Minimum Order Quantity | 1 Piece |
Brand | Jasic |
Model | MIG-250F |
Welding Current Range | 20-250A |
Phase | 3 Phase |
Working Voltage | AC415V+-15% |
Weight | 18 kg |
Dimension (L x B x H) | 655 x 325 x 455 mm |
Product Type | New |
Duty Cycle | 60% |
Welding is a common process for joining metals using a large variety of applications. Welding occurs in several locations, from outdoors settings on rural farms and construction sites to inside locations, such as factories and job shops. Welding processes are fairly simple to understand, and basic techniques can be learned quickly. Welding is the joining of metals at a molecular level. A weld is a homogeneous bond between two or more pieces of metal, where the strength of the welded joint exceeds the strength of the base pieces of metal.
Welding is a process of joining two or more pieces of the same or dissimilar materials to achieve complete coalescence. This is the only method of developing monolithic structures and it is often accomplished by the use of heat and/or pressure. A metal joining method in which the joining edges are heated and fused together with or without filler metal to form a permanent (homogeneous) bond is known as welding.
At the simplest level, welding involves the use of four components: the metals, a heat source, filler metal, and some kind of shield from the air. The metals are heated to their melting point while being shielded from the air, and then a filler metal is added to the heated area to produce a single piece of metal. It can be performed with or without filler metal and with or without pressure.
ADVANTAGES OF WELDING
Welding is superior to other metal joining methods because it:
1. It is a permanent pressure tight joint - occupies less space
2. It gives more economy of material - has less weight
3. Withstands high temperature and pressure equal to joined material
4. It can be done quickly
5. Gives no colour change to joints.
The MIG welding process is semi-automated. This is also called as Gas Metal Arc Welding (GMAW). The process of MIG welding was developed in 1940. As this is a semi-automated process so there is a constant supply of filler wire in the form of MIG wire. This wire is being supplied by wire feeder which has a motorized function. The wire passed through the liner which also has a gas feeding through the same cable to the point where an arc is formed. The MIG welding is used in fabrication where higher production is required. The process needs electricity to produce heat, electrode or filler wire for the joint and inert gas to protect the welding joint from the air in the form of an inert gas of Co2. We ask you to buy MIG welder and if a robot is used in this welding process this welding becomes automatic. This MIG welding process is fast, cost effective and produces more welding units in a small period of time so it is a more effective method of welding.
The types of wire used are Carbon steel, stainless steel, and Aluminium. The wire feeder needs special change for the Aluminium wire filler. The carbon steel is best suited for the MIG welding. The welding by MIG are as welding is clean without smoke, very cheap, fast, time-saving in changing of the electrode is minimum so time efficient. It is good for spot and tack welds
Minimum Order Quantity | 1 Piece |
Output Current | 400 Amp |
Output Current Range | 400 Amp |
Power Consumption | TRANSFORMER |
Phase | 3 Phase |
Working Voltage | 415 V 2 Lines of 3 Phase, 50 Hz |
Welding Current at 100% Duty Cycle | 100% |
Insulation Class | F |
Cooling | Fan Cooled |
Power Factor | 50 - 400 A (2 Lines of 3 Phase) |
Efficiency | Max Output 400 A Current Range 50 - 400 A (2 Lines of 3 Phase) |
Compatible Rods | 8 mm |
Technology | IGBT |
Protection Class | Transweld 400 is a Manual Arc Welding Transformer that combines unique functionality and safety feat |
Accessories | Transweld 400 is a Manual Arc Welding Transformer that combines unique functionality and safety feat |
Features | Transweld 400 is a Manual Arc Welding Transformer that combines unique functionality and safety feat |
Usage/Application | Transweld 400 is a Manual Arc Welding Transformer that combines unique functionality and safety feat |
Warranty | 1 YEAR |
Weight | 115 kg |
Dimension (L x B x H) | 600 x 720 x 410 mm |
Certifications | Transweld 400 is a Manual Arc Welding Transformer that combines unique functionality and safety feat |
Specifications | |
---|---|
Voltage | 415 V 2 Lines of 3 Phase, 50 Hz |
Max Output | 400 A |
Current Range | 50 - 400 A (2 Lines of 3 Phase) |
Open Circuit Voltage | 80 V |
Dimensions, L x W x H |
600 x 720 x 410 mm |
Weight | 115 kg |
Minimum Order Quantity | 1 Piece |
Output Current | 400 Amp |
Output Current Range | 400 Amp |
Power Consumption | 0.85 |
Phase | 3 Phase |
Working Voltage | Current Range, A 50 - 400 |
Welding Current at 100% Duty Cycle | 100% |
Insulation Class | H |
Cooling | Forced Air |
Power Factor | 0.85 |
Efficiency | IP21 |
Compatible Rods | 8 mm |
Technology | MOSFET |
Protection Class | H |
Accessories | STANDARED |
Features | heavy duty cycle applications. |
Usage/Application | RS 400x is a fully thyristorised MMA welding equipment designed for high productivity and heavy duty |
Warranty | 1 YEAR |
Weight | 130 |
Dimension (L x B x H) | 705 x 420 x 790 |
Minimum Order Quantity | 1 Piece |
Output Current | 250 Amp |
Output Current Range | 250 Amp |
Power Consumption | Mains Supply (1ph), V / Ph, Hz 220/ 1, 50/60 Mains Supply (3ph), V / Ph, Hz 415 +-15% / 3, 50/ 60 |
Phase | 3 Phase |
Working Voltage | 220 V 1, 50 Hz 415 V 3, 50 Hz |
Welding Current at 100% Duty Cycle | GMAW Welding Output 192 A / @ 100 % Duty Cycle 250 A / @ 60 % Duty Cycle |
Insulation Class | H |
Cooling | Fan Cooled |
Power Factor | 0.9 |
Efficiency | 85 % |
Compatible Rods | 8 mm |
Technology | IGBT |
Protection Class | Enclosure Class IP21 |
Warranty | 1 YEAR |
Weight | 53 |
Dimension (L x B x H) | 1000 x 510 x 700 |
Minimum Order Quantity | 1 Piece |
Output Current | 400 Amp |
Output Current Range | 400 Amp |
Power Consumption | 415 V 3, 50 Hz |
Phase | 3 Phase |
Working Voltage | 415 V 3, 50 Hz |
Welding Current at 100% Duty Cycle | 400 A / @ 60 % Duty Cycle 310 A / @ 100 % Duty Cycle |
Insulation Class | H |
Cooling | Forced Air |
Compatible Rods | 8 mm |
Technology | IGBT |
Warranty | 1 YEAR |
Weight | 122 |
Dimension (L x B x H) | 675 x 350 x 690 |
Wire Feed Speed | Wire Diameter, mm 0.8- 1.2 Speed Control Stepless Weight, Kg 9 Torch |
Wire Feeding Speed | Wire Feed Speed, m/min 1.0 - 16 |
Minimum Order Quantity | 1 Piece |
Output Current | 400 Amp |
Output Current Range | 400 Amp |
Phase | 3 Phase |
Working Voltage | 440V |
Welding Current at 100% Duty Cycle | 100% |
Insulation Class | H |
Cooling | Forced Air |
Compatible Rods | 10 mm |
Technology | IGBT |
Protection Class | IP23S |
Features | Frequency 50 Hz Product Voltage 440V Fuse Slow 32 A |
Usage/Application | welding industrial |
Warranty | 1 year |
Weight | 35.2 Kg |
Dimension (L x B x H) | 525 x 280 x 475 mm |
Certifications | CE |
Product Type | New |
Minimum Order Quantity | 1 Piece |
Output Current | 200 Amp |
Output Current Range | 200 Amp |
Power Consumption | 220V |
Phase | Single Phase |
Working Voltage | 220V |
Welding Current at 100% Duty Cycle | 20-200A |
Insulation Class | A |
Cooling | Fan Cooled |
Power Factor | 20-220 |
Compatible Rods | 10 mm |
Technology | IGBT |
Protection Class | A+ |
Minimum Order Quantity | 1 Piece |
Output Current | 250 Amp |
Output Current Range | 200 Amp |
Power Consumption | 415 +- 10% / 3, 50/ 60 |
Phase | 3 Phase |
Working Voltage | Rated Input Power, KVA 9.5 Current Range, A 40 - 250 Voltage Range, V 16 - 34 |
Welding Current at 100% Duty Cycle | Permitted Load at 60% duty cycle, A 250 Permitted Load at 100% duty cycle, A 190 |
Insulation Class | H |
Cooling | Forced Air |
Compatible Rods | 12 mm |
Warranty | 1 YEAR |
Weight | 78 |
Dimension (L x B x H) | 620 x 390 x 580 |
Product Type | New |
Brand | Great |
Model | Yuva K MIG-300 |
Welding Current Range | 60-300A |
Power Consumption | 8.7 kVA |
Phase | 3 Phase |
Working Voltage | 220V+-10% |
Insulation Class | F |
Protection Class | IP 21S |
Weight | 17 kg |
Dimension (L x B x H) | 495 x 225 x 395 mm |
Product Type | New |
Duty Cycle | 60% |
The MIG welding process is semi-automated. This is also called as Gas Metal Arc Welding (GMAW). The process of MIG welding was developed in 1940. As this is a semi-automated process so there is a constant supply of filler wire in the form of MIG wire. This wire is being supplied by wire feeder which has a motorized function. The wire passed through the liner which also has a gas feeding through the same cable to the point where an arc is formed. The MIG welding is used in fabrication where higher production is required. The process needs electricity to produce heat, electrode or filler wire for the joint and inert gas to protect the welding joint from the air in the form of an inert gas of Co2. We ask you to buy MIG welder and if a robot is used in this welding process this welding becomes automatic. This MIG welding process is fast, cost effective and produces more welding units in a small period of time so it is a more effective method of welding.
The types of wire used are Carbon steel, stainless steel, and Aluminium. The wire feeder needs special change for the Aluminium wire filler. The carbon steel is best suited for the MIG welding. The welding by MIG are as welding is clean without smoke, very cheap, fast, time-saving in changing of the electrode is minimum so time efficient. It is good for spot and tack welds
Welding is a common process for joining metals using a large variety of applications. Welding occurs in several locations, from outdoors settings on rural farms and construction sites to inside locations, such as factories and job shops. Welding processes are fairly simple to understand, and basic techniques can be learned quickly. Welding is the joining of metals at a molecular level. A weld is a homogeneous bond between two or more pieces of metal, where the strength of the welded joint exceeds the strength of the base pieces of metal.
Welding is a process of joining two or more pieces of the same or dissimilar materials to achieve complete coalescence. This is the only method of developing monolithic structures and it is often accomplished by the use of heat and/or pressure. A metal joining method in which the joining edges are heated and fused together with or without filler metal to form a permanent (homogeneous) bond is known as welding.
At the simplest level, welding involves the use of four components: the metals, a heat source, filler metal, and some kind of shield from the air. The metals are heated to their melting point while being shielded from the air, and then a filler metal is added to the heated area to produce a single piece of metal. It can be performed with or without filler metal and with or without pressure.
ADVANTAGES OF WELDING
Welding is superior to other metal joining methods because it:
1. It is a permanent pressure tight joint - occupies less space
2. It gives more economy of material - has less weight
3. Withstands high temperature and pressure equal to joined material
4. It can be done quickly
5. Gives no colour change to joints.
Minimum Order Quantity | 1 Piece |
Brand | Jasic |
Model | MIG-400 |
Welding Current Range | 50-400A |
Phase | 3 Phase |
Working Voltage | 415V+-15% |
Power Factor | 0.93 |
Efficiency | 0.85 |
Protection Class | IP21S |
Weight | 41 kg |
Dimension (L x B x H) | 780 x 380 x 610 mm |
Product Type | New |
Duty Cycle | 100% |
Wire Feeding Speed | 1-22 m/min |
Welding is a common process for joining metals using a large variety of applications. Welding occurs in several locations, from outdoors settings on rural farms and construction sites to inside locations, such as factories and job shops. Welding processes are fairly simple to understand, and basic techniques can be learned quickly. Welding is the joining of metals at a molecular level. A weld is a homogeneous bond between two or more pieces of metal, where the strength of the welded joint exceeds the strength of the base pieces of metal.
Welding is a process of joining two or more pieces of the same or dissimilar materials to achieve complete coalescence. This is the only method of developing monolithic structures and it is often accomplished by the use of heat and/or pressure. A metal joining method in which the joining edges are heated and fused together with or without filler metal to form a permanent (homogeneous) bond is known as welding.
At the simplest level, welding involves the use of four components: the metals, a heat source, filler metal, and some kind of shield from the air. The metals are heated to their melting point while being shielded from the air, and then a filler metal is added to the heated area to produce a single piece of metal. It can be performed with or without filler metal and with or without pressure.
ADVANTAGES OF WELDING
Welding is superior to other metal joining methods because it:
1. It is a permanent pressure tight joint - occupies less space
2. It gives more economy of material - has less weight
3. Withstands high temperature and pressure equal to joined material
4. It can be done quickly
5. Gives no colour change to joints.
The MIG welding process is semi-automated. This is also called as Gas Metal Arc Welding (GMAW). The process of MIG welding was developed in 1940. As this is a semi-automated process so there is a constant supply of filler wire in the form of MIG wire. This wire is being supplied by wire feeder which has a motorized function. The wire passed through the liner which also has a gas feeding through the same cable to the point where an arc is formed. The MIG welding is used in fabrication where higher production is required. The process needs electricity to produce heat, electrode or filler wire for the joint and inert gas to protect the welding joint from the air in the form of an inert gas of Co2. We ask you to buy MIG welder and if a robot is used in this welding process this welding becomes automatic. This MIG welding process is fast, cost effective and produces more welding units in a small period of time so it is a more effective method of welding.
The types of wire used are Carbon steel, stainless steel, and Aluminium. The wire feeder needs special change for the Aluminium wire filler. The carbon steel is best suited for the MIG welding. The welding by MIG are as welding is clean without smoke, very cheap, fast, time-saving in changing of the electrode is minimum so time efficient. It is good for spot and tack welds
Minimum Order Quantity | 1 Piece |
Brand | Rilon |
Model | MIG-400IJ |
Welding Current Range | 60-400A |
Phase | 3 Phase |
Working Voltage | AC380V+-15% |
Power Factor | 0.93 |
Efficiency | 0.85 |
Weight | 36 kg |
Dimension (L x B x H) | 550 x 280 x 545 mm |
Product Type | New |
Protection Class | IP21 |
Duty Cycle | 100% |
Usage/Application | mig welding |
Thickness | 0.8 mm |
Brand | sanwalka |
Quantity Per Roll | 15 kg |
Packaging | 15 kg per box |
Packaging Type | box |
Wire Gauge | 0.8 |
Thickness | 1.2 mm |
Usage/Application | MIG Welding |
Quantity Per Roll | 15 kg |
Brand | Rilon |
Welding Current Range | 50-250A |
Phase | Single Phase |
Working Voltage | AC 220V +- 15% |
Power Factor | 0.73 |
Efficiency | 0.80 |
Weight | 33 kg |
Dimension (L x B x H) | 655 x 300 x 665 mm |
Duty Cycle | 60% |
Protection Class | IP21 |
Minimum Order Quantity | 1 Piece |
Brand | Rilon |
Model | MIG-500 |
Welding Current Range | 80-500A |
Phase | 3 Phase |
Working Voltage | AC380V +-15% |
Power Factor | 0.93 |
Efficiency | 0.85 |
Weight | 42 kg |
Dimension (L x B x H) | 670 x 320 x 640 mm |
Product Type | New |
Duty Cycle | 60% |
Protection Class | IP21 |
Brand | Rilon |
Model | MIG-250 |
Welding Current Range | 50-250A |
Power Consumption | 12.1 kVA |
Phase | Single Phase |
Working Voltage | AC220V+-15% |
Power Factor | 0.73 |
Efficiency | 0.80 |
Weight | 33 kg |
Dimension (L x B x H) | 655 x 300 x 665 mm |
Duty Cycle | 60% |
Protection Class | IP21 |