From this PPT you'll know much about Taiyi laser welding machine ,such as the various of models,the technical parameters,applicable materials,the advantage of fiber transmission etc.
Thank you for focus !
This document discusses laser beam welding, including what a laser beam is, the different types of lasers, and the laser beam welding process. It describes how laser beam welding works by focusing an intense laser beam onto metal workpieces to melt and join them. The document outlines the history of lasers from Einstein's theories to developments in the 1970s-2000s. It also explains the principles and setup of laser beam welding, the different types (conduction and keyhole welding), applications, and provides an example of repairing nuclear power plant components using ND:YAG laser welding.
Capacitor discharge welding is an economical alternative to traditional welding that allows for high production speeds and low distortion welds. It works by using capacitors to store large amounts of energy, then releasing it extremely quickly through a welding tip to form a weld. This localized heating results in a small heat-affected zone. Capacitor discharge stud welding is commonly used and works by passing a large current through workpieces via a stud to generate heat through resistance and fuse materials together in 0.004 seconds. It has advantages like fast welding speed and clean process but requires expensive equipment.
This presentation discusses laser beam welding (LBW), including what a laser beam is, its properties, types of lasers, the LBW process, principles of operation, mechanics, parameters, advantages, and limitations. A laser beam is a powerful, narrow, monochromatic beam created when atoms in a lasing medium are excited by a flash tube, emitting photons. LBW uses the concentrated heat from a laser beam to fuse metals together without filler material. It offers advantages like narrow welds, low distortion, and the ability to weld dissimilar and high-alloy metals. However, it also has high costs and limitations such as difficulty welding thick joints.
This document discusses laser beam welding and provides information on key concepts. It begins by defining what a laser is and describing spontaneous and stimulated emission processes. It then discusses how laser beams are produced and different types of gain media and pumping methods. The document summarizes laser beam welding techniques including conduction and keyhole welding. It provides examples of welding parameters and describes the welding process. Additional sections cover attributes, advantages, and limitations of laser beam welding as well as different laser and welding types.
This document discusses laser beam welding. It defines what a laser beam is, including that it is produced when atoms in a lasing medium are excited by light amplification. The properties of laser beams are that they are highly intense, monochromatic, powerful, and directional. There are different types of lasers including gas, liquid, and solid. The laser beam welding process involves using the concentrated energy of an electromagnetic laser beam to melt and join materials. The advantages are narrow heat zones and ability to weld dissimilar metals. Limitations include potential for cracking in some metals and high equipment and maintenance costs.
This document summarizes research on the effects of different shielding gases and electric fields on laser welding. It discusses how plasma forms during laser welding and can absorb and scatter the laser beam, reducing welding efficiency. The author conducted experiments using different shielding gases and applying electric fields to determine their effects on weld bead formation and address how plasma impacts the laser coupling. Literature on plasma modeling and methods to control plasma like side jets, magnetic fields, and sub-atmospheric pressures is also reviewed.
Laser have various applications in manufacturing processes. Out of these laser welding and laser brazing are important because both of these have applications in space, nano-technology.
Electron beam welding (EBW) is a fusion welding process in which a beam of high velocity electrons is directed to the materials being joined.The workpieces melts as the kinetic energy of the lectrons is transformed
into heat upon impact.
This document discusses laser beam welding, including what a laser beam is, the different types of lasers, and the laser beam welding process. It describes how laser beam welding works by focusing an intense laser beam onto metal workpieces to melt and join them. The document outlines the history of lasers from Einstein's theories to developments in the 1970s-2000s. It also explains the principles and setup of laser beam welding, the different types (conduction and keyhole welding), applications, and provides an example of repairing nuclear power plant components using ND:YAG laser welding.
Capacitor discharge welding is an economical alternative to traditional welding that allows for high production speeds and low distortion welds. It works by using capacitors to store large amounts of energy, then releasing it extremely quickly through a welding tip to form a weld. This localized heating results in a small heat-affected zone. Capacitor discharge stud welding is commonly used and works by passing a large current through workpieces via a stud to generate heat through resistance and fuse materials together in 0.004 seconds. It has advantages like fast welding speed and clean process but requires expensive equipment.
This presentation discusses laser beam welding (LBW), including what a laser beam is, its properties, types of lasers, the LBW process, principles of operation, mechanics, parameters, advantages, and limitations. A laser beam is a powerful, narrow, monochromatic beam created when atoms in a lasing medium are excited by a flash tube, emitting photons. LBW uses the concentrated heat from a laser beam to fuse metals together without filler material. It offers advantages like narrow welds, low distortion, and the ability to weld dissimilar and high-alloy metals. However, it also has high costs and limitations such as difficulty welding thick joints.
This document discusses laser beam welding and provides information on key concepts. It begins by defining what a laser is and describing spontaneous and stimulated emission processes. It then discusses how laser beams are produced and different types of gain media and pumping methods. The document summarizes laser beam welding techniques including conduction and keyhole welding. It provides examples of welding parameters and describes the welding process. Additional sections cover attributes, advantages, and limitations of laser beam welding as well as different laser and welding types.
This document discusses laser beam welding. It defines what a laser beam is, including that it is produced when atoms in a lasing medium are excited by light amplification. The properties of laser beams are that they are highly intense, monochromatic, powerful, and directional. There are different types of lasers including gas, liquid, and solid. The laser beam welding process involves using the concentrated energy of an electromagnetic laser beam to melt and join materials. The advantages are narrow heat zones and ability to weld dissimilar metals. Limitations include potential for cracking in some metals and high equipment and maintenance costs.
This document summarizes research on the effects of different shielding gases and electric fields on laser welding. It discusses how plasma forms during laser welding and can absorb and scatter the laser beam, reducing welding efficiency. The author conducted experiments using different shielding gases and applying electric fields to determine their effects on weld bead formation and address how plasma impacts the laser coupling. Literature on plasma modeling and methods to control plasma like side jets, magnetic fields, and sub-atmospheric pressures is also reviewed.
Laser have various applications in manufacturing processes. Out of these laser welding and laser brazing are important because both of these have applications in space, nano-technology.
Electron beam welding (EBW) is a fusion welding process in which a beam of high velocity electrons is directed to the materials being joined.The workpieces melts as the kinetic energy of the lectrons is transformed
into heat upon impact.
Laser beam welding uses a high-powered laser beam to join materials. It offers several advantages over traditional welding such as precise control, low heat input and distortion, and the ability to weld without filler metal or a vacuum. Common types of laser beam welding are conduction welding for thin materials and keyhole welding for deep welds. Fiber, CO2, and YAG lasers are commonly used for welding applications. Laser beam welding is useful for industries requiring precision and automation.
Laser beam welding is an advanced welding method that uses a laser beam to generate heat and join two components. The laser beam is a coherent, monochromatic beam of light that enables precise welding of small areas. It works by focusing the laser beam onto the joining surfaces to melt and fuse the materials. Key benefits are that it can weld a variety of metals and non-metals with high precision and without using an electrode. However, initial costs are high and it has limited applications for thicker materials.
Electron beam welding is a fusion welding process that uses a beam of high-velocity electrons to join materials. The kinetic energy of the electrons is transformed into heat upon impact, melting the workpieces. It provides high quality welds with minimal heat input and distortion. The process occurs in a vacuum chamber to eliminate impurities and the need for shielding gases. It is well-suited for difficult welds and can achieve very narrow, deep welds at high welding speeds.
This Presentation covers the basic concepts of TIG welding and MAO methods. For more information, please refer the books mentioned in the references slide.... Thank you
Fundamentals of Laser Welding. Learn what laser welding is and how it can help you. For more information on Miyachi Unitek laser welders please visit our site at http://www.miyachiunitek.com/Products_LaserWelding
Under GTU course of Allied Manufacturing Techniques; Laser Beam Machining & Laser Beam Welding is prime methods used in todays technical era in industries
This Presentation covers the basic concepts of EBW in a easy version. For more information, please refer the books mentioned in the references slide.... Thank you
The document discusses electron beam welding (EBW). EBW uses a beam of high velocity electrons to melt and join materials in a vacuum. The electron beam is produced by heating a tungsten filament in an electron gun. The beam is focused using electromagnetic coils to a diameter of 0.25-1mm and power density of 10kW/mm2. EBW can weld almost any material combination and produces a narrow heat affected zone and deep penetration. It is useful for welding in applications like aerospace, medical devices, electronics and automotive transmissions.
Vishal from the Department of Mechanical Engineering at Punjabi University presented a seminar on fiber laser welding. Fiber lasers offer advantages over traditional welding methods like CO2 lasers, including lower heat input, higher precision, and reduced distortion. Fiber lasers confine the laser beam within an optical fiber using doped erbium and ytterbium, offering improved beam quality. Literature reviews showed fiber laser welding can achieve high-quality welds of materials like titanium alloys with unique microstructure and mechanical properties.
Laser beam welding is an advanced welding method that uses the heat generated by a laser beam to join two components. The laser beam penetrates the upper material and is absorbed by the lower material, heating it up directly. This heat is then conducted to the upper layer, melting both materials. A pumping unit provides energy to the laser medium, exciting its atoms to emit stimulated light. This beam is focused onto the components to generate localized heat and form the weld. Laser beam welding offers advantages like welding metals and non-metals without an electrode and ability to weld small, hard-to-reach areas. However, its initial costs are high and the process can be slow.
The document discusses Nd:YAG lasers and their use in welding applications. It provides details on the operation of Nd:YAG lasers, including their solid-state design using a rod of yttrium aluminum garnet doped with neodymium. It also discusses their typical power outputs and fiber optic delivery systems. Additionally, it summarizes the capabilities and applications of various laser welding machines that use Nd:YAG lasers, including their power levels, beam diameters, and specialized uses in electronics, medical, automotive, and other industries.
The document discusses laser beam welding (LBW) of aluminum alloys. LBW uses a concentrated laser beam to join materials through localized melting and solidification. It has advantages over other welding methods like low heat affected zones and no need for filler metal. Limitations include limited weld penetration depth and issues with highly reflective materials. A case study examines using a higher power laser to increase beam density and overcome limitations of welding aluminum alloy 5456. Metallographic analysis found a finer grain structure in the welds attributed to the laser's high density power source. In conclusion, laser welding vaporizes precipitates and produces welds with lower strength but higher toughness than the base metal.
The document discusses electron beam welding (EBW), a fusion welding process that uses a beam of high-velocity electrons to melt materials being joined. It describes how EBW machines work by accelerating electrons via high voltage to concentrate their kinetic energy on a target. The document classifies EBW machines, explains their components and principles, and discusses process parameters, applications, advantages, and fields of EBW use, noting it can join a variety of materials with high precision and fewer defects compared to arc welding.
Laser beam welding was developed from research on masers and lasers in the 1950s and 1960s. It uses a concentrated laser beam to join metal parts. The high energy density of the laser beam allows for precise, automated welding with high speeds and quality. Laser beam welding is used widely in industries like electronics, automotive, and food processing due to advantages like control, speed, and reproducibility.
Effect of beam current, weld speed and dissolution on mechnical and microstru...eSAT Journals
Abstract Electron beam welding has proved phenomenal in welding of components used in space because it uses a vacuum environment which eliminates substances like oxygen, nitrogen, and hydrogen. The main advantage of EBW is its ability to weld dissimilar materials and incorporate desirable properties in the assembly. It has high depth to width ratio and focuses exactly on the portion to be welded, thereby reducing the weld area, making it one of the most suitable welding processes. In this study, welding has been done on a circular heterogeneous component using an electron beam welding machine to determine the effect of beam current, speed of weld and dissolution on the bead geometry, hardness at the weld bead and the heat affected zone. This component is made up of AISI 304(Austenitic) and AISI 446 (Ferrite) stainless steel, both of which are widely used in space applications.
Electron beam machining (EBM) uses a focused electron beam within a vacuum environment to drill small, high-aspect-ratio holes in materials. The electron beam is generated by heating a cathode filament to produce electrons, which are accelerated and focused onto the workpiece. Upon impact, the kinetic energy of the electrons is converted to heat, instantly melting and vaporizing the material. Multiple pulses are required to drill deeper holes. While EBM can precisely machine fragile materials with minimal heat impact, it has high equipment costs and requires regular maintenance of the vacuum systems.
The document discusses various thermal energy-based material removal techniques, including electrical discharge machining (EDM) and laser beam machining (LBM). It provides details on the EDM process, including how it works using electric sparks to erode metals. Wire EDM and micro EDM are also examined. The document then covers the LBM process, the types of lasers used for different applications like cutting, drilling, and marking. It discusses key laser beam parameters such as beam waist, intensity, and depth of focus. In summary, the document provides an in-depth overview of EDM and LBM processes for removing material using thermal energy.
The document provides information about the Han's GS Laser company and its GS-LFD3015 fiber laser cutting machine. Some key details include:
- Han's GS Laser is a subsidiary of Han's Laser, a large Chinese laser equipment manufacturer.
- The GS-LFD3015 is a fiber laser cutting machine with a 500-1000W laser, 3000x1500mm cutting area, and precision of ±0.03mm.
- It can cut a variety of materials from 0.2-12mm thick including metals and non-metals for applications in manufacturing industries.
- The machine includes a fiber laser source, cutting head, CNC system, exhaust system, and is operated
Eta led laser marking machine eta 20-50 wMark Tung
This document introduces the ETA LED laser marking machine. It can mark a variety of materials used in industries like electronics, automotive, hardware, and more. The laser has powerful marking software, a small integrated design, high stability, low maintenance needs, and fast processing speeds. Optional rotating stations allow for automated plane and rotating marking. Models include the ETA-20W and ETA-50W lasers which have different power levels and specifications but both offer non-contact laser marking.
Laser beam welding uses a high-powered laser beam to join materials. It offers several advantages over traditional welding such as precise control, low heat input and distortion, and the ability to weld without filler metal or a vacuum. Common types of laser beam welding are conduction welding for thin materials and keyhole welding for deep welds. Fiber, CO2, and YAG lasers are commonly used for welding applications. Laser beam welding is useful for industries requiring precision and automation.
Laser beam welding is an advanced welding method that uses a laser beam to generate heat and join two components. The laser beam is a coherent, monochromatic beam of light that enables precise welding of small areas. It works by focusing the laser beam onto the joining surfaces to melt and fuse the materials. Key benefits are that it can weld a variety of metals and non-metals with high precision and without using an electrode. However, initial costs are high and it has limited applications for thicker materials.
Electron beam welding is a fusion welding process that uses a beam of high-velocity electrons to join materials. The kinetic energy of the electrons is transformed into heat upon impact, melting the workpieces. It provides high quality welds with minimal heat input and distortion. The process occurs in a vacuum chamber to eliminate impurities and the need for shielding gases. It is well-suited for difficult welds and can achieve very narrow, deep welds at high welding speeds.
This Presentation covers the basic concepts of TIG welding and MAO methods. For more information, please refer the books mentioned in the references slide.... Thank you
Fundamentals of Laser Welding. Learn what laser welding is and how it can help you. For more information on Miyachi Unitek laser welders please visit our site at http://www.miyachiunitek.com/Products_LaserWelding
Under GTU course of Allied Manufacturing Techniques; Laser Beam Machining & Laser Beam Welding is prime methods used in todays technical era in industries
This Presentation covers the basic concepts of EBW in a easy version. For more information, please refer the books mentioned in the references slide.... Thank you
The document discusses electron beam welding (EBW). EBW uses a beam of high velocity electrons to melt and join materials in a vacuum. The electron beam is produced by heating a tungsten filament in an electron gun. The beam is focused using electromagnetic coils to a diameter of 0.25-1mm and power density of 10kW/mm2. EBW can weld almost any material combination and produces a narrow heat affected zone and deep penetration. It is useful for welding in applications like aerospace, medical devices, electronics and automotive transmissions.
Vishal from the Department of Mechanical Engineering at Punjabi University presented a seminar on fiber laser welding. Fiber lasers offer advantages over traditional welding methods like CO2 lasers, including lower heat input, higher precision, and reduced distortion. Fiber lasers confine the laser beam within an optical fiber using doped erbium and ytterbium, offering improved beam quality. Literature reviews showed fiber laser welding can achieve high-quality welds of materials like titanium alloys with unique microstructure and mechanical properties.
Laser beam welding is an advanced welding method that uses the heat generated by a laser beam to join two components. The laser beam penetrates the upper material and is absorbed by the lower material, heating it up directly. This heat is then conducted to the upper layer, melting both materials. A pumping unit provides energy to the laser medium, exciting its atoms to emit stimulated light. This beam is focused onto the components to generate localized heat and form the weld. Laser beam welding offers advantages like welding metals and non-metals without an electrode and ability to weld small, hard-to-reach areas. However, its initial costs are high and the process can be slow.
The document discusses Nd:YAG lasers and their use in welding applications. It provides details on the operation of Nd:YAG lasers, including their solid-state design using a rod of yttrium aluminum garnet doped with neodymium. It also discusses their typical power outputs and fiber optic delivery systems. Additionally, it summarizes the capabilities and applications of various laser welding machines that use Nd:YAG lasers, including their power levels, beam diameters, and specialized uses in electronics, medical, automotive, and other industries.
The document discusses laser beam welding (LBW) of aluminum alloys. LBW uses a concentrated laser beam to join materials through localized melting and solidification. It has advantages over other welding methods like low heat affected zones and no need for filler metal. Limitations include limited weld penetration depth and issues with highly reflective materials. A case study examines using a higher power laser to increase beam density and overcome limitations of welding aluminum alloy 5456. Metallographic analysis found a finer grain structure in the welds attributed to the laser's high density power source. In conclusion, laser welding vaporizes precipitates and produces welds with lower strength but higher toughness than the base metal.
The document discusses electron beam welding (EBW), a fusion welding process that uses a beam of high-velocity electrons to melt materials being joined. It describes how EBW machines work by accelerating electrons via high voltage to concentrate their kinetic energy on a target. The document classifies EBW machines, explains their components and principles, and discusses process parameters, applications, advantages, and fields of EBW use, noting it can join a variety of materials with high precision and fewer defects compared to arc welding.
Laser beam welding was developed from research on masers and lasers in the 1950s and 1960s. It uses a concentrated laser beam to join metal parts. The high energy density of the laser beam allows for precise, automated welding with high speeds and quality. Laser beam welding is used widely in industries like electronics, automotive, and food processing due to advantages like control, speed, and reproducibility.
Effect of beam current, weld speed and dissolution on mechnical and microstru...eSAT Journals
Abstract Electron beam welding has proved phenomenal in welding of components used in space because it uses a vacuum environment which eliminates substances like oxygen, nitrogen, and hydrogen. The main advantage of EBW is its ability to weld dissimilar materials and incorporate desirable properties in the assembly. It has high depth to width ratio and focuses exactly on the portion to be welded, thereby reducing the weld area, making it one of the most suitable welding processes. In this study, welding has been done on a circular heterogeneous component using an electron beam welding machine to determine the effect of beam current, speed of weld and dissolution on the bead geometry, hardness at the weld bead and the heat affected zone. This component is made up of AISI 304(Austenitic) and AISI 446 (Ferrite) stainless steel, both of which are widely used in space applications.
Electron beam machining (EBM) uses a focused electron beam within a vacuum environment to drill small, high-aspect-ratio holes in materials. The electron beam is generated by heating a cathode filament to produce electrons, which are accelerated and focused onto the workpiece. Upon impact, the kinetic energy of the electrons is converted to heat, instantly melting and vaporizing the material. Multiple pulses are required to drill deeper holes. While EBM can precisely machine fragile materials with minimal heat impact, it has high equipment costs and requires regular maintenance of the vacuum systems.
The document discusses various thermal energy-based material removal techniques, including electrical discharge machining (EDM) and laser beam machining (LBM). It provides details on the EDM process, including how it works using electric sparks to erode metals. Wire EDM and micro EDM are also examined. The document then covers the LBM process, the types of lasers used for different applications like cutting, drilling, and marking. It discusses key laser beam parameters such as beam waist, intensity, and depth of focus. In summary, the document provides an in-depth overview of EDM and LBM processes for removing material using thermal energy.
The document provides information about the Han's GS Laser company and its GS-LFD3015 fiber laser cutting machine. Some key details include:
- Han's GS Laser is a subsidiary of Han's Laser, a large Chinese laser equipment manufacturer.
- The GS-LFD3015 is a fiber laser cutting machine with a 500-1000W laser, 3000x1500mm cutting area, and precision of ±0.03mm.
- It can cut a variety of materials from 0.2-12mm thick including metals and non-metals for applications in manufacturing industries.
- The machine includes a fiber laser source, cutting head, CNC system, exhaust system, and is operated
Eta led laser marking machine eta 20-50 wMark Tung
This document introduces the ETA LED laser marking machine. It can mark a variety of materials used in industries like electronics, automotive, hardware, and more. The laser has powerful marking software, a small integrated design, high stability, low maintenance needs, and fast processing speeds. Optional rotating stations allow for automated plane and rotating marking. Models include the ETA-20W and ETA-50W lasers which have different power levels and specifications but both offer non-contact laser marking.
China fiber laser marking engraving machine, metal & non-metal laser marking ...Sky Tian
This document summarizes the features and specifications of the Raycus Fiber Laser Marking Machine Model MY-M20F-II. It can mark on various metal and non-metal materials with high precision of up to 0.0012mm. It features a 20W laser power, 7000mm/s marking speed, and long lifespan of the fiber laser module of 100,000-200,000 hours. The machine is controlled by JCZ software and has integrated air cooling for operation in temperatures from 15-35°C.
SmalTec International is the world’s leading manufacturer of micromachining equipment for aerospace, communications, medical, automotive, optics, nanotechnology and other innovative industries.
The EdgeBreaker is a deburring machine from ARKU that allows for rapid, economical, and two-sided deburring, rounding, and oxide layer removal of punched, laser cut, plasma cut, and autogenously gas cut panels. It can process materials from 0.8 to 80 mm thick such as steel, stainless steel, copper, various alloys, aluminum, and titanium. The EdgeBreaker offers touchscreen controls to conveniently enter part parameters and saves data that can be recalled later.
This document provides information about Wuhan Hans Goldensky Laser System Co., Ltd., including:
- The company manufactures high-power laser sources and laser cutting, welding, and processing equipment. It has received several government innovation awards.
- Product lines include CO2, fiber, and YAG laser cutting machines in various power ranges for cutting materials like steel, aluminum, and non-ferrous metals.
- Specifications and performance data are provided for several laser cutting machine models, along with photos and descriptions of their features. Cutting speeds for different materials and thicknesses are listed.
- Company qualifications, honors received, and contact information are also briefly mentioned at the end of the document.
Chijie Mold Industrial Co., Ltd. was established in 1998 and is located in Xiamen, Fujian. We specialize in the design, development and manufacture of high precision moulds such as plastic injection moulds, aluminium die-castings as well as moulds for zinc alloy, rubber, blowing, carbon fiber and bakelite.
Our factory covers over 15,000 square metres and is equipped with the latest high-tech machines including inspection and testing equipments from trusted brands such as Agie, Sodick, Makino, Takumi and more.
Chijie employs over 100 highly trained staffs with rich experience in technical research, development and design.
With our state of the art facilities and professionally trained staff, we are able to provide a range of automotive, electronic, electrical, telecommunication and medical moulds for industrial and commercial use.
Producing over 600 mould sets per year, we have a strong work capacity that we produce moulds for international clients in USA, Germany, Japan, Russia, Denmark, Sweden and Singapore to name just a few.
As the first mold company in Fujian to gain ISO 9001:2008 accreditation, we are also members of the China Die & Mould Association (CDMA). As well as serving as Vice Chairman for Xiamen Mould Association.
Our proud history, advanced facilities and professional staff make Chijie a proven provider in high quality OEM and ODM products and services.
Chijie Mold Industrial Co., Ltd. was established in 1998 and is located in Xiamen, Fujian. We specialize in the design, development and manufacture of high precision moulds such as plastic injection moulds, aluminium die-castings as well as moulds for zinc alloy, rubber, blowing, carbon fiber and bakelite.
Our factory covers over 15,000 square metres and is equipped with the latest high-tech machines including inspection and testing equipments from trusted brands such as Agie, Sodick, Makino, Takumi and more.
Chijie employs over 100 highly trained staffs with rich experience in technical research, development and design.
With our state of the art facilities and professionally trained staff, we are able to provide a range of automotive, electronic, electrical, telecommunication and medical moulds for industrial and commercial use.
Producing over 600 mould sets per year, we have a strong work capacity that we produce moulds for international clients in USA, Germany, Japan, Russia, Denmark, Sweden and Singapore to name just a few.
As the first mold company in Fujian to gain ISO 9001:2008 accreditation, we are also members of the China Die & Mould Association (CDMA). As well as serving as Vice Chairman for Xiamen Mould Association.
Our proud history, advanced facilities and professional staff make Chijie a proven provider in high quality OEM and ODM products and services.
Golden laser - introduction of pipe/ tube laser cutting machine P2060. P2060 tube laser cutting machine is suitable for round, square, rectangle, oval etc.
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.
Introduction to Arcraft Plasma Equipments (I) Pvt Ltd
A leader in the design, development and manufacture of machines and automation for welding, cutting, hard facing, cladding, hardbanding using PTA / Plasma / Tig / MIG - MAG / FCAW / Strip cladding and more.
Proven capability to design and custom build machinery as per customers requirement.
Consumables used wire, powder metal and alloys, strips.
Autogenous welding on this sheets, delicate and small processes
our website www.arcraftplasma.com
our blog : https://arcraftplasma.blogspot.com/2021/05/id-pta-welding-torch-minimum-dia-50-mm.html
Founded in 1992 and headquartered in Mumbai, India, Arcraft designs and manufactures welding, metal cutting, and hardfacing equipment, with a focus on quality, reliability, accuracy, and advanced technology. Some of Arcraft's key products include micro plasma and TIG welding machines, hardbanding machines, plasma transferred arc welding machines, submerged arc welding machines, and various automation equipment. Arcraft serves industries such as fabrication, mining, shipbuilding, and automotive.
Laser Cutter For Jewelry | Laser Cutter For Jewelry in dubaiHarshadjewellerymach
If you're seeking a modern and innovative approach to creating stunning jewelry pieces, laser technology is the answer! Laser cutters, engravers, and markers have completely transformed the industry, offering jewelers precision, speed, and versatility like never before. With laser cutters, you can create complex designs on precious metals like gold, silver, and platinum with incredible accuracy and consistency. Laser engravers provide the ability to etch intricate logos, text, and designs onto various materials, including metal, wood, and leather. Lastly, laser markers are perfect for adding identification marks or serial numbers to jewelry pieces with speed and precision. Embrace the endless possibilities of laser machines and revolutionize your jewelry-production.
Laser Marker For Jewelry | Laser Marker For Jewelry in dubaiHarshadjewellerymach
If you're seeking a modern and innovative approach to creating stunning jewelry pieces, laser technology is the answer! Laser cutters, engravers, and markers have completely transformed the industry, offering jewelers precision, speed, and versatility like never before. With laser cutters, you can create complex designs on precious metals like gold, silver, and platinum with incredible accuracy and consistency. Laser engravers provide the ability to etch intricate logos, text, and designs onto various materials, including metal, wood, and leather. Lastly, laser markers are perfect for adding identification marks or serial numbers to jewelry pieces with speed and precision. Embrace the endless possibilities of laser machines and revolutionize your jewelry-production.
If you're seeking a modern and innovative approach to creating stunning jewelry pieces, laser technology is the answer! Laser cutters, engravers, and markers have completely transformed the industry, offering jewelers precision, speed, and versatility like never before. With laser cutters, you can create complex designs on precious metals like gold, silver, and platinum with incredible accuracy and consistency. Laser engravers provide the ability to etch intricate logos, text, and designs onto various materials, including metal, wood, and leather. Lastly, laser markers are perfect for adding identification marks or serial numbers to jewelry pieces with speed and precision. Embrace the endless possibilities of laser machines and revolutionize your jewelry-production.
If you're seeking a modern and innovative approach to creating stunning jewelry pieces, laser technology is the answer! Laser cutters, engravers, and markers have completely transformed the industry, offering jewelers precision, speed, and versatility like never before. With laser cutters, you can create complex designs on precious metals like gold, silver, and platinum with incredible accuracy and consistency. Laser engravers provide the ability to etch intricate logos, text, and designs onto various materials, including metal, wood, and leather. Lastly, laser markers are perfect for adding identification marks or serial numbers to jewelry pieces with speed and precision. Embrace the endless possibilities of laser machines and revolutionize your jewelry-production.
CZY is a professional manufacturer which specialized in metal PCB,including the aluminum base board with high performance and high thermal conductivity for LED,copper base board(thermoelectric separation), copper - aluminum composite and so on. For 11 years, we focus on the R&D and manufacture of metal circuit boards. The series of products are: copper base board for automotive lamp, aluminum base board with high thermal conductivity for LED, bendable aluminum base board (0.2mm), 1.5m ultra-long board, and ALC aluminum base board with ultra-high thermal conductivity (122W), etc.
The document discusses Arcraft and its plasma transferred arc welding technology. It provides high quality hardfacing for components through precise coatings that significantly extend service life by reducing wear. The technology produces minimal heat impact and protects against corrosion, thermal shock and abrasion. Arcraft offers fully automatic, CNC-based welding systems customized for applications like valves, engines, and more.
Shanghai Laimu electronics co.,LTD (ENGLISH)Silvestre Wang
This document provides information about Shanghai Laimu Electronics, including:
1. They have five factory and branch locations in Shanghai, Shenzhen, and Hunan province.
2. Their business includes the design and manufacture of consumer connectors, auto connectors, plastic and stamping parts, screening cases, and more.
3. They have received several certifications and have expanded their facilities and production over time.
YSX TECH is an EMS manufacturer established in 2004 that specializes in electronics manufacturing services such as PCB fabrication, SMT assembly, components sourcing, and turn-key solutions. They have a comprehensive range of manufacturing equipment and capabilities. Their goal is to provide high quality, cost effective solutions and satisfy customers through a flexible team-oriented culture. They serve various industries globally and strive for long-term customer relationships and continuous improvement.
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This Advertising letter laser welder operation manual contains Configuration of equipment,Introduction of structure and maintenance guide,installation,Operation manual,etc
Any interests,welcome to contact me Mobile/Wechat/whatsApp/Skype:+86 135 3855 4312
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From this PDF you'll know more about Taiyi lser cutting machine,such as the difference compared with other manufacturers' laser cutter,the features,applicable materials ,the advantage of ours,etc.
Published by Bruce liu from Taiyi laser ,Mobile/Wechat/whatsApp:+86 135 3855 4312
Thank you for focus !
How much do you know about Taiyi laser marking machine?
Do you know the applied industry ,machine model,machine configuration and some special requirement of Taiyi laser marking machine ?
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Building a Raspberry Pi Robot with Dot NET 8, Blazor and SignalR - Slides Onl...Peter Gallagher
In this session delivered at Leeds IoT, I talk about how you can control a 3D printed Robot Arm with a Raspberry Pi, .NET 8, Blazor and SignalR.
I also show how you can use a Unity app on an Meta Quest 3 to control the arm VR too.
You can find the GitHub repo and workshop instructions here;
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Laser welding machine catalog from taiqi machine factory
1.
2. Why choose TaiYi
1. Brand Protection
2. Quality Assurance & High cost-effective
3. China manufacturer with competitive price
4. After-sales service response quickly within
24hours
5. high performance of laser power supply for
more stable output.
6. Perfect welding effect
7. Working table or fixture can be customized
Taiyi brand, you touch it, you will like it.
4. Technical Parameters
Model Jewelry Laser Welding Machine
Laser Power 200W/400W
Electric Power 6kw
Cooling mode Water Cooling
Laser pulse Frequency 1-200HZ
Pulse width 0.1-20ms
Spot size 0.2-3.0mm
Minimum welding pool 0.1mm
Machine dimension 980*570*1020mm+850*550*800mm
Water tank dimension 75*48*81cm
Grand weight 270kgs
Xenon's working life 8month-12months
Laser positioning Red pointer
Capacitance 8
Taiyi-Leading Laser Automation Technology
5. Applicable Materials
Application: for gold and silver jewelry welding, such as filled
holes, spot welding gaps and claws etc.
Jewelry, golf head, medical equipment, instruments, Electronic,
automobile and other industries.
Taiyi-Leading Laser Automation Technology
8. Technical Parameters
Model Mould Laser Welding Machine
Laser Power 200W/400W
Electric Power 6kw/9kw
Cooling mode Water Cooling
Laser pulse Frequency 1-200HZ
Pulse width 0.1-20ms
Spot size 0.2-3.0mm
Minimum welding pool 0.1mm
Machine dimension 760*550*710mm+440*540*500mm
Water tank dimension 75*48*81cm
Grand weight 350kgs
Xenon's working life 8month-12months
Laser positioning Red pointer
Capacitance 8/16
Taiyi-Leading Laser Automation Technology
9. Applicable Materials
Application: for repairing and welding on mould of precision
injection,die casting and repairing for casting,machineing
parts,such as sand hole,collapse,cutting processing etc,and
welding for all kinds of metal structure,gold and silver jewelry
processing.
Mould,jewelry etc.
Taiyi-Leading Laser Automation Technology
12. Technical Parameters
Model
Galvanometer scanning Laser Welding
Machine
Laser Power 200W/400W
Electric Power 6kw/9kw
Cooling mode Water Cooling
Laser pulse Frequency 1-200HZ
Pulse width 0.1-20ms
Spot size 0.2-3.0mm
Minimum welding pool 0.1mm
Machine dimension 1300*860*900mm+850*550*800mm
Water tank dimension 75*48*81cm
Grand weight 350kgs
Xenon's working life 8month-12months
Laser positioning Red pointer
Capacitance 8
Taiyi-Leading Laser Automation Technology
13. Applicable Materials
Application: for mobile phones' shield and metal capacitor
shell,metal shielding wire mesh inside PC,razor
blades,electronic connectors and others electronic products.
Mobile phones PC etc.
Taiyi-Leading Laser Automation Technology
16. Technical Parameters
Model
Optical fiber transmission Laser Welding
Machine
Laser Power 200W/400W/600W
Electric Power 6kw/9kw/12kw
Cooling mode Water Cooling
Laser pulse Frequency 1-200HZ
Pulse width 0.1-20ms
Adjusted spot range 0.1-3.0mm
Minimum welding pool 0.1mm
Machine dimension
1000*650*1100mm+1100*680*1200mm+850*
550*800mm
Water tank dimension 75*48*81cm
Grand weight 400kgs
Xenon's working life 8month-12months
Laser positioning Red pointer
Taiyi-Leading Laser Automation Technology
17. Applicable Materials
Application: for welding on the thin materials,precision
parts,which can realize spot welding,butt welding,welding
stack,seal welding etc.
Very small welding width and heat affecting zoon.Small
deformation,high welding speed,smooth and nice welding
seam,high welding quality,no pores,can control precisely,small
focusing point,high positioning accuracy.
Taiyi-Leading Laser Automation Technology
20. Technical Parameters
Model Advertising Letter Laser Welding Machine
Laser Power 200W/400W
Electric Power 6kw/9kw
Cooling mode Water Cooling
Laser pulse Frequency 1-200HZ
Pulse width 0.1-20ms
Spot size 0.2-3.0mm
Minimum welding pool 0.1mm
Machine dimension 1200*600*750mm+850*550*800mm
Water tank dimension 75*48*81cm
Grand weight 350kgs
Xenon's working life 8month-12months
Laser positioning Red pointer
Capacitance 8
Taiyi-Leading Laser Automation Technology
21. Applicable Materials
Application: for various of stainless steel mirror
surface,drawing words,spherical and plane words,paint,plastic
spraying,solid words,gold foil,seiko stainless steel
word.Titanium surface,seiko titanium,titanium spherical
words,plane of copper,spherical copper words,copper archaize
words,seiko of aluminum,tin paint words advertising
words,words of metal materials.
Taiyi-Leading Laser Automation Technology
24. Technical Parameters
Model 3D/4D automatic Laser Welding Machine
Laser Power 200W/400W
Electric Power 6kw/9kw
Cooling mode Water Cooling
Laser pulse Frequency 1-200HZ
Pulse width 0.1-20ms
Spot size 0.2-3.0mm
Minimum welding pool 0.1mm
Machine dimension 1400*650*1320mm+850*550*800mm
Water tank dimension 75*48*81cm
Grand weight 400kgs-600kgs
Xenon's working life 8month-12months
Laser positioning Red pointer
Capacitance 8/16
Taiyi-Leading Laser Automation Technology
25. Applicable Materials
Application: for 2D/3D/4D welding.
Metals: titanium, aluminum, copper, zinc, gold, silver and other metals, welding
between alloy material, also can be applied to copper, titanium and other kinds
of welding of dissimilar metals.
Auto parts industry: engine cylinder gasket; Hydraulic tappet seal welding;
Filter seal welding; The spark plug welding; The valve push rod welding; Anti-
collision airbag electric detonator Seal welding; The crankshaft and cylinder
liner of heat treatment
Electronic industry: mobile phone battery, power battery shell seal welding;
Solid state relay seal welding; The connector cable welding;
Hardware industry: tools, accessories, tableware, lighting lamps and lanterns;
Taiyi-Leading Laser Automation Technology
28. Doulbe laser path
Handheld fiber transmission laser welding machine
Taiyi-Leading Laser Automation Technology
2 Laser head,
Can be time
splitting or
enegry
splitting
29. 8.Handheld and auto fiber transmission
laser welding machine
Taiyi-Leading Laser Automation Technology
Multi funcation,
One head with
handheld , one
head with
automatic table
32. 4 laser heads
fiber transmission laser welding machine
4 Laser
heads, can
do time
splitting or
enegry
splitting
Taiyi-Leading Laser Automation Technology
33. Technical Parameters
Model
Optical fiber transmission Laser Welding
Machine
Laser Power 200W/400W/600W
Electric Power 6kw-1200W
Cooling mode Water Cooling
Laser pulse Frequency 1-100HZ
Pulse width 0.1-20ms
Adjusted spot range 0.1-3.0mm
Minimum welding pool 0.1mm
Machine dimension
1000*650*1100mm+1100*680*1200mm+850*
550*800mm
Water chiller dimension 750*480*810mm
Grand weight 700kgs
Xenon's working life 8month-12months
Laser positioning Red pointer
Taiyi-Leading Laser Automation Technology
34. Advantage of Fiber transmission
Application:
Mainly applied to the thin material and precision parts. It can achieve spot
welding, seam welding, overlap welding, seal welding, etc. Small heat-affected
zone, little thermal distortion, high welding speed, high quality welding effect;It
is widely applied to battery, IT, electronics components, hardware industries etc.
Advantage:
1.With energy feedback control system, each welding spot is even and same size
2. It is suitable for complicated welding parts, and seam welding within 1mm thickness
3. With energy or time splitting, it can achieve one time welding or time split welding
4. Fiber laser output, can work with mechanical arm and production line.
Taiyi-Leading Laser Automation Technology