Descripción
Features of Kjellberg Nozzle Cap G3229:
Kjellberg Nozzle Cap G3229 is a critical component in plasma cutting systems, designed with several professional features that enhance performance and durability. Here are some key characteristics:
- Composición de material : Kjellberg Nozzle Cap G3229 is typically constructed from high-conductivity materials such as copper or specialized alloys. These materials are selected for their ability to withstand extreme temperatures and resist wear during high-intensity cutting operations.
- Flow Optimization Design : The internal geometry of the nozzle cap is engineered to optimize the flow of plasma gas. This design ensures a stable and focused plasma arc, which is essential for achieving high-quality cuts with minimal dross.
- Compatibilidad : Kjellberg Nozzle Cap G3229 is specifically designed to be compatible with certain plasma cutting torches, ensuring precise alignment and fit. This compatibility minimizes the risk of gas leaks and enhances overall cutting efficiency.
- Funciones de refrigeración mejoradas : Some G3229 nozzle caps incorporate advanced cooling mechanisms to dissipate heat more effectively. This feature helps maintain optimal operating temperatures, prolonging the lifespan of the nozzle and improving cutting performance.
- Variety of Sizes and Specifications : Kjellberg Nozzle Cap G3229 is available in various sizes and specifications to accommodate different cutting applications and material thicknesses, providing versatility for users.
- Facilidad de mantenimiento : The design of the nozzle cap allows for quick and easy installation and removal, facilitating routine maintenance and reducing downtime during operations.
- Improved Cutting Performance : A well-engineered nozzle cap can significantly enhance cutting speed, precision, and the quality of the cut edge, thereby reducing the need for secondary processing.
- Resistencia térmica : Kjellberg Nozzle Cap G3229 is built to withstand the extreme thermal conditions generated during plasma cutting, ensuring reliable performance under high-stress situations.
- Estabilidad de arco : The design aims to provide superior arc stability, minimizing arc flickering or instability during cutting, which can lead to inconsistent results.
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CÓDIGO
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Descripción
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G901Y
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.11.848.201.142
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Tubo de enfriamiento
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G002y
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.11.848.221.300
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Cátodo O2
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G101
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.11.848.221.145
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Guía de gas
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G2006
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.11.848.221.406
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Boquilla O2 25A
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G2007
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.11.848.221.407
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Boquilla O2 35A
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G3004
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.11.848.201.1604
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Boquilla
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G4015
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.11.848.201.1515
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Golpe de gasolina
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G4020
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.11.848.201.1520
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Golpe de gasolina
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G501
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.11.848.201.081
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Tapa protectora
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G003y
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.11.848.221.310
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Cátodo -o2
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G102
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.11.848.221.146
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Guía de gas
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G2008
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.11.848.221.408
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Boquilla O2 50A
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G2010
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.11.848.221.410
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Boquilla O2 80a
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G2012
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.11.848.221.412
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Boquilla O2 120A
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G2014
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.11.848.221.414
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Boquilla O2 160A
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G2016Y
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.11.848.221.416
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Boquilla O2 200a
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G3028
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.11.848.201.1628
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Boquilla
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G4022
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.11.848.201.1522
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Golpe de gasolina
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G4025
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.11.848.201.1525
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Golpe de gasolina
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G4030
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.11.848.201.1530
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Golpe de gasolina
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G032Y
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.11.848.421.310
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Cátodo O2
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G034Y
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.11.848.421.330
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Cátodo O2
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G121
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.11.848.421.145
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Guía de gas
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G2326Y
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.11.848.421.426
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Boquilla O2 280a
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G2330Y
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.11.848.421.430
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Boquilla O2 360a
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G2331Y
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.11.848.421.431
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Boquilla -O2-400A
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G3209
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.11.848.401.1609
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Boquilla
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G3219
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.11.848.401.1619
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Boquilla
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G3229
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.11.848.401.1629
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Boquilla
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G4345
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.11.848.401.1545
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Golpe de gasolina
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G4350
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.11.848.401.1550
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Golpe de gasolina
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G4355
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.11.848.401.1555
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Golpe de gasolina
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G971
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.11.848.411.142
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Tubo de enfriamiento
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G042
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.11.848.211.510
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Cátodo ARH2
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G3008
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.11.848.201.1608
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Boquilla
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G3018
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.11.848.201.1618
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Boquilla
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G052
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.11.848.311.510
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Cátodo
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G105
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.11.848.221.149
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Guía de gas
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G2516
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.11.848.311.616
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Boquilla
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G4530
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.11.848.311.1530
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Golpe de gasolina
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G071
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.11.848.411.500
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Cátodo ARH2
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G125
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.11.848.421.149
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Guía de gas
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G2725
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.11.848.411.625
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Boquilla ARH2
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G2727
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.11.848.411.627
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Boquilla ARH2
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G2729
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.11.848.411.629
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Boquilla ARH2
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G3249
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.11.848.401.1649
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Boquilla
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G4335
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.11.848.401.1535
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Golpe de gasolina
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G4340
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.11.848.401.1540
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Golpe de gasolina
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G521
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.11.848.401.081
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Tapa protectora
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Application of kjellberg nozzle cap G3229:
The Kjellberg nozzle cap G3229 is typically used in plasma cutting applications. It is designed to enhance the performance and efficiency of plasma cutting systems. Here are some key applications and benefits of using the Kjellberg nozzle cap G3229:
- Corte de plasma : The primary application is in plasma cutting, where it helps to focus the plasma arc for precise cutting of various materials, including metals like steel, aluminum, and stainless steel.
- Calidad mejorada de corte : Kjellberg Nozzle Cap G3229 is engineered to provide a stable and concentrated arc, resulting in cleaner cuts with minimal dross and better edge quality.
- Mayor eficiencia : By optimizing the flow of plasma gas, the nozzle cap can improve cutting speeds and reduce the overall time required for cutting operations.
- Versatilidad : It can be used with different plasma cutting systems and is suitable for various thicknesses of materials, making it a versatile choice for different industrial applications.
- Durabilidad : The materials used in the construction of the nozzle cap are designed to withstand high temperatures and wear, ensuring a longer lifespan and reduced downtime for maintenance.
- Rentabilidad : By improving cutting efficiency and quality, the Kjellberg nozzle cap can contribute to lower operational costs in manufacturing and fabrication processes.
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