strength steel with less heat input
  • Rapid cutting rates are up to 10 times higher than with oxyfuel
  • The preparation of premium blanks for medium and thick-gauge sheet metal
  • Automated cutting with plasma is possible.
  • Plasma cutting in water provides shallow heat exposure and minimal noise at work.

Plasma cutting applications:

  • Manual plasma cutters:
Typically manual plasma cutters use workshops for thin metal processing, factory maintenance, agricultural maintenance, welding repair centers, metal service centers, construction work such as buildings and bridges, commercial shipbuilding, trailer production, car repair, and artistic creations. On the other hand, if you are having trouble with your cutter and are having problems, you should go for esab replacement parts immediately.

  • Mechanized plasma cutters:
When combined with cutting tables, mechanical plasma cutters are typically substantially larger than manual plasma cutters. Punching, laser, or robot cutting systems can all be connected with mechanized plasma cutters.

The available table and portal determine the size of a mechanized plasma cutter. Since these systems are difficult to maneuver, layout of the system, as well as all of its components, should be taken into account before installation.

Here, esab replacement parts offer combo systems that can be used for both welding and plasma cutting when you require parts. The general rule in the industrial sector is that the more complex the needs are for plasma cutting, the more expensive it will be.

Cutting with plasma that has a more substantial constriction effect:

You need 100% guaranteed plasma parts to increase plasma column confinement and produce a more stable necking arc. Thus this is where you should turn to esab plasma cutter parts.

The centrifugal force shifts the highest pressure point to the plenum's edge, and the minimum pressure point substantially closer to the axis as the number of inlet gas vortices rises. With more swirls, there is a more significant gap between the maximum and minimum pressure.

The widening of the arc caused by the considerable pressure differential in the radial direction causes a high current density and ohm heating close to the axis.

Wrapping it up:

Finally, if you are looking for the best plasma parts that matter on your budget, then have the best esab plasma cutter parts to fit your needs. They provide the premium Hypertherm series for individuals wishing to invest in high-quality equipment at a higher price point. The parts all offer exceptional cutting performance, efficiently handling even the most challenging cutting tasks.

Friday, September 16, 2022

Tips for choosing the best laser cutting system

You cannot discuss technological advancements without bringing up laser technology. The laser's ability to capture energy has been tremendous. The laser cutting machine is the main region where the laser establishes itself. 

The Trumpf parts have established themselves as the best alternative to all other technologies because of their high precision and accuracy. So the Laser cutting equipment works incredibly quickly and with the highest precision. The laser cutting machine's engraving feature creates the latter information.

Working with metal, wood, glass, ceramics, paper, and stones is perfect for laser technology. The laser has several uses, in contrast to other cutting devices limited to single substrate applications. Let's look at some of the tips for choosing the best laser cutting system:

Lasers Resonator:

Any laser cutting device's heart is its laser resonator. Two mirrors are set up in a glass tube with their faces facing one another. Gases, including CO2, hydrogen, nitrogen, and helium, make up the tube.

The diodes that charge up this gas mixture then follow. This mixture may occasionally be charged using electric discharge as well. When gases are charged, energy is released through a laser beam.

Laser specifications:

A laser beam's diameter typically falls between 0.1mm and 0.3mm. Such beams have a 1 to 3 KW power range. It is possible to determine the machine's power by assessing the substrate material.

With 1 or 2 KW, you might complete your task of cutting steel or iron. However, you might wish to check for power beams of 6 KW for metals like copper and aluminum, which have high reflecting and conductive qualities.

If you were to examine its parts, the laser resonator and the cutting head would be the two main parts of a laser cutter.

Laser marking:

The laser does not fully penetrate the substrate material when performing a marking operation. Only the material's characteristics and appearance are altered. Always use the best Trumpf spare parts because the heat from the laser beam causes highly contrasted markings to appear on the substrate when it comes into contact with it.

Laser etching:

As the name suggests, laser engraving leaves a hollow on the surface after removing the material. Your information fills this cavity. Sharp impressions are produced by rapidly vaporizing the material after it has first melted due to the laser's heat.

The cutting head:

After the resonators emitted laser beam and reflected by well-placed internal mirrors, it travels in various directions. The laser beam is magnified and focussed on the object of interest after it has reached the cutting head.

This cutting head changes the laser beam into something that either engraves or cuts through the substrate material. The laser beam travels via a nozzle and pressurizes gases like oxygen or nitrogen before reaching the substrate.

The beam melts the substrate during the cutting or engraving process, followed by a nitrogen blowout. The mechanical component of the equipment that moves the cutting head across the substrate is assisted by chains and belts.

Various kinds of laser cutting devices are employed in the market:

Numerous laser cutting machines continue living depending on the variety of lasers utilized. As a result, the type of laser determines the substrate type and material thickness. The following are the three primary categories of laser cutters:

  • Crystal laser cutters:

Crystal laser cutters produce neodymium-doped yttrium ortho vanadate beams. These cutters can cut through some thicker materials since their wavelengths are shorter than those of CO2 laser cutters.

A smaller wavelength also aids in sharper focus and more intensity. These cutters' parts wear out due to their high power functionality, which is a downside.

  • CO2 Laser Cutters:

In addition to CO2, CO2 laser cutting equipment uses helium and nitrogen gas mixtures. Electric discharge charges up this particular gas mixture, which causes it to emit a laser beam. Such cutters have a wavelength of 10.6 mm.

The most popular and well-known laser from trumpf parts is an excellent CO2 model because they are effective and affordable.

  • Fiber Laser cutters:

Seed laser, amplified and enlarged utilizing unique optical fibers, is the forerunner of fiber laser. Solid-state laser is the moniker used by fiber laser cutters more frequently.

The cutting of reflective and conductive metals, a threefold increase in efficiency over CO2 laser cutters, and the lack of driving parts are just a few of this laser cutter's impressive advantages.

Both organic and inorganic materials can be treated with fiber lasers. Although highly similar to crystal lasers, fiber laser cutters are more effective and require less upkeep.

Summing it up:

You only need to look at the necessary specifications of the machines once you have determined the type of work you require from your device. Choose CO2 laser cutters and engravers from trumpf spare parts with a power range on the higher side if you need to operate with non-metals. However, you need to opt for fiber laser equipment if your demand accurately works on metals or reflective surfaces like steel or aluminum.

Source: https://altpartsinc.wixsite.com/altpartsinc/single-post/tips-for-choosing-the-best-laser-cutting-system

An excellent engineer's guide to laser cutting

Today, a concentrated, powerful laser beam is used in the fabrication process of laser cutting to slice the material into slabs, plates, or sheets. Non-contact optics are typically used in the process to control the output's form.

It is most frequently used in industrial applications where the quality of the cut is crucial, and milling or drilling would be an unaffordable option. Several materials may be used during the fabrication process, mostly in conjunction with metals, such as plastic, glass, gemstones, or paper.

Using a laser to cut has many applications. According to the circumstances of what you wish to perform with a laser, there are several procedures, including fusion, oxidation, and scribing, each of which has advantages.

Do you discover it challenging to maintain your equipment operational because your provider is unresponsive? Amada lasers consumables can avoid frustration, obstacles, and lost revenue. Here are some lists of an excellent engineer's guide to laser cutting:

What is the process of laser cutting?

Laser cutting is the procedure in which a high-powered laser beam is used to cut or etch goods. Typically, the laser is beamed through high-fidelity optics, where it slices some items. Different cutting systems are used depending on the project's required performance and material type.

A laser beam is produced when electromagnetic radiation pulses are arranged laterally inside a closed container. These pulses are generated using electrical discharges or lamps by the excitation of a material.

When the light's energy exceeds the threshold required to leave the laser in a single, well-focused pulse from one end of the tube, it is amplified as it alternates between two mirrors.

How to create the most of the Machine with Laser Cutting:

The properties of your material and its intended application play a significant role in determining the ideal laser for cutting it.

When selecting the design of your laser for this application from the best Amada replacement parts, there are other elements to take, such as how powerful it needs to be, what kind of wavelength you need, and perhaps its temporal mode and spatial mode capabilities.

These factors can influence whether or not a laser with an experienced focus or one that offers different types of beam outputs will be the better choice.

  • Wavelength:

The amount of heating required to melt or cut through an object depends on the wavelength of the laser beam because it affects how the material absorbs light.

  • Beam Strength:

The size of the focusing spot a laser beam produces and, consequently, the effectiveness of the cut across a material are governed by its modal distribution. A beam is typically thought to be most effective when it produces Gaussian data.

  • Focus Point:

The beam is assisted in focusing to a small, highly concentrated point using a lens or a specialized mirror. The focal spot, also known as the focus, is where the beam's diameter is most minor.

The optimum focus for your laser cutter depends on a number of elements, such as the material's qualities, thickness, beam's shape, mode, etc.

  • Power:

Getting stronger laser Amada replacement parts is the best option if you cut many things. On the other hand, you can get away with employing a machine with a weaker laser if your applications don't call for a lot of cutting.

 Remember that greater intensity levels always result in faster burning and more expensive each cut. Again, flexibility is essential since it depends on how much work needs to be done.

Types of laser cutting:

  • Fusion cutting provides a cutting edge almost entirely free of oxide because it uses reaction-inhibiting nitrogen or argon as the cutting gas.
  • Utilizing oxygen as an aid gas during oxidative cutting raises the temperature and reaction rate at the cutting interface, allowing for the quicker removal of thicker materials with a lower-quality surface finish.
  • The electronics industry mainly uses laser scribing to process thin sheets of material.

Many kinds of lasers can be used in these three laser cutting methods, including fiber, solid-state, and gas, like the CO2 emission gas laser.

Benefits of using a laser cutting over other cutting methods:

Laser cutting has many advantages compared to other cutting methods, including mechanical die punching, sawing, plasma cutting, and waterjet. The following list and analysis highlight some of the main benefits:

  • Reduced heat impacted zone and reduced material deformation
  • Greater cutting accuracy
  • High rates of repetition
  • Less contamination of the materials
  • Improved operational personnel safety conditions
  • Better cutting edges and less additional polishing needed after the cut
  • Decreased material waste because of improved sheet use

Final Thoughts:

Finally, Innovative businesses can create new and complicated products more rapidly and affordably thanks to Amada laser consumables. Laser cutting provides exceptional precision and reproducibility and can produce parts in days instead of weeks.

Source: https://altpartsinc.wixsite.com/altpartsinc/single-post/an-excellent-engineer-s-guide-to-laser-cutting

Tuesday, September 13, 2022

7 Points to Consider for Laser Cutting Maintenance

Maintenance is not about fixing things but about not having to fix things. A lot of fabricators do not understand it. They usually do not like interrupting their production, thinking it will affect the total outcome.


When the proper maintenance is ignored, the equipment can stop working anytime if pushed beyond limits. So, having a maintenance schedule is better and saving your business from unplanned costs. Regular maintenance can lower the failure of a machine. Regular replacements of spare parts and cleaning can take you a long way.


Here are some points you need to take care of to maintain the laser machine:


  1. Daily Maintenance

  • Always check the pressure of laser gas and cutting gas before turning on the machine. You must replace it if the gas pressure is not enough.
  • Check the alignment of the X, Y, and Z-axis, and none of the screws should be loose.
  • Check the water level in the chiller. You should refill it if it is not sufficient.
  • After the end of the day, check the focus lens for damage. If you find any, replace them with new ones. You can easily find Amanda parts and trumpf parts online. Their spare parts must be of good quality so that you never have to compromise with the quality of cuts.
  • Clean the waste on the machine after completing daily work and also clean the surroundings. None of the parts of the machine should have any debris, or else it can damage the machine in the long run.

  1. Maintenance of Optical Path Lens

  • You should not touch the surface of the optical lens directly with bare hands. It can cause scratches on the surface of the lens.
  • You must not clean the lens with water or detergent. It can damage the film on its surface.
  • Clean with rubbing alcohol and muslin cloth. If your lens is damaged, you can contact the service department to repair it. Using damaged lenses can accelerate the damage to the repairable lens.

  1. Proper Installation of Optical Lens

  • Before installing the lens, you must ensure that you are wearing clean clothes, that your hands are properly sanitized, and you are wearing clean gloves.
  • Lenses shouldn't be touched with bare hands.
  • While removing the lens, hold it from the side so that you do not touch its surface.
  • While mounting the lens to the holder, extreme force should not be applied as it might deform the lens and affect the quality of the laser beam.
  • Use a spray gun to remove dust on the mirror surface.
  • Lastly, use an air spray gun to clean the lens and free it from dust or foreign particles.

  1. Maintenance of Water Chiller

  • It is important for the chiller to work properly to ensure the laser machine is working in good condition.
  • You must clean the heat sink and condenser regularly.
  • Check the water levels in the tank regularly. If the water levels are low, you can add deionized water to it.
  • Check the electrical terminals and remove the dust.
  • Clean the impurities in the filter regularly. If there is any damage to the filter, it should be replaced immediately.

  1. Maintenance of Air Compressor

  • Before you start the maintenance process, the compressed air in the storage tank must be drained.
  • Clean the air filters every 15 days.
  • You can replace the filters every 1200 hours of operation.
  • Replace the valve disc if necessary.

  1. Maintenance of Air Dryer

  • Depending on the air's humidity, you must drain the air and water 3 to 7 times in the refrigeration dryer.
  • Clean the air filters every month.
  • You must remove and clean the cooling fins of the air condenser once a month.
  • Every six months, replace the air filters.

  1. Maintenance of Regulated Power Supply

  • Every month all the connection terminals in the regulator and the main circuit must be tightened.
  • You must check the elasticity of the sliding carbon brush every three months. Use the dry compressed air to blow dust adhered to the components in the regulator.

Conclusion

It is important to keep maintenance as a priority and not compromise. Not all the steps discussed above will fit all metal fabricators, but they will help you maintain your laser machine. If you do not have any maintenance plans, this article will help you make one. Along with maintenance, if you ever change the spare parts, ensure the brand; generally Amada parts are of good quality. Using good quality spare parts will last longer and provide good quality laser cuts. You can buy good quality Amada laser parts, trumpf laser parts, etc. online.