A Laser Cutting Machines are easily programmable and automated. There setup and maintenance cost is quite low. A Laser Cutting machine offers a high speed repeatability.We provide all kinds of Laser Cutting Machine related to Fibre Laser, CO2 Laser, Wood Laser Cutting, Leather Laser Cutting & Acylic Laser Cutting Machine.
Laser cutting uses a focused laser beam to cut through materials like thin metal sheets. It can cut carbon steel up to 1 inch thick, aluminum up to 1/8 inch thick, and stainless steel up to 5/8 inch thick. Laser cutting is commonly used in industries like automotive, architecture, retail displays, art, and medical because it offers shorter lead times than waterjet cutting, lower consumable costs, no tooling expenses, and very tight tolerances for intricate cuts. For more information on laser cutting or project examples, contact the company.
This document discusses CNC laser cutting technology. It begins by defining CNC and laser cutting, noting that laser cutting uses a resonator to create a focused beam of light to cut materials. It then discusses what types of materials can be laser cut, including thin metals like steel, aluminum, and stainless steel. The advantages of laser cutting are also outlined, such as high accuracy and speed. Common applications of laser cutting include automotive, architecture, and medical industries. Finally, the document mentions the basic procedures of laser cutting and references additional resources.
This document provides information on CNC laser cutting technology. It discusses how a laser beam is focused using optics and CNC to cut materials according to programmed patterns. The laser beam rapidly heats and vaporizes material, leaving a high-quality cut edge. Industrial laser cutters can cut sheet materials as well as structural and piping materials. The document then describes the laser cutting process and considerations for machine installation, including installing the laser tube, water pump, air pump, exhaust fan, and performing optical path alignment.
The document discusses laser cutting and welding of aluminum alloys. It describes how laser cutting works, noting that aluminum is difficult to cut with a laser due to its high reflectivity and thermal conductivity. Special techniques are required. It also discusses different aluminum alloy series and their properties relevant to laser processing. Advantages of laser cutting and welding aluminum include precision, automation, and reduced hazards. Limitations include high energy use and need for parameter optimization to prevent issues like cracking. A variety of aluminum applications are presented, such as aircraft components, that benefit from laser processing.
The document discusses laser cutting solutions provided by Meera Laser Solutions. It describes how their laser cutting machines use fiber or disk lasers, linear direct drives, and CNC controls to achieve fast, precise cutting. It summarizes the benefits of laser cutting over conventional processes in creating flexibility and reducing material waste. It also provides details on several laser cutting machine models for cutting various materials like sheet metal, tubes, profiles, and more.
The Ultimate Guide of Laser Cutting by SculpteoSculpteo
This document provides an overview of laser cutting, including its origins, how it works, the materials that can be cut, and applications. Laser cutting uses a high-powered laser beam to cut or engrave materials like wood, plastic, cardboard, and textiles. The laser beam is directed through optics to concentrate its energy on a small area of the material, melting, burning, or vaporizing it away. Common software used to design laser cutting files include Adobe Illustrator, Inkscape, SketchUp, SolidWorks, and OnShape, with vector files like SVG or DXF required. Laser cutting is used widely in industries like automotive, aeronautics, and solar panels to cut parts for production.
A Laser Cutting Machines are easily programmable and automated. There setup and maintenance cost is quite low. A Laser Cutting machine offers a high speed repeatability.We provide all kinds of Laser Cutting Machine related to Fibre Laser, CO2 Laser, Wood Laser Cutting, Leather Laser Cutting & Acylic Laser Cutting Machine.
Laser cutting uses a focused laser beam to cut through materials like thin metal sheets. It can cut carbon steel up to 1 inch thick, aluminum up to 1/8 inch thick, and stainless steel up to 5/8 inch thick. Laser cutting is commonly used in industries like automotive, architecture, retail displays, art, and medical because it offers shorter lead times than waterjet cutting, lower consumable costs, no tooling expenses, and very tight tolerances for intricate cuts. For more information on laser cutting or project examples, contact the company.
This document discusses CNC laser cutting technology. It begins by defining CNC and laser cutting, noting that laser cutting uses a resonator to create a focused beam of light to cut materials. It then discusses what types of materials can be laser cut, including thin metals like steel, aluminum, and stainless steel. The advantages of laser cutting are also outlined, such as high accuracy and speed. Common applications of laser cutting include automotive, architecture, and medical industries. Finally, the document mentions the basic procedures of laser cutting and references additional resources.
This document provides information on CNC laser cutting technology. It discusses how a laser beam is focused using optics and CNC to cut materials according to programmed patterns. The laser beam rapidly heats and vaporizes material, leaving a high-quality cut edge. Industrial laser cutters can cut sheet materials as well as structural and piping materials. The document then describes the laser cutting process and considerations for machine installation, including installing the laser tube, water pump, air pump, exhaust fan, and performing optical path alignment.
The document discusses laser cutting and welding of aluminum alloys. It describes how laser cutting works, noting that aluminum is difficult to cut with a laser due to its high reflectivity and thermal conductivity. Special techniques are required. It also discusses different aluminum alloy series and their properties relevant to laser processing. Advantages of laser cutting and welding aluminum include precision, automation, and reduced hazards. Limitations include high energy use and need for parameter optimization to prevent issues like cracking. A variety of aluminum applications are presented, such as aircraft components, that benefit from laser processing.
The document discusses laser cutting solutions provided by Meera Laser Solutions. It describes how their laser cutting machines use fiber or disk lasers, linear direct drives, and CNC controls to achieve fast, precise cutting. It summarizes the benefits of laser cutting over conventional processes in creating flexibility and reducing material waste. It also provides details on several laser cutting machine models for cutting various materials like sheet metal, tubes, profiles, and more.
The Ultimate Guide of Laser Cutting by SculpteoSculpteo
This document provides an overview of laser cutting, including its origins, how it works, the materials that can be cut, and applications. Laser cutting uses a high-powered laser beam to cut or engrave materials like wood, plastic, cardboard, and textiles. The laser beam is directed through optics to concentrate its energy on a small area of the material, melting, burning, or vaporizing it away. Common software used to design laser cutting files include Adobe Illustrator, Inkscape, SketchUp, SolidWorks, and OnShape, with vector files like SVG or DXF required. Laser cutting is used widely in industries like automotive, aeronautics, and solar panels to cut parts for production.
MLS Automation is a leading supplier of welding, cutting, and automation solutions, specializing in laser welding, arc welding, robotic welding systems, and laser cutting equipment. It was established in 2010 to provide automation solutions for the automotive industry. MLS has continued to offer state-of-the-art technology through research and development. It designs and manufactures turnkey machines for welding, cutting, and precision micro perforation. MLS provides robotic and CNC applications including robotic laser welding, cutting, MIG/MAG welding, machine tending, laser hardening, spot welding, and automated laser marking.
Laser cutting & Plasma cutting machines for textilesShubham Singh
This document provides information about laser cutting and plasma cutting machines. It discusses the basic working principles of lasers and how laser cutting machines function. It describes the key components of laser cutting machines like the laser source, optics, nozzle, and CNC system. It also discusses factors that influence cut quality and different configurations of laser cutting machines. The document then provides details about plasma cutting, including the plasma state, common gases used, and how plasma cutting torches work. It lists the advantages of plasma cutting over other techniques and describes process variants to improve cut quality.
The document provides an overview of soldering including basic equipment needed, soldering iron types, soldering processes, tips, and safety precautions. It discusses heating the soldering iron to 325°C, applying heat to both the component and solder to allow the solder to flow, then removing the iron. Optional equipment like a tip cleaner, magnifying glass, and desoldering tools are also mentioned.
Sentry Air Systems has put together this presentation on the hazards of medical and veterinary laser fumes and its effects on one's health. Here you will find a variety of laser fume extraction systems and filters.
Maker Education can help kids to enjoy learning Science, Technology, Engineering and Maths (STEM). We at Fun2Do Labs - Open Education Project have published this presentation so that teachers can help their students to learn basics of science using project based activities.
In this presentation we teach soldering.
Soldering is a process that joins two metal items by melting and flowing a filler metal with a low melting point into the joint. Safety precautions for soldering include using it carefully to avoid burns, unplugging it when not in use, and avoiding touching the hot tip to power lines to prevent electric shock. Flux is used to remove oxides from parts being soldered to allow the solder to bond better. Lead-free solder is preferable to avoid lead hazards, especially for children. Proper tools and components are needed for successful soldering, and planning is important before starting.
Soldering is a process that joins two metal items together by melting an alloy with a low melting point. Soldering irons between 20W and 40W are suitable for most electronics work. Solder is typically 60% tin and 40% lead and melts at 190 Celsius. Flux coats surfaces and improves conductivity, making soldering easier and quicker. It cleans metal surfaces as solder melts. Proper ventilation is important as fumes from soldering can harm eyes and lungs. Soldering irons transfer heat from the element to the solder connection.
What are the methods of soldering electronic componentselprocus
Soldering is the process of fixing pieces of metal together.This tutorial cover the different methods of soldering, soldering tips required for electronic components
This document provides an overview of the tools and techniques required for soldering. It lists 13 essential tools for soldering, including a soldering iron, solder, wire cutters, pliers, desoldering equipment, magnifier, ventilation, and safety glasses. It outlines 6 important soldering tips: cleanliness of components and tools; tinning the soldering iron tip; applying adequate heat to both the component leads and PCB simultaneously; controlling heat duration; applying sufficient solder; and proper handling of static-sensitive devices. Precautions for soldering safely with hot equipment are also noted.
This document is a seminar report on laser beam welding of plastics submitted by Deepa Ram. The report provides an overview of laser plastic welding, including the fundamentals of the process, common laser sources used, welding of similar and dissimilar plastics, advantages, applications in automotive and electronics industries, and quality control methods. It also discusses hybrid laser welding technologies and fiber laser welding assisted by a solid heat sink. The report was submitted in fulfillment of course requirements and provides a comprehensive review of the topic of laser plastic welding.
This document provides an overview of soldering, including definitions of key terms, components, and processes. It discusses the four main elements of soldering - iron, solder, flux, and electronic components. It describes the soldering process and important considerations like cleanliness, temperature control, and tip maintenance. Overall, the document serves as a guide to best practices for successful hand soldering of electronic components.
The document provides an overview of the shielded metal arc welding (SMAW) process, also known as stick welding. It discusses SMAW safety, principles, equipment setup, welding variables, advantages and limitations. The document also outlines unit objectives and 12 lesson plans for teaching SMAW, each with learning objectives and recommended equipment and materials. The lesson plans cover striking an arc, running beads, and making fillet and groove welds in various positions.
Ultrasonic welding is an industrial technique where high frequency ultrasonic acoustic vibrations are applied locally to workpieces under pressure, creating a solid state weld. It uses vibration and pressure instead of heat to join two materials quickly without filler. The major components of ultrasonic welding systems are the anvil, ultrasonic transducer, booster, and horn. Ultrasonic welding has advantages like ability to weld dissimilar metals and minimal heat/deformation, though it is limited to thin materials and not always economical. Applications include aircraft construction, joining electronics, and medical industries.
This document provides a summary of how lasers are used in various manufacturing applications. It discusses laser welding, cleaning, surface treatments, direct laser fabrication, and selective laser sintering. Laser welding is now commonly used in production and can provide benefits like high speeds, narrow welds with less distortion, and accuracy. Laser cleaning is an emerging process being used for applications like tool restoration and electronics. Surface treatments like hardening, melting, and alloying can improve properties using lasers. Direct laser fabrication and selective laser sintering allow building parts layer-by-layer from powders. Emerging applications also include laser forming of sheet metal and nanostructure generation.
Wave soldering is a widely used process in electronics manufacturing that involves 5 key steps: 1) melting solder in a tank heated to the proper temperature, 2) cleaning components to remove oxides using fluxing, 3) placing the printed circuit board on the melted solder, 4) applying the molten solder to flow into the joints, and 5) final cleaning of any flux residues using deionized water and solvents.
Motion Dynamics Corporation manufactures custom micro springs, medical coils, wire components and laser welded assemblies for medical devices. They produce coils and springs from a variety of materials in discrete lengths up to 10 feet with various end conditions and diameters less than 0.004 inches. Motion Dynamics also offers laser welding of reinforcement wires, heat shrink application, and PTFE coating. They can customize the geometry, end configurations, and attachment method of coils to meet customers' needs.
Ultrasonic welding uses high frequency sound waves to melt and bond materials like plastics and thin metals. It is a fast, non-contaminating technique that requires no consumables and minimizes heat affected zones and surface deformation. Ultrasonic waves are transmitted through parts held under pressure to generate localized heat through friction, welding the materials together in under 3 seconds with or without external heat. It can weld a variety of materials like plastics, metals, and glass and is used in industries like electronics, automotive, medical, and more.
The document provides instructions for safely soldering electronic components. It explains that soldering involves heating both the component leads and circuit tracks with the hot soldering iron tip simultaneously before applying solder to form a secure joint. Proper safety precautions when soldering include wearing eye protection, avoiding touching the hot iron tip, working in a well-ventilated area, and washing hands after use due to the lead content in standard solder.
LaserBond™ achieves a welded or metallurgical bond with minimal, precisely controlled heat input provided by an optimized laser beam. Temperature sensitive components and materials, such as hardened shafts, gears etc, can be repaired with minimal risk of distortion or other undesirable heat effects. The metallurgical bond allows LaserBond™ applied layers to be used in high impact, heavily loaded/stressed situations with no risk of spalling or separation of the overlay. The controlled energy minimizes the undesirable thermal decomposition of hard phases such as carbides, resulting in optimum wear resistance. Due to the extremely low dilution with the substrate, high specification materials can be applied in a thin layer with corrosion and wear resistant surfaces as thin as 0.3mm possible. Thick overlays for significant repairs of up to 20mm can also be applied in multiple passes. Heat affected zones are minimized and the stress related cracking inherent in welded or PTA applied hard facing is generally eliminated. Standard LaserBond™ overlay options include Tungsten Carbide, Stainless Steels, Nickel alloys such as Inconel, and Cobalt alloys such as Stellite1. Other materials can be applied on request.
The High Pressure High Velocity Oxy-Fuel process applies coating material at supersonic velocities, resulting in surfaces of the highest possible quality and performance.
HP HVOF coatings are very dense, very well bonded, and free of the oxides and tensile stresses typically found in coatings produced with other thermal spray processes. Consequently, they perform better in most service environments. HP HVOF wear resistant coatings are being adopted globally as an environmentally friendly, and technically superior, alternative to Chrome plating on components such as aircraft landing gear. Surfaces combining resistance to corrosion and wear are also routinely applied by HP HVOF. LaserBond™ approved HP HVOF coatings include Tungsten Carbide, Chrome Carbide, Nickel based alloys (e.g. Inconel 625 and 718), Cobalt alloys such as Stellite1, stainless steels and copper based alloys.
Ajith Ranasinghe | Sales Engineer
LaserBond Ltd
2/57 Anderson Road, Smeaton Grange NSW 2567
| m:+61417618512 | t: +612 4631 4500 | f: +612 4631 4555
ajithr@laserbond.com.au
Top 6 advantages of laser cutting you should be aware of convertedAlternative Parts Inc.
Are you thinking about applying a laser cutting method in your next manufacturing project? Why scratch your head with confusion when you can have a look at its advantages? This will help you to make a wise choice.
This document discusses different laser technologies including laser cutting, marking, and welding. It explains that laser cutting uses a focused laser beam like a cutting tool to remove material point by point, allowing for precise cuts. Laser marking uses high-energy lasers to vaporize or change the color of material surfaces to leave permanent marks. Laser welding transmits heat through conduction to melt materials and form pools that fuse pieces together, enabling welding of thin, delicate, or hard-to-access components.
MLS Automation is a leading supplier of welding, cutting, and automation solutions, specializing in laser welding, arc welding, robotic welding systems, and laser cutting equipment. It was established in 2010 to provide automation solutions for the automotive industry. MLS has continued to offer state-of-the-art technology through research and development. It designs and manufactures turnkey machines for welding, cutting, and precision micro perforation. MLS provides robotic and CNC applications including robotic laser welding, cutting, MIG/MAG welding, machine tending, laser hardening, spot welding, and automated laser marking.
Laser cutting & Plasma cutting machines for textilesShubham Singh
This document provides information about laser cutting and plasma cutting machines. It discusses the basic working principles of lasers and how laser cutting machines function. It describes the key components of laser cutting machines like the laser source, optics, nozzle, and CNC system. It also discusses factors that influence cut quality and different configurations of laser cutting machines. The document then provides details about plasma cutting, including the plasma state, common gases used, and how plasma cutting torches work. It lists the advantages of plasma cutting over other techniques and describes process variants to improve cut quality.
The document provides an overview of soldering including basic equipment needed, soldering iron types, soldering processes, tips, and safety precautions. It discusses heating the soldering iron to 325°C, applying heat to both the component and solder to allow the solder to flow, then removing the iron. Optional equipment like a tip cleaner, magnifying glass, and desoldering tools are also mentioned.
Sentry Air Systems has put together this presentation on the hazards of medical and veterinary laser fumes and its effects on one's health. Here you will find a variety of laser fume extraction systems and filters.
Maker Education can help kids to enjoy learning Science, Technology, Engineering and Maths (STEM). We at Fun2Do Labs - Open Education Project have published this presentation so that teachers can help their students to learn basics of science using project based activities.
In this presentation we teach soldering.
Soldering is a process that joins two metal items by melting and flowing a filler metal with a low melting point into the joint. Safety precautions for soldering include using it carefully to avoid burns, unplugging it when not in use, and avoiding touching the hot tip to power lines to prevent electric shock. Flux is used to remove oxides from parts being soldered to allow the solder to bond better. Lead-free solder is preferable to avoid lead hazards, especially for children. Proper tools and components are needed for successful soldering, and planning is important before starting.
Soldering is a process that joins two metal items together by melting an alloy with a low melting point. Soldering irons between 20W and 40W are suitable for most electronics work. Solder is typically 60% tin and 40% lead and melts at 190 Celsius. Flux coats surfaces and improves conductivity, making soldering easier and quicker. It cleans metal surfaces as solder melts. Proper ventilation is important as fumes from soldering can harm eyes and lungs. Soldering irons transfer heat from the element to the solder connection.
What are the methods of soldering electronic componentselprocus
Soldering is the process of fixing pieces of metal together.This tutorial cover the different methods of soldering, soldering tips required for electronic components
This document provides an overview of the tools and techniques required for soldering. It lists 13 essential tools for soldering, including a soldering iron, solder, wire cutters, pliers, desoldering equipment, magnifier, ventilation, and safety glasses. It outlines 6 important soldering tips: cleanliness of components and tools; tinning the soldering iron tip; applying adequate heat to both the component leads and PCB simultaneously; controlling heat duration; applying sufficient solder; and proper handling of static-sensitive devices. Precautions for soldering safely with hot equipment are also noted.
This document is a seminar report on laser beam welding of plastics submitted by Deepa Ram. The report provides an overview of laser plastic welding, including the fundamentals of the process, common laser sources used, welding of similar and dissimilar plastics, advantages, applications in automotive and electronics industries, and quality control methods. It also discusses hybrid laser welding technologies and fiber laser welding assisted by a solid heat sink. The report was submitted in fulfillment of course requirements and provides a comprehensive review of the topic of laser plastic welding.
This document provides an overview of soldering, including definitions of key terms, components, and processes. It discusses the four main elements of soldering - iron, solder, flux, and electronic components. It describes the soldering process and important considerations like cleanliness, temperature control, and tip maintenance. Overall, the document serves as a guide to best practices for successful hand soldering of electronic components.
The document provides an overview of the shielded metal arc welding (SMAW) process, also known as stick welding. It discusses SMAW safety, principles, equipment setup, welding variables, advantages and limitations. The document also outlines unit objectives and 12 lesson plans for teaching SMAW, each with learning objectives and recommended equipment and materials. The lesson plans cover striking an arc, running beads, and making fillet and groove welds in various positions.
Ultrasonic welding is an industrial technique where high frequency ultrasonic acoustic vibrations are applied locally to workpieces under pressure, creating a solid state weld. It uses vibration and pressure instead of heat to join two materials quickly without filler. The major components of ultrasonic welding systems are the anvil, ultrasonic transducer, booster, and horn. Ultrasonic welding has advantages like ability to weld dissimilar metals and minimal heat/deformation, though it is limited to thin materials and not always economical. Applications include aircraft construction, joining electronics, and medical industries.
This document provides a summary of how lasers are used in various manufacturing applications. It discusses laser welding, cleaning, surface treatments, direct laser fabrication, and selective laser sintering. Laser welding is now commonly used in production and can provide benefits like high speeds, narrow welds with less distortion, and accuracy. Laser cleaning is an emerging process being used for applications like tool restoration and electronics. Surface treatments like hardening, melting, and alloying can improve properties using lasers. Direct laser fabrication and selective laser sintering allow building parts layer-by-layer from powders. Emerging applications also include laser forming of sheet metal and nanostructure generation.
Wave soldering is a widely used process in electronics manufacturing that involves 5 key steps: 1) melting solder in a tank heated to the proper temperature, 2) cleaning components to remove oxides using fluxing, 3) placing the printed circuit board on the melted solder, 4) applying the molten solder to flow into the joints, and 5) final cleaning of any flux residues using deionized water and solvents.
Motion Dynamics Corporation manufactures custom micro springs, medical coils, wire components and laser welded assemblies for medical devices. They produce coils and springs from a variety of materials in discrete lengths up to 10 feet with various end conditions and diameters less than 0.004 inches. Motion Dynamics also offers laser welding of reinforcement wires, heat shrink application, and PTFE coating. They can customize the geometry, end configurations, and attachment method of coils to meet customers' needs.
Ultrasonic welding uses high frequency sound waves to melt and bond materials like plastics and thin metals. It is a fast, non-contaminating technique that requires no consumables and minimizes heat affected zones and surface deformation. Ultrasonic waves are transmitted through parts held under pressure to generate localized heat through friction, welding the materials together in under 3 seconds with or without external heat. It can weld a variety of materials like plastics, metals, and glass and is used in industries like electronics, automotive, medical, and more.
The document provides instructions for safely soldering electronic components. It explains that soldering involves heating both the component leads and circuit tracks with the hot soldering iron tip simultaneously before applying solder to form a secure joint. Proper safety precautions when soldering include wearing eye protection, avoiding touching the hot iron tip, working in a well-ventilated area, and washing hands after use due to the lead content in standard solder.
LaserBond™ achieves a welded or metallurgical bond with minimal, precisely controlled heat input provided by an optimized laser beam. Temperature sensitive components and materials, such as hardened shafts, gears etc, can be repaired with minimal risk of distortion or other undesirable heat effects. The metallurgical bond allows LaserBond™ applied layers to be used in high impact, heavily loaded/stressed situations with no risk of spalling or separation of the overlay. The controlled energy minimizes the undesirable thermal decomposition of hard phases such as carbides, resulting in optimum wear resistance. Due to the extremely low dilution with the substrate, high specification materials can be applied in a thin layer with corrosion and wear resistant surfaces as thin as 0.3mm possible. Thick overlays for significant repairs of up to 20mm can also be applied in multiple passes. Heat affected zones are minimized and the stress related cracking inherent in welded or PTA applied hard facing is generally eliminated. Standard LaserBond™ overlay options include Tungsten Carbide, Stainless Steels, Nickel alloys such as Inconel, and Cobalt alloys such as Stellite1. Other materials can be applied on request.
The High Pressure High Velocity Oxy-Fuel process applies coating material at supersonic velocities, resulting in surfaces of the highest possible quality and performance.
HP HVOF coatings are very dense, very well bonded, and free of the oxides and tensile stresses typically found in coatings produced with other thermal spray processes. Consequently, they perform better in most service environments. HP HVOF wear resistant coatings are being adopted globally as an environmentally friendly, and technically superior, alternative to Chrome plating on components such as aircraft landing gear. Surfaces combining resistance to corrosion and wear are also routinely applied by HP HVOF. LaserBond™ approved HP HVOF coatings include Tungsten Carbide, Chrome Carbide, Nickel based alloys (e.g. Inconel 625 and 718), Cobalt alloys such as Stellite1, stainless steels and copper based alloys.
Ajith Ranasinghe | Sales Engineer
LaserBond Ltd
2/57 Anderson Road, Smeaton Grange NSW 2567
| m:+61417618512 | t: +612 4631 4500 | f: +612 4631 4555
ajithr@laserbond.com.au
Top 6 advantages of laser cutting you should be aware of convertedAlternative Parts Inc.
Are you thinking about applying a laser cutting method in your next manufacturing project? Why scratch your head with confusion when you can have a look at its advantages? This will help you to make a wise choice.
This document discusses different laser technologies including laser cutting, marking, and welding. It explains that laser cutting uses a focused laser beam like a cutting tool to remove material point by point, allowing for precise cuts. Laser marking uses high-energy lasers to vaporize or change the color of material surfaces to leave permanent marks. Laser welding transmits heat through conduction to melt materials and form pools that fuse pieces together, enabling welding of thin, delicate, or hard-to-access components.
Laser cutters and Cnc laser cutting machines are excellent tools whenever you are trying to do something new. It used for engraving, cutting and marking a variety of materials including acrylic, wood, paper, plastics and many more..https://www.signvec.com/productlist.php?id=1&scid=36
This document discusses laser engraving and marking technology. It provides information on:
1) Laser engraving machines can engrave or mark a variety of materials without contact and cause no damage to the surface.
2) Laser marking is precise and repeatable, allowing for fine detailed engraving. It is also time saving, eco-friendly, and does not change the color or damage the surface.
3) Reconditioned CNC machines offer excellent value as they have been restored to like-new condition, and problems are less likely than with non-reconditioned used machines.
Laser Beam Machining and it's full Criteria.
By- Engr. Md Abu Bakar Siddique
Industrial and Production Engineer,
Rajshahi University of Engineering and Technology,
Bangladesh
Laser beam machining is a non-traditional subtractive manufacturing process that uses a directed laser beam to remove material from surfaces. There are three main types of lasers used: gas lasers, solid state lasers, and excimer lasers. The cutting depth of laser beam machining depends on the laser power, cutting velocity, and beam diameter. Laser beam machining is used in industries like automotive, aerospace, and medical for precision machining of complex parts due to its high precision capabilities.
Laser beams are produced when atoms in a lasing medium are excited by an energy source, causing them to emit photons. A laser beam is highly intense, monochromatic, coherent and directional. Lasers were first invented in 1957 and are now used widely for applications like optical storage, welding, cutting, printing, and more. While lasers provide many benefits, high power lasers can pose eye and skin safety risks if not used properly.
Alternative Parts Inc. provides customers in the manufacturing industry with a full selection of parts and consumables including Fanuc Laser and everything you need to keep your Amada laser cutting system. Visit them for more details.
The document discusses various industrial applications of lasers, including laser cutting, drilling, welding, surface cleaning, and safety considerations. It describes how laser processing works by absorbing laser energy, heating and melting materials. CO2 and Nd:YAG lasers are commonly used for cutting, welding, and drilling of metals. Laser cleaning removes contaminants from surfaces through ablation. Lasers provide precision, speed, and flexibility over traditional fabrication methods.
This document discusses laser beam machining (LBM), including:
- How lasers work by generating coherent, monochromatic light through stimulated emission.
- Common laser mediums like ruby, Nd:YAG, CO2, and their wavelengths.
- How laser light interacts with materials through absorption, melting, and vaporization.
- Key LBM process parameters like intensity, interaction time, and material properties.
- Applications of LBM like drilling, cutting, welding, and micro-machining.
This document discusses laser beam machining (LBM), including:
- How lasers work by generating coherent, monochromatic light through stimulated emission.
- Common laser mediums like ruby, Nd:YAG, CO2, and their wavelengths.
- How laser light interacts with materials through absorption, melting, and vaporization.
- Key LBM process parameters like intensity, interaction time, and material properties.
- Applications of LBM like drilling, cutting, welding, and micro-machining.
Signvec Technology is one of the most popular engraving industry in Singapore that offers Universal Laser Systems, Kite Laser Systems, Signvec Engravers, Router, Laser Systems and Cutting Plotters, Digital Solvent Inkjet Colour Printers as well as engraving materials with high quality in lowest cost..https://www.signvec.com/
LASER BEAM MACHINING - NON TRADITIONAL MACHININGSajal Tiwari
Laser Beam Machining or more broadly laser material processing deals with machining and material processing like heat treatment, allowing, cladding, sheet metal bending etc. Such processing is carried out utilizing the energy of coherent photons or laser beam, which is mostly converted into thermal energy upon interaction with most of the materials. Nowadays, the laser is also finding application in regenerative machining or rapid prototyping as in processes like stereolithography, selective laser sintering etc. Laser stands for light amplification by stimulated emission of radiation. The underline working principle of a laser was first put forward by Albert Einstein in
1917 through the first industrial laser for experimentation was developed around the 1960s. The laser beam can very easily be focused using optical lenses as their wavelength ranges from half a micron to around 70 microns. The focused laser beam as indicated earlier can have power density in excess of 1 MW/mm2 . As laser interacts with the material, the energy of the photon are absorbed by the work material leading to a rapid substantial rise in local temperature. This, in turn, results in melting and vaporization of the work material and finally material removal.
Laser Processing of Different materials and its application.aman1312
Presentation of laser application in different types of industry for material processing. Laser materials processing is done on various materials such as metals, non metals, ceramics, polymer materials.
This document provides an overview of laser beam machining. It discusses what a laser is and the main components and types of lasers, including gas, solid state, and excimer lasers. Laser beam machining uses focused light energy from a laser to remove material through vaporization and ablation. Key applications of laser beam machining discussed include cutting, welding, cladding, and engraving/marking. Parameters that affect the laser beam machining process include the work material, focusing lenses, laser beam characteristics, and environment. Advantages are precision and flexibility, while disadvantages include high costs and needing specially trained operators.
This lesson includes activities for illustrating concepts related to materials selection for laser cutter use. Commonly used materials and their expected behaviors are discussed. We also discuss why some materials are unsafe or unsuitable for laser cutting
There are three main types of lasers used in laser cutting.
The CO2 Laser is suited for cutting, boring, and engraving.
The neodymium(Nd) and neodymium yttrium- aluminum-garnet (NA-YAG) lasers are identical in style and differ only in application
Nd is used for boring and where high energy but low repetition are required.
The Nd-YAG laser is used where very high power is needed and for boring and engraving.
Both CO2 and Nd/ Nd-YAG lasers can be used for welding.
There are three main types of lasers used in laser cutting.
The CO2 Laser is suited for cutting, boring, and engraving.
The neodymium(Nd) and neodymium yttrium- aluminum-garnet (NA-YAG) lasers are identical in style and differ only in application
Nd is used for boring and where high energy but low repetition are required.
The Nd-YAG laser is used where very high power is needed and for boring and engraving.
Both CO2 and Nd/ Nd-YAG lasers can be used for welding.
- Laser stands for "Light Amplification by Stimulated Emission of Radiation". It operates by converting electrical energy into light energy and then thermal energy through stimulated emission.
- Laser machining has several advantages over traditional thermal removal processes, including high accuracy, speed, ability to cut complex shapes and small parts, easy automation, and high production rates. It can machine both metal and non-metal workpieces.
- The main types of industrial lasers are CO2 lasers, which operate at 10.6μm and are suitable for cutting metals, and Nd:YAG lasers, which operate at a wavelength where metals absorb more strongly and are better for metal processing. A wide variety of
Sublimation is a popular decoration technique used in sporting uniforms where ink is transferred through heat pressing onto polyester fabrics, allowing designers to create stunning designs for uniforms. ACE Corporate Apparel Melbourne provides sublimation printing services, taking clients' concepts and transforming them into sublimation panels ready for production teams to finish uniforms for sports like AFL, netball, athletics, rugby, basketball, and cricket.
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Laser cutting
1.
2. Laser cutting is a manufacturing method which uses laser to cut material. Laser cutting
design has become very popular in fashion industry. Laser cutting came into existence
due to its accuracy, clean cuts and sealed fabric edges which prevent fraying. Laser
cutting is used to cut different types of clothes such as nylon, silk, leather and
polyester. Laser cutting does not create any pressure on the fabric which means no
part of the cutting process requires anything other than the laser to touch the fabric.
The most important thing in laser cutting is that no intended marks are left on the
fabric particularly for delicate fabrics.
Technique on which the Laser Cutting works
Working of the laser cutting technique is the phase where the things get technical.
There are three main types of laser which are used for laser cutting which are as
follows:
3. The CO2 Laser
The neodymium Laser (Nd)
The Neodymium Yttrium Aluminium Garnet ( Nd-YAG) laser.
For most of the time the CO2 laser method is the choice for cutting wearable fabrics.
This process generally includes a firing of high energy laser that cuts by melting
vaporizing or burning a material.
For precise cutting, laser is made to pass through a tube like device which is reflected
by mirrors. As the beam reaches the focal lens, it targets the laser to a single spot on
the chosen material which is being cut. Adjustments are to be made to vary the
amount of material that is to be cut by the laser. A concentrated beam of light is
generated by the CO2 laser, Nd laser and the Nd – YAG laser. Infrared light is produced
by CO2 laser which is easily absorbed by organic material which makes it the first
choice for cutting fabrics like leather. On the other hand, Nd and Nd-Yag lasers are
solid state lasers that rely on crystals to create the light beam. These high powered
methods are well suited for engraving, welding, cutting and drilling metals.
4. Benefits of Laser Cutting
Low Power Consumption: 50kw of power in total is consumed by typical blanking
press or turret punch where as 4kw laser system uses just only 10kw total power.
Safety: Fiber laser are designed by keeping in mind the safety features. Fiber laser
are enclosed in a light tight box which means that they do not require any type of
human intervention during cutting. On the other hand, blanking press has a large
blade that moves rapidly up and down and does not have any safety features which
prevents the hand getting in it.
Material Scrap Savings: Laser cut generally requires a common outline which can be
cut with a single cut and that too with no scrap. A minimal scrap skeleton may also
be cut as small as 1/16 of an inch or even less for some materials.
5. Cutting Properties: Any strength of material can be cut by the laser as long as the
material can be melted.
Low maintenance: Blanking press or turret punch contains expensive tools which need
to be sharpened and stored regularly as different parts are cut. In laser parts are
changed by changing programs and relatively require inexpensive replacement parts
like lenses and nozzles
Flexible Operation: For each part of the traditional blanking line has a tool which has a
fixed design and has a very high investment. Whereas on the other hand turret punch
is better as it can be programmed for any shape and can be used as a set of similar
shapes. Designs are limited to the tools available only but if someone needs to change
the designs then new tool are to be purchased and it must be replaced on the
available slot on the turret. These tools are less pricy, but still require regular
maintenance, which is a specialized task, so the labor cost will be higher. Laser takes
than an hour to reprogram which cost approximately $60 to apply the change.
6. Improved edge Quality: Presses and punches are shearing through the material which
stretches the edge until it breaks. The top side of a part typically has a rounded over
edge, while the bottom has a bunch of stretched ribbon that are very sharp. These are
sometimes required to be cleaned off with an abrasive, which is a second process and
its add to the cost. In case of laser when cut with a focused beam set for the material,
cuts the part with an edge like a mirror surface, the top edge remain square and the
bottom edge is smooth to touch.
Faster changeover: A laser can change programs instantaneously, leading to time
savings and allowing for smaller production runs to have decreased price.
A laser cutting technique is the future of the fashion industry. So, people should learn
about the laser cutting techniques so as to become a perfect fashion designer.