AirJet Compact plasma cutter
711.111,45 FtPORTABLE PLASMA CUTTER
CastoCut gas distributor
35.028,67 Ft 17.514,34 Ft / unfor CastoCut
AirJet 1100 AirJet plasma cutters
1.893.165,75 FtPowerful, robust and compact
Torch C100 for plasma cutting
271.496,72 FtBurner for AirJet 1038
C100 wear part set for plasma cutting
301.599,48 FtSpare parts for C100
Protective cap for burner C100
23.314,33 Ft 11.657,17 Ft / un2 x protective cap
Electrode for C100 burner
31.548,68 Ft 6.309,74 Ft / un5 x electrode
Cutting nozzle cap C100
36.731,91 Ft1 x cutting nozzle cap
Gas distributor C100
36.401,06 Ft2x gas distributor
Circle cutting set for plasma cutting torches
48.082,73 FtCircle cutting set C60/C100
CastoCut 70 hand torch set
194.581,50 FtHand burner for AirJet 670
CastoCut 110 hand torch set
198.837,54 FtHand burner for AirJet 1100
CastoCut hand torch module 75°
81.886,06 FtModular superstructure system
CastoCut hand torch module 15°
85.247,60 FtModular superstructure system
CastoCut hose package
99.821,10 Ft 99.821,10 Ft / unModular superstructure system
Plasma cutting is a thermal cutting process in which a plasma arc is constricted by a nozzle. The transmitted arc, which occurs when the current flows from the non-melting electrode to the workpiece, has a high thermal, electrical and kinetic energy. This is used to cut all electrically conductive materials.
Clear advantages over flame cutting are the simple and safe handling, low heat input into the workpiece, oxidation-free cutting and low operating costs.
Plasma cutting is a process in which a high-temperature, high-speed plasma jet is used to cut electrically conductive materials. The plasma is generated by ionizing a gas such as argon or nitrogen with an electric arc. The ionized gas is then accelerated through a small nozzle, creating a high temperature, high velocity plasma jet. The plasma jet is then directed at the workpiece, where it melts and vaporizes the material.
Plasma cutting is a versatile and efficient method of metal cutting that uses high-temperature plasma to cut through various types of conductive materials with precision and speed. This advanced cutting technology has revolutionized metalworking and industrial processes, offering a wide range of unique features and benefits that make it a preferred choice for professionals in all industries.
At the heart of plasma cutting is the plasma cutting system, which consists of a power source, a plasma torch and a gas delivery system. The system creates an electric arc between the torch electrode and the workpiece, ionizing the gas and creating a plasma jet. This plasma jet, which reaches temperatures of up to 30,000 degrees Celsius, melts and blasts away the metal, resulting in a clean and precise cut.
One of the main advantages of plasma cutting is its versatility. Plasma cutters can cut a wide range of conductive materials, including mild steel, stainless steel, aluminum, copper and other alloys. This versatility makes plasma cutting an ideal choice for various applications, such as metal fabrication, automotive, construction and industrial maintenance.
Plasma cutting is excellent for cutting thick and thin material. It can effortlessly process thick sheets and offers high cutting speeds and excellent cutting quality. In addition, plasma cutting offers excellent precision and accuracy, making intricate and detailed cuts possible even on thin materials. This versatility and precision make plasma cutting a preferred choice for applications that require both speed and fine detail, such as metal artwork and intricate metal components.
Another unique feature of plasma cutting is its ability to deliver a clean and beard-free cut. The plasma jet blows away the molten metal as it cuts, so no further cleaning or finishing steps are required. This results in less cleaning after cutting and saves valuable time and resources. In addition, plasma cutting creates a narrow heat-affected zone, minimizing deformation and preserving the integrity of the surrounding material.
Plasma cutting systems often feature advanced technology and intelligent controls that improve cutting performance and ease of use. Some systems are equipped with CNC (Computer Numerical Control) capabilities that enable automated cutting processes and precise, repeatable cuts. CNC plasma cutting systems can follow intricate designs and patterns, making them ideal for applications that require high precision and complex shapes.
Efficiency is a key benefit of plasma cutting. Plasma cutting systems are designed to optimize power consumption while maintaining cutting performance. Some systems feature energy-efficient technologies that minimize power consumption without compromising cut quality, reducing operating costs and environmental impact. In addition, plasma cutting is a faster cutting process compared to conventional processes such as oxy-fuel cutting, increasing productivity and throughput.
Safety is an important aspect of plasma cutting, and modern plasma cutting systems have various safety features that protect the operator and ensure safe operation. Torch designs often include built-in mechanisms to prevent accidental triggering or gas flow, and systems may have automatic shut-off functions in the event of overcurrent or overheating. It is important that operators wear appropriate Personal Protective Equipment (PPE), including goggles, gloves and clothing to protect themselves from sparks, UV radiation and molten metal.