Peluang Usaha Menggunakan Laser Cutting

PELUANG USAHA MENGGUNAKAN LASER CUTTING Jasa Laser Cutting Medan

Disini saya akan menandakan apa peluang usaha melalui mesin laser cutting. Mesein laser cutting memiliki peluang bisnis yg bisa digunakan sang industri. Mesin laser cutting mempunyai kelebihan yang unik dan tidak selaras dengan mesin pemotong biasa maka berdasarkan itu mesin laser cutting sangat mendukung buat membuka peluang bisnis baru, menaikkan pendapatan industri yang memang bisa menggunakan mesin laser cutting. Hasil material misalnya arklik, kayu, logam ,polystyrene, kulit, karet, dll dll ketikan dipotong oleh mesin laser cutting bisa membuat hasil yg memuaskan dan bernilai tinggi.

Selain Laser Cutting, Laser Engraving pula mempunyai peluang bisnis yang besarsekali pada tengah kebutuhan industri dan kebutuhan wargaumum yang terus menerus berkembang. Bisnis Laser Engraving adalah peluang usaha baru yg terlihat begitu menguntungkan. Beberapa ilham buat memulai bisnis ukiran laser antara lain misalnya album foto, gelas, kenangan famili besardiatas marmer, display kayu dan miniatur pada mainan, dll.

Hal yang sangat menarik berkenaan menggunakan usaha Laser Engraving, apalagi apabila dipadukan menggunakan Laser Cutting merupakan kita dapat mengukir atau memotong pada atas berbagai bahan misalnya akrilik, plastik, kain, marmer, kaca , kain, marmer, kaca, & banyak sekali media lainnya.

Mesin laser juga memiliki kemampuan buat memotong, menggores, gravir, dan melubangi. Sehingga perpaduannya dari kemampuan tersebut banyak sekali varian – varian produk yg sanggup didapatkan, seperti :

– Kertas. album foto, box, company profile, kartu undangan, dll

– Kain, karet, kulit, dan kain. Jaket, sandang, dompet, tas, ikat pinggang, dll

– Kaca. Ukiran pada kaca yang Jasa Laser Cutting ukuran akbar pada interior ruangan

– Logam. Suku cadang mesin, kendaraan, rangka tertutup, dsb

– Kayu, tripleks, melamin. Aneka ukiran – gesekan masjid, tempat tinggalmakan atau cafe

Sekarang kita mampu memakai mesin laser tadi, baik itu Laser Cutting, Laser Engraving, dll. Untuk membarui desain atau gambar menurut komputer menjadi benda tertentu yg sudah pastinya membentuk serangkaian peluang baru buat usaha yang kita miliki. Tidak wajibbuat mempunyai mesin lasernya sendiri, walaupun idealnya wajibbegitu, lantaran nir memilikinya pun kita mampu melakukan kerjasama menggunakan penyedia jasanya. Jadi peluang bisnis laser cutting ini sangat menarik buat kita ? gw sendiri cukup menarik buat masuk ke dunia usaha mesin ini.

Demikian artikel gw mengenai peluang usaha dengan mesin laser cutting ,kiranya para pembaca dapat lebih mengetahui apa kelebihan darin mesin laser cutting ini dan mohon maaf apabila ada galat-keliru istilah. Terima Jasa Laser Cutting Medan kasih.

Anda tidak memliki peluang bisnis buat berbisinis ? Langsung saja dapatkanmesin Laser Cutting !!!

Jual Mesin Laser Cutting Paling Berkualitas

                                                                                                                                             

 Spesifikasi Mesin Laser Cutting 9060 :

Area Cutting Grafir : 900 x 600 mm

Daya Tabung Laser : 60 Watt / 80 Watt

Ukuran Minimal Huruf : Karakter 1mm, Karakter Cina 2mm

Akurasi Posisi Reset : ± 0.01 mm

Tegangan Listrik Mesin : ACC 220 V ± 10 % 50 Hz Daya Listrik : Mesin < 1000 W, Chiller < 500 W, Blowe

Harga PROMO : Rp. 85.000.000,-

Minat ? hubungi PUSAT MESIN www.deprintz.com / Jl. Arif Rahman Hakim 51 no.B-tiga

Surabaya 60117 Telp. 081297667579

Jmt

For cuttJasa Laser Cutting Medan ing accuracy and efficiency, the fiber laser cutting machine stands head and shoulders above other cutting systems, such as CO2 lasers or plasma cutting machines. Fiber lasers are designed for energy efficiency. The laser beam is transmitted directly from the resonator through a fiber optic cable to the cutting head. This solid-state design does not require Jasa Laser Cutting Medan any mirrors or optical devices to transmit the laser beam. Fiber lasers are an ideal choice for cutting reflective materials such as copper, brass, aluminum, and stainless steel. Unlike a CO2 laser that use electricity to ignite laser gas, that includes gases like Helium, Nitrogen and Carbon Dioxide to produce the laser beam, fiber lasers use a Compact Ytterbium Fiber Laser System that is directly feed into the core of the flexible fiber optic cable. Fiber lasers do not require expensive gases to operate and they use less electricity. Fiber has a 35% wall efficiency as compared to CO2 that has an 8% wall efficiency. Another big advantage of fiber laser cutting machines is that fiber lasers are less expensive to operate.

JMT fiber lasers are designed and built for performance

All JMT fiber lasers are built on a solid foundation to assure accuracy even under the most demanding operating conditions. The cutting head is mounted on a stiff gantry axis system, which is mounted to a rigid stress-relieved steel frame. This design maintains cutting accuracy even at the highest accelerations and fastest cutting speeds.

Continuous cutting with less down-time

JMT fiber lasers come standardly equipped with features to help improve your productivity.

To simplify your material handling, JMT integrates shuttle tables into the control system. While the laser is cutting one sheet, the shuttle table system allows for convenient of unloading of cut parts and loading of new sheets. This method minimizes the amount of time you spend handling materials and maximizes your productivity. Furthermore, our fully electric shuttle tables do not require the use of any hydraulic oils and are maintenance free.

Another time-saving feature is the lateral drawer scrap removal system that allows you to remove scrap pieces from the work area without interrupting the cutting process. The sideways design of this system allows for easy access and maintenance.

Breathe easier with our clean operating system:

Harmful fumes and dust particles produced during cutting can be a masalah with other machines, but not with the JMT fiber lasers. Our machines include a multi chambers high efficient system offers the ability to make an equal amount of suction during the cutting operation of the whole machine cutting area. This systems will improve the air quality in your shop as Jasa Laser Cutting well as protect the health and safety of your laser operators.

The tiga most important components:

The reliability and performance of any fiber laser system really comes down to the type of resonator, the cutting head and the CAD/CAM software that are used. JMT fiber lasers are built with the best components that perform cut after cut:

We use an IPG resonator as the power source for our fiber laser. The diodes in this resonator are all solid-state and have an estimated lifetime of more than 100,000 hours! Ytterbium fiber lasers operating at the 1070 nm wavelength are perfect for laser cutting. The operating wavelength, multi-kilowatt power, good beam quality, wide operating power range, power stability, small spot size are some of the qualities the fiber lasers offer for most cutting applications. Fiber lasers have wide dynamic operating power range and the beam focus and its position remain constant. IPG resonators have heat redundancy to ensure 100% up time with no change in power. There are no moving parts to wear out, in this resonator so it is reliable and maintenance free operation.

For the cutting tool, we use a Precitec ProCutter head that is equipped with a fully-integrated sensor system that monitors the cutting process and provides real-time relevant feedback to the operator via machine controls, head mounted LEDs and a Bluetooth® system that interfaces with the operator’s smart device. This intelligent auto-focusing head is able to detect distance between the nozzle and the sheet and to automatically adjust the head height to compensate for differences in the sheet metal. It is able to make this adjustment even at the highest cutting speeds.

In addition, the ProCutter head is completely encased in a dustproof housing which protects the beam path from contamination. Since the fiber laser light beam is only 1µm in wavelength, it is very sensitive to dust or other contamination produced in cutting process. Having the cutting head inside a protective housing ensures that all critical parts remain as clean as possible. This protection means the focal lens will last longer and require less maintenance. The housing is built for easy maintenance with replaceable, low-cost protective window.

Software has as much impact on fiber laser performance as hardware. We wanted a CAD/CAM perangkat lunak that was powerful and feature rich but still easy-to-use, as well as a software package that would integrate fully with our hardware so we could optimize our laser performance. Lantek Expert Cut perangkat lunak delivers an array of unique features that benefit the user, which is why every JMT fiber laser system includes this perangkat lunak package.

Lantek Expert Cut has an intuitive menu system that can be easily customized for your application. The menus can be adjusted to fit different steps in your production process. You can design or import parts, select materials from the warehouse, nest and execute cutting sequences all from within the same acara. Expert Cut’s automatic nesting feature maximizes your material utilization by optimizing the part arrangements on the sheet metal. In addition, the software measures any remnant pieces and saves the information in memory using its special warehouse feature. On your next job, the aplikasi will automatically prioritize the remnant sheet for use, which helps you manage their material inventory more effectively.

A customizable library allows you to create up to 12 cutting profiles for different materials/thicknesses. These profiles include settings for power, speed, frequency, gas, as well as, entry management details such as lead-in, pierce, fly-cutting parameters. When setting up your job, simply select the appropriate cutting profiles from the library. This feature simplifies job set-up and saves you time. Overall, JMT fiber lasers provide the flexibility, performance and value that you should expect from a fiber laser metal cutting system.

Laser Cutting Services In North Carolina

US Metal Crafters is an American owned and operated company specializing in full-service metal fabrication solutions. One of our core service offerings is precision laser cutting. Equipped with over 30 years of industry experience, more than 120,000 square feet of production space, and cutting-edge laser technology, our team offers premium laser cutting capabilities for a wide range of materials (varying in type, grade, and thickness) to customers in Jasa Laser Cutting the southeastern US and beyond.

Jasa Laser Cutting Medan In the industrial sector, laser cutting serves as a high-precision, high-accuracy manufacturing method for various parts and products, including metal stampings. The process relies on high-powered laser technology to heat, melt, and, ultimately, produce cuts on localized areas of a metal (or other material) workpiece. While laser cutting operations can be manual or automated, they generally employ computerized equipment to guide the path of the laser beam across the material to form the desired design. As such, the components produced tend to have higher tolerances and edge quality than those produced by other manufacturing processes.

In addition to the above benefits, the laser cutting process serves as a superior manufacturing process for many other reasons. The following article outlines the key advantages of the process, as well as the common materials employed in laser cutting operations, the equipment utilized by the US Metal Crafters team, and the typical manufacturing applications for the process.

As indicated above, the laser cutting process offers numerous advantages over other cutting methods, such as:         Higher precision. The process employs extremely narrow laser beams to melt and cut materials, allowing for cutting tolerances averaging between 0.003–0.006 mm. In contrast, the die cutting process generally has tolerances between 1–3 mm, while the plasma cutting process typically maintains tolerances around 0.02 mm. As a result, the laser cutting process is better suited for producing intricate designs to high quality standards.         Cleaner edges. The cuts made by the laser cutting process are generally of higher quality than the ones produced by other cutting processes. As such, they require little to no finishing, especially when they’re produced using fiber lasers.         Shorter lead times. Laser cutting operations—especially those controlled by CNC technology—allow for fast cutting speeds with minimal operator intervention. These qualities, combined with the process’s superior cutting precision and accuracy, enable them to offer some of the fastest turnarounds in the industry.         Broader versatility. The laser cutting process accommodates a variety of materials, ranging in type, grade, size, and characteristics. In addition to cutting them into the desired shapes and sizes, the same laser technology can be used to etch, mark, drill, and otherwise alter the surface of the material without requiring a change of tooling.         Smaller material waste-to-utilization ratio. The higher precision afforded by the laser cutting process makes it easy to maximize space utilization in cutting layouts. As a result, manufacturers use less material to fulfill a project, resulting in significant savings, especially when utilizing expensive materials (e.g., specialty or custom metals and alloys). Those savings can then be passed onto customers.         Lower risk of workpiece contamination. As the laser cutting process does not require direct contact between the cutting technology and the workpiece, there is a much smaller chance of the material becoming contaminated during operations (given the proper operating environment conditions).         Greater energy-efficiency. Laser cutting technology requires significant amounts of energy to power the cutting beam. However, unlike conventional cutting equipment (e.g., cutting dies and presses), it does not need to convert energy into mechanical cutting force to process the material, resulting in lower overall operational costs.          Better scalability. Since laser cutters do not require custom tooling to produce different parts and products, manufacturing operations have relatively low setup and operational costs, making the laser cutting process suitable for low-volume to high-volume projects.

One of the key advantages of the laser cutting process is its versatility—i.e., its ability to handle a variety of materials. In industrial manufacturing operations, laser cutters are generally used to process metals. While the term “metals” encompasses a wide range of materials, some of the ones most commonly used in laser cutting are:         Aluminum. Aluminum is a popular construction material for a variety of industrial components. However, its reflective surface can make processing it with standard laser technology challenging since there is a risk of the laser beam bouncing back. For this reason, manufacturers employ high-powered CO2 or fiber lasers (at least 250 watts) when processing aluminum, as they have the power necessary to pierce through the workpiece and produce a quality cut.         Brass. Laser cut brass components are used for both functional and decorative applications. The conductivity of the materials make them well-suited for use in electrical and electronic assemblies.         Stainless steel. Stainless steel is available in several grades—e.g., austenitic stainless steel, duplex stainless steel, ferritic stainless steel, and martensitic stainless steel—each of which offers unique characteristics that make it suitable for different applications. Two of the most common grades are austenitic and ferritic stainless steel, both of which readily accommodate the laser cutting process.         Mild steel. Mild steel—also referred to as low-carbon steel—is a steel alloy that contains between 0.05–0.25% carbon by weight. Compared to other steel alloys, it is more ductile, machinable, and weldable and less expensive. It is used in the laser cutting operations for both 2D and 3D components.

Laser cutting units can be categorized into one of three classifications based on the state of the active laser medium: gas, liquid, or solid-state. The type employed in a laser cutting operation—and its configuration—varies depending on the part and production specifications.

At US Metal Crafters, we employ two fiber lasers for our laser cutting operations: a Mazak 3000-watt Optiplex Champion 3015 and a Mazak 8000-watt Optiplex Champion 3015. Fiber lasers fall under the solid-state laser category, relying on optical fibers to transmit, amplify, and focus the laser beam during cutting operations. Compared to CO2 lasers (lasers with a gaseous active laser medium), they offer higher precision, better edge finishes, greater energy-efficiency, and faster cutting speeds. Equipped with these two laser cutting units, we can accommodate laser cutting projects involving aluminum, brass, copper, stainless steel, Jasa Laser Cutting Medan mild steel, and exotic alloys in thickness ranging from 0.01–0.5 in.

In addition to our laser cutting equipment, we maintain a full range of other manufacturing units to support our laser cutting operations. For example, our facility is equipped with a Safan Darley Brake 100-ton premium automatic press brake, which allows us to offer bending services. Other service offerings include grinding, assembly, painting, anodizing, and powder coating.

The laser cutting process is used to produce a variety of industrial components from sheet metal. Some examples of typical laser cut parts and products include brackets (structural or decorative elements used to support other components) and chassis/enclosures (partially or fully enclosed structures used to house electrical and electronic components).

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Laser Cutting Basics

Introduction: Laser Cutting Basics

A Jasa Laser Cutting laser cutter is a prototyping and manufacturing tool used primarily by engineers, designers, and artists to cut and etch into flat material. Laser cutters use a thin, focused laser beam to pierce and cut through materials to cut out patterns and geometries specified by designers. Apart from cutting, laser cutters can also raster or etch designs onto work pieces by heating up the surface of the workpiece, thus burning off the top layer of the material to change its appearance where the raster operation was performed.

Laser cutters are really handy tools when it comes to prototyping and manufacturing; they are used in machine shops on the industrial scale to cut large pieces of material, they are used by hardware companies to create cheap, quick prototypes, and they are tools used by makers and artists as a DIY fabrication tool to bring their digital designs into the physical world. In this guide I’ll explain what laser cutters are, what they can do, and how you can use them, and I’ll also provide some resources if you want to learn and do more with laser cutters.Step 1: What Is a Laser Cutter?

A laser cutter is a type of CNC (Computer Numerical Controlled) machine, meaning that it is controlled via a computer. A designer can design something in some sort of design software, and then send it to a laser cutter to have it cut out automatically, with just the push of a button. Once a design is sent to a laser cutter, the machine uses a laser beam to cut into or etch into the material on the cutting bed. Laser cutters are a great all around tool because they can be used to make so many different styles of design; laser cutters are used for anything from cardbaord prototypes to rastered artwork. Common laser cutters are primarily used to cut materials like wood, some plastics, and paper and cardboard, although there are more powerful laser cutters that can cut through metals and much thicker materials.

Laser cutters can be very quick, and can churn out designed parts in just a few minutes. Like 3D printers, laser cutters are rapid prototyping machines; they allow designers to quickly and cheaply iterate on their designs before they produce products on a larger scale. Step dua: How Do Laser Cutters Work?

There are a few different types of laser cutters, but they all essentially use the same process of using a laser to cut material. The laser originates from a laser resonator, which sends out a beam of intense light through reflects through a system of mirrors to the cutting Jasa Laser Cutting Medan head. Within the cutting head, the laser is focused through a lens and narrowed down to an extremely thin, concentrated beam. This beam is projected down at the material and can cut or raster the raw stock, which I’ll cover in more lebih jelasnya later. The cutting head is usually mounted on what is called an XY gantry, which is a mechanical system driven usually by belt or chain that allows for the precise movement of cutting head within a given rectangular area, which is the size of the work bed. The gantry allows the laser head to move back and forth and forward and back over the work piece so that it can make precise cuts anywhere on the bed. In order for the laser to actually cut, the focal point of the lens, where the laser would be at its finest, needs to be on the surface of the material it is cutting through. All laser cutters require a focusing procedure before making their cuts to ensure that the laser cuts well.

The difference between different types of laser cutters comes from what types of lasers the machines have. The type of laser defines what type and thickness of material it can cut through, because different laser types have different power ranges. Usually, higher power lasers are used on the industrial scale to cut out large sections of sheet metal or plastics, while lower power lasers are used for a wide range of thinner, more potentially flammable materials like paper and card stock, wood, and some plastics. I’ll cover the main types of laser cutters as well as the important settings laser on.Step tiga: Types of Laser Cutters

There are three main types of lasers used in laser cutters; CO2 lasers, fiber lasers, and neodymium lasers. Although the laser cutters are all built very similarly, they are distinct in that each type of laser has a specific power range, thus each can be used to cut through different material types and thicknesses.

CO2 Lasers: The laser is generated from electrically stimulated gas mixtures (mostly comprising of carbon dioxide). CO2 lasers are the most common types of laser cutters because they are low power, relatively inexpensive, efficient, and can both cut through and raster a wide variety of materials.

Materials: wood, paper based products (cardboard, etc), leather, acrylic, glass, some plastics, and some foams (can raster on anodized metals)

Neodymium Lasers: The laser is formed from neodymium doped crystals. These lasers have a much smaller wavelength than CO2 lasers, meaning they have a much higher intensity, and can thus cut through much thicker, stronger materials. However, because they are so high power, parts of the machine wear and tend to need replacing.

Materials: metals, plastics, and some ceramics

Fiber Lasers: These lasers are made from a “seed laser”, and then amplified via special glass fibers. The lasers have an intensity and wavelength similar to that of the neodymium lasers, but because of the way they are built, they require less maintenance. These are mostly used for laser marking processes.

Materials: metals and plastics Step 4: Laser Cutting Design Software

A Laser cutter works very much like your everyday inkjet printer. Laser cutters come with specific drivers that allow them to take what is on the computer, convert it into a format that the laser cutter can read, and then allow the laser cutter to do its job. Many design aplikasi packages support laser cutter drivers; it is pretty common among 2D design prorams, and some 3D design aplikasi can also support laser cutter drivers when dealing with 2D drawings or sketches. Here are a couple you may already be familiar with or may want to try out:

2D Design:CorelDRAW: graphic design perangkat lunak with an extensive number of tools and applicationsAdobe Illustrator: Powerful graphic design perangkat lunak used to create high quality designsAutoCAD (free for students): Great drawing perangkat lunak, primarily used by engineers and architects to create detailed drawings and product representationsInkscape (free):Free, open source graphic design perangkat lunak

3D Design:Solidworks:Engineering 3D design perangkat lunak with multiple packages for aiding in design for specific applicationsAutodesk Inventor (free for students): Professional mechanical design perangkat lunak used to create and optimize designed systemsAutodesk Fusion (free for students): Cloud-based CAD platform used to help designers through the entire designing, engineering and manufacturing processesStep lima: Vector Cutting

During a cutting operation, the cutting head fires a continuous laser at the material to slice through it. In order to know where to cut, the laser cutter driver reads all of the vector paths in the designed piece. Once you send your arsip to a laser cutter, only lines that register as only hairline or vector graphics with the smallest possible line thickness will be cut by the laser. All other graphics, like any images or thicker lines, will be rastered, which I’ll explain in a bit. The laser, when supplied with the right settings, will cut all the way through your material, so vector cutting is normally used for cutting out the outline of the part as well as any features or holes that you want to cut out of the material. Step 6: Laser Rastering

Rastering is a lot different than vector cutting; instead of cutting all the way through the workpiece, the laser will burn off the top layer of the material you are cutting to create two color (and sometimes grayscale) images using the raster effect. In order to raster materials, the laser will usually be set to a lower power than it would when vector cutting material, and instead of shooting down a pulsing beam, it creates fine dots at a selected Jasa Laser Cutting Medan DPI (dots per inch) so that the laser doesn’t really cut all the way through. The DPI directly correlates to the image resolution and affects how fine an image appears, exactly like image resolution on a computer. By adjusting the DPI you can control the laser’s effect on the material. Rastering on some materials comes out really clearly, while you may not get exactly what you expected on other materials. Before you raster for the first time, make sure you experiment with the settings until you get the desired effect!Step 7: Laser Cutter Settings

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Laser Cutting – Tapes, Frozen Epoxy Preforms, Kraft Paper

Epoxy Preforms, Tapes, and Shim Stock

Laser Cutting Machine

At NEDC Jasa Laser Cutting Medan we provide Laser Cutting Services. We commonly use laser-Jasa Laser Cutting cutting machines to cut high-performance tapes, frozen epoxy films, kraft papers, and other products. Laser cutting services are a huge part of NEDCs core capabilities. The machines are just one component of the equation.  The materials are our main focus. These materials include plastic shim stock, certain elastomeric products, frozen epoxy preforms, tapes, and kraft papers. We do this, because oftentimes a laser cutter can be more exact in what its producing. In addition, while die cutting has its place, tooling can be a concern with die cutting machines.  There are a few unique benefits to using a laser cutting machine:Benefits of Laser Cutting Services:-No tooling cost

With conventional die cutting, unique shapes can be expensive in tooling cost. With laser cutting no tooling cost is required, because there is no tool, except the laser itself!-Simple DXF allows for easy cutting

Laser Cutting requires only an electronic file such as a DXF to function. These files give the machine instructions of how to cut, when to cut, and where to cut.-Highly precise tolerancing

With conventional die cutting, meeting certain tolerance expectations on highly complex parts can be a challenge. However, tolerancing has never been tighter on laser cutting machines. Our machines can provide some dimensions as tight as +/- .002” depending on the material.-High material utilization

Part of offering laser cutting services is also to attempt to give the customer the best price possible. We can nest parts in different directions, and orientations to make the best possible use of the material we have. Some materials can be expensive, so material utilization becomes very important.-Lots of room for adjustments because of no tooling

One of the downsides of using conventional die cutting is that once the tool is made it can be difficult to adjust. For example, if a diameter is the wrong size, we may be able to fix it but sometimes we cannot. With laser cutting you can easily adjust things to make them smaller, bigger, longer, or Jasa Laser Cutting Medan wider. Nothing is set in stone with laser cutting software. This can be a huge benefit when cutting prototypes.-Low quantity runs

We would not say laser cutting machines do not move fast. However, laser cutting oftentimes hits it stride at lower quantity runs. With lower quantities, the mix of no tooling cost, room for adjustment, and high material utilization produces a large value proposition.Products & Materials:High-Performance Tapes

At NEDC, we are an authorized converter for the 3M Company. We have access to procure many tapes such as VHB Tapes, Transfer Tapes, Double Sided Tapes, and other unique tape configurations. We utilize our laser cutting services to cut these tapes for our customers. Oftentimes, we use our laser cutting machines to be able to kiss-cut parts. We cut parts to liners to make them easy for our customers to remove off during assembly.

Some common 3M tapes we cut on our laser include:

-VHB 3M 5952, 4941, 5909, 5907 and others

-Transfer Tapes 3M 9472, 467MP, 9469PC, 9485PC, 9471LE, 9472LE and others

-Double Sided Tapes 3M 7945MP, 415, and othersEpoxy Film Adhesives

One of the materials that utilizes our laser cutting services fairly often is Ablefilm®. Ablefilm® and other frozen epoxy film adhesives can be laser cut with these machines. Laser Cutting is one of the only to cut these film adhesives. To produce the small diameters, and interesting, dynamic curves that some circuit boards provide, laser cutting may be necessary.  These adhesive films are normally on the thinner side- going as low as .002”. Laser Cutting enables a wide amount of latitude on what is possible to be cut. These can include:

These Ablefilm® products may include 5025E, ECF561E, CF3350, 5020K, and 550K.Kraft Papers

Paper products traditionally do very well during the laser cutting process. Kraft Paper is also a great candidate for our laser cutting machine. We can cut Kraft Paper, Fishpaper, and Vulcanized Fiber. These materials come in different densities, weights, and specifications.Plastic Shim Stock

We use laser cutting services to cut many thin plastic like materials. One of the more popular materials is thin polyester(PET, or PETG). These materials are usually color coded to designate thickness. In addition, some other materials besides polyester can be used as shim stock. Not all plastics can be cut on our laser cutting machine but many can be.

NEDC owns and operates several laser cutting machines. As part of our laser cutting services, NEDC is use to demanding requirements placed on parts. As a result, these lasers operate with very precise accuracy, carrying the ability to hold some parts within a +/- .002” tolerance. It is good to keep in mind that laser machines are limited to a certain thickness of all materials. The ability to cut thick materials on a CO2 laser is also a function of the amount of the power the laser is able to produce.

However, it is good to keep in mind that while laser cutting can be a solution of a lot of challenges, there are some materials our laser has trouble with. These materials include metals, thicker plastics, and other materials. For more information on laser cutting or you believe you have a part  could be potentially laser cut, please contact sales@nedc.com.

Laserschneiden – Wikipedia

Laserschneiden, auch Laserstrahlschneiden, bezeichnet das Durchtrennen von Festkörpern mittels kontinuierlicher oder gepulster Laserstrahlung durch Materialablation. Nahezu jede Art von Werkstoff, beispielsweise Metalle, Dielektrika und organische Materialien können nach dem Stand der Technik mit Laserstrahlung geschnitten werden. Dabei müssen die Parameter der Laserstrahlung, wie Wellenlänge, mittlere Leistung, Pulsenergie und Pulsdauer der Applikation entsprechend angepasst werden. Der mikroskopische Abtragsmechanismus und die thermischen Effekte werden dabei im Wesentlichen von der Pulsdauer und der Bestrahlungsstärke bestimmt.[1]

Das Verfahren wird dort eingesetzt, wo komplexe Umrisse (zwei- oder auch dreidimensional), eine präzise, schnelle Verarbeitung (typisch 10 m/min, aber auch bis über 100 m/min[dua]), die Herstellung dreidimensionaler Durchbrüche (auch an schlecht zugänglichen Stellen) oder/und eine berührungslose, nahezu kraftfreie[tiga] Bearbeitung gefordert sind. Gegenüber alternativen Verfahren wie etwa dem Stanzen ist das Laserschneiden bereits bei sehr niedrigen Losgrößen wirtschaftlich einsetzbar.

Um die Vorteile des Laserschneidens mit denen des Nibbelns und Stanzens zu kombinieren, bieten die Hersteller auch kombinierte Maschinen an, die sowohl Operationen mit dem Stanzkopf als auch das Auslasern beliebiger Jasa Laser Cutting Medan Konturen ermöglichen.

Zum Einsatz kommen fokussierte Hochleistungslaser, meist der CO2-Laser (ein Gaslaser) oder auch zunehmend Nd:YAG-Laser (Festkörperlaser) sowie die effizienteren, gut fokussierbaren Faserlaser.Komponenten und Aufbau[Bearbeiten dua mm dickem Edelstahlblech (1.4301) mit einem 4 kW starken CO2-Industrielaser. Der Schnitt erfolgt im Schmelz­schneide­verfahren mit Stick­stoff als Hilfsgas. Die Schnitt­geschwindigkeit beträgt 9000 mm/min.

Das thermische Laserschneiden setzt sich aus zwei gleichzeitig ablaufenden Teilvorgängen zusammen. Zum einen beruht es darauf, dass der fokussierte Laserstrahl an der Schneidfront absorbiert wird und so die zum Schneiden benötigte Energie einbringt. Zum anderen stellt die konzentrisch zum Laser angeordnete Schneiddüse das Prozessgas beziehungsweise Blasgas bereit, das die Fokussieroptik vor Dämpfen und Spritzern schützt und weiterhin den abgetragenen Werkstoff aus der Schnittfuge treibt. Je nach der im Wirkbereich erreichten Temperatur und zugeführten Prozessgasart Jasa Laser Cutting stellen sich unterschiedliche Aggregatzustände des Fugenwerkstoffs ein. Es wird je nachdem, ob der Werkstoff als Flüssigkeit, Oxidationsprodukt oder Dampf aus der Schnittfuge entfernt wird, in die drei Varianten Laserstrahlschmelzschneiden, Laserstrahlbrennschneiden und Laserstrahlsublimierschneiden unterschieden.

Derzeit liegen die maximal verarbeitbaren Plattenstärken für Stahl bei etwa 40 mm, für Edelstahl bei 50 mm; Aluminium wird bis etwa 25 mm mit Laser geschnitten. Es ist gegenüber Stahl technisch aufwändiger, beispielsweise Aluminium oder Kupfer zu schneiden, da der größte Teil der eingebrachten Strahlung zunächst reflektiert wird und deshalb eine viel größere Leistung beziehungsweise Leistungsflussdichte beim Einstechen erforderlich ist. Selbst wenn beim Schneiden ein größerer Leistungsanteil im Schneidspalt absorbiert wird, ist die Schneidleistung sehr viel geringer als bei Eisenwerkstoffen, da die Wärmeleitfähigkeit von Aluminium und Kupfer sehr viel höher ist und keine unterstützende Oxidation maßgebend ist.

Querschnitte der Schnittfugen beim Plasmaschneiden, Laserschneiden und Autogenen Brennschneiden

Genauigkeiten bei verschiedenen Blechdicken Brennschneiden, Plasmaschneiden, Wasserstrahl­schneiden, Laser­schneiden und Funken­erodieren (EDM)

Schneidgeschwindigkeiten beim Autogenen Brennschneiden, Laserschneiden und Plasmaschneiden

Laserschneiden von Kupfer mit einer Festkörperlaser­maschine

Kupfer und andere gut wärmeleitende Metalle sind schwer oder nicht mit dem CO2-Laser schneidbar. Dies hängt allerdings nicht nur von der Wärmeleitfähigkeit ab, sondern vielmehr davon, dass ein sehr großer Anteil der eingebrachten Strahlung reflektiert wird und das Material somit kaum erhitzt Jasa Laser Cutting Medan wird. Bei dünnen Blechen können jedoch gepulste Nd:YAG-Laser eingesetzt werden – mit diesen können alle Materialien geschnitten werden.

Der kritischste Vorgang beim Laserbrenn- und -schmelzschneiden ist das Einstechen. Es ist zeitintensiv, da oft gepulst mit verringerter mittlerer Laserleistung gearbeitet werden muss, um Rückreflexion und die Fokussieroptik gefährdende Metallspritzer zu vermeiden. Moderne Lasermaschinen haben Sensoren, mit denen der erfolgte Durchstich detektiert werden kann, um auf diese Weise Zeit zu sparen bzw. sicherzustellen, dass der Schnittbeginn nicht vor dem kompletten Durchstechen des Materiales erfolgt.

Beim Laserschneiden von Stahl findet an den Schnittkanten aufgrund der hohen Temperaturunterschiede eine Aufhärtung statt. Diese kann bei nachfolgender Bearbeitung zu Problemen führen.

Flaches Material liegt beim Schneiden auf einer Auflage (Zähne, Spitzen, Schneiden), die mehrere Bedingungen erfüllen muss:möglichst geringe Auflagefläche – Abfälle oder kleine Teile müssen hindurchfallengeringe Rückreflexion – ansonsten mögliche Schädigung der Werkstücke von unten oder auch der Laserstrahlquellehohe Widerstandsfähigkeit gegenüber Laserstrahlabtrag – große Wartungsintervalle

Die Verfahren werden folgendermaßen eingeteilt:Laserstrahlschmelzschneiden[Bearbeiten

Laser Cutting China, Laser Cutting Service, Online Laser Cutting

We provide custom laser cutting on stainless steel, aluminum, mild steel,acrylic, wood services from China to worldwide forone off projects or big batch orders. Now more and more Jasa Laser Cutting Medan international companies and individuals come to us,they are placing orders to us with custom laser cutting requirements.

Our equipment is CO2 High-power laser cutting machine in metal , controled by CNC system. CNC precision LASER cutting is a very cost-effective method for manufacturing small tobig part orders made from flat sheet metal. CNC technology, which stands for ‘computer Jasa Laser Cutting numerical control’, uses a LASER programmed by a computer to cut materials. HEK’s customers benefit from theCNC LASER cutting process through high precision part production, reduced cost and faster job delivery.

CNC LASER metal cuttingtechnology, HEK produces finished parts and components with smoother surface finishes, and practically burr-free holes and edges, while generating less material waste than conventional

stamping processes. HEK consistently delivers cost-competitive high quality LASER cut parts. Our skilled CNC precision LASER cutting metal fabricators process custom sheet metal jobs quickly and accurately. Our

CNC LASER systems have the latest high speed axial flow resonators for precision quality cutting of ferrous and non-ferrous metals such as steel and aluminum. Our perangkat lunak driven CNC LASER cutting equipment offers the fastest processing of sheet metal because there is no tooling to be made. CAD designs quickly become finished parts. CO2 LASER metal cutting equipment features:

Controller for quick programming; no tooling costs               Minimal setupFast job turnaround timesMaximum cutting thickness: 18mm mild steel, 12mm stainless steel, 8mm aluminium,5mm brass,

                                         25mm acrylic, 20mmwooden material.Minimum cutting thickness: 0.10mm most materialsMaximum sheet size: 4m x 2mGeometric part production with high precision dimensions, shapes and tolerancesSmooth surface finishes

Main Jasa Laser Cutting Medan business: laser cutting in flat metal panels and sheets, laser cutting Oil filter tubes

and laser cutting service in flat metal work of art.

soft CAD System for laser cutting machine

2D or 3D CAD/CAMDXF , DWG, AI, CDR, SVG, EPS & PDF Import CapabilitiesElectronic File Transfer Available

Laser Cutting Machine Market Size, Share Dunia Industry Report 2024

The dunia laser cutting machine market size was valued at USD 3.02 billion in 2015. The growing musim of automation in the manufacturing sector and the increasing demand for the end-use industry are expected to augment the demand for these machines over the forecast period.

Europe laser cutting machine market, by application, 2015 – 2024 (USD Billion)

The increasing globalization has led to huge demand among consumers for final products to the micron level. Moreover, the end-use segment is widely adopting these machines to produce high-quality products in minimal time. The increasing musim of automation is enabling manufacturers to automate various processes including laser cutting.

These tools precisely cut parts and patterns at higher speeds with consistent results. Manufacturers are investing in automation of laser cutting owing to the minimal downtime and energy conservation needs.

The key players are focusing on reducing the price of these machines owing to the intense competition among the vendors. The presence of a vast number of manufacturers has enabled them to adopt the pricing strategy to reduce the cost and gain a considerable market share. However, the high cost involved in the implementation of these devices, lack of technical expertise, and high power consumption are expected to challenge the industry growth.Technology Insights

Gas segment is estimated to be the fastest-growing at a CAGR of over 9.4% from 2016 to 2024. Increased demand for improved machining tools and equipment is driving the adoption of these lasers. They are widely used in laser printing, dye laser pumping, barcode reading and for making holograms.

The solid state is anticipated to dominate the technology segment owing to the demand for these in low-power applications. Moreover, the broad adoption of this technology in medical applications such as endoscopy, dentistry, and skin rejuvenation is augmenting the demand for the solid state over the forecast period. Technological advancements in CO2, YAG, and fiber lasers are enabling greater adoption in areas such as healthcare, consumer electronics, and military.Process Insights

The flame segment is estimated to dominate the market by 2024. The flame based process offers an improved finish, high quality, and high cutting speed compared to other procedures. The increased demand for trimming small alloys of steel and carbon is anticipated to boost the revenue for the flame based process.

Asia Pacific laser cutting machine market, by deployment, 2015 (USD Billion)

Fusion segment is projected to grow at a CAGR of over 9.4% from 2016 to 2024. This process is suitable for cutting structural steel and electrical sheets in the production and prototyping of electric motors. Moreover, owing to the high flexibility and faster-cutting speed the process is estimated to dominate the industry over the forecast period. Application Insights

The industrial sector is estimated to dominate the laser cutting machine market reaching over USD 1.78 billion by 2024. The growth can be attributed to the expanding industrial sector in the developing countries worldwide. The growing use of these machines to clean molds and parts during the manufacturing process is contributing to the industrial sector growth.

Consumer electronics is anticipated to be the fastest-growing segment over the forecast period. These lasers are used for welding and cutting in consumer electronics and other consumer products. Laser-based machines are commonly used to cut printed circuit boards, iPhone display cases, etc. Moreover, the short shelf life of these devices is expected to increase the requirement for the machines over the forecast period.Regional Insights

North America is expected to be a significant region, owing to the presence of robust industrial sector. The region accounted for over 31% revenue share in 2015 and is estimated to reach over USD 1.97 billion by 2024. Asia Pacific is projected to be the fastest-growing region owing to the presence of robust economies such as China, India, and Japan. The increasing adoption of laser systems in the manufacturing sector is boosting the regional growth. Moreover, the Jasa Laser Cutting Medan strong growth in industries that use laser cutting to produce semiconductors, consumer electronics, and automotive components is expected to drive demand.Key Jasa Laser Cutting Companies & Market Share Insights

Key competitors such as Trumpf Laser GmbH + Co. Kilo Gram, Rofin-Sinar Technologies Inc., IPG Photonics Corporation, and Coherent Inc. majorly occupies the global laser cutting machines market share. Other prominent players include Jenoptik Laser GmbH, Kern Laser Systems, Amada Miyachi Co. Ltd., and others. These players are involved in research and development activities to develop products compliant with the regulatory standards mandated by the government authorities.

The intense competition is enabling market participants to develop innovative products that are efficient and provide faster cycle times for cutting and engraving processes. Strategic investments and partnerships are anticipated to be the most efficient way to gain quick access to the emerging markets.Laser Cutting Machine Market Report Scope

Revenue in USD million/billion and CAGR from 2017 to 2024

Revenue forecast, company ranking, competitive landscape, growth factors, and trends

Technology, deployment, application, region

North America; Europe; Asia Pacific; Rest of the World

Trumpf Laser GmbH + Co. Kilo Gram, Rofin-Sinar Technologies Inc., IPG Photonics Corporation; Coherent Inc.

Free report customization (equivalent up to 8 analysts working days) with purchase. Addition or alteration to country, regional & segment scope.

Avail customized purchase options to meet your exact research needs. Explore purchase optionsSegments Covered in the Report

This report forecasts revenue growth on the global, regional, and country levels and provides an analysis of the industry trends in each of the sub-segments from 2015 to 2024. For the purpose of this study, Grand View Research has segmented the dunia laser cutting machine market on the basis of technology, deployment, application, and region:

Technology Outlook (Revenue, USD Billion; 2015 – 2024)

Semiconductor

Process Outlook (Revenue, USD Billion; 2015 – 2024)

Application Outlook (Revenue, USD Billion; 2015 – 2024)

Regional Outlook (Revenue, USD Billion; 2015 – 2024)

RoWFrequently Asked Questions About This Report

b.The dunia laser cutting machine market size was estimated at USD 4.5 billion in 2019 and is expected to reach USD 4.9 billion in Jasa Laser Cutting Medan 2020.

b.The dunia laser cutting machine market is expected to grow at a compound annual growth rate of 9.1% from 2017 to 2024 to reach USD 6.7 billion by 2024.

b.Asia Pacific dominated the laser cutting machine market with a share of 32.6% in 2019. This is attributable to the presence of robust economies such as China, India, and Japan.

b.Some key players operating in the laser cutting machine market include Trumpf Laser GmbH + Co. Kilo Gram, Rofin-Sinar Technologies Inc., IPG Photonics Corporation and Coherent Inc.

b.Key factors that are driving the market growth include increasing demand for high-quality products and the growing trend of automation.