Product Details:
Minimum Order Quantity | 1 Onwards |
Brand | Esab |
Gas | CNG |
Regulator Type | High Pressure Regulator |
Material | Mild Steel, Glass |
Usage/Application | Industrial |
Media | Gas |
Product Details:
Minimum Order Quantity | 1 Unit |
Model | FRT |
Material | Brass |
Brand | Esab |
Oxygen | 15 bar |
Hydrogen | 35 bar |
Country of Origin | Made in India |
A flashback arrestor is a safety device used in welding and cutting processes to prevent the potentially hazardous occurrence of a flashback. A flashback is a situation where the flame from a torch or welding/cutting equipment travels back into the hoses and potentially reaches the gas sources, leading to an explosion.
Here's how a flashback arrestor works and its key features:
Preventing Reverse Flow: Flashback arrestors are typically installed on the hoses that connect the welding or cutting torch to the gas supply sources. They contain specialized internal components that allow gas flow in one direction (towards the torch) but prevent reverse flow (towards the gas cylinders).
Flame Arrestor: Inside the flashback arrestor, there is a flame arrestor element, which is designed to extinguish any flashback flame that may occur. This element is usually made of fine mesh or porous material that disrupts the flame front and prevents it from traveling further into the gas hoses.
Check Valve: Flashback arrestors often incorporate a check valve mechanism that only allows gas flow in the intended direction. This check valve ensures that gases cannot flow backward into the hoses, reducing the risk of a flashback.
Temperature Sensors: Some advanced flashback arrestors may include temperature sensors or thermal cutoff devices. These sensors can detect abnormally high temperatures associated with a flashback and trigger the arrestor to shut off the gas flow, further mitigating the risk of an explosion.
Compatibility: Flashback arrestors are designed for specific types of gases used in welding and cutting processes, such as acetylene, oxygen, propane, or other fuel gases. It's essential to use flashback arrestors that are compatible with the gases being used to ensure proper operation and safety.
Regulatory Compliance: In many regions, the use of flashback arrestors is required by safety regulations and standards governing welding and cutting operations. It's important to select flashback arrestors that meet relevant safety standards and are certified for use in specific applications.
Product Details:
Usage/Application | Industrial |
Phase | Single Phase |
Brand | Esab |
Voltage | 220-240 V |
Automation Grade | Automatic |
Frequency | 50-60 Hz |
Country of Origin | Made in India |
Product Details:
Minimum Order Quantity | 1 Unit |
Torch Type | Cutting torch |
Brand | Esab |
Fuel Gas Type | Oxy-Acetylene |
Material | Brass |
Automation Grade | Automatic |
Country of Origin | Made in India |
Product Details:
Minimum Order Quantity | 1 Unit |
Type | Pressure Padel |
Material | Mild Steel |
Brand | Esab |
Size | 8/64 inches |
Diameter | 5-12 mm |
Country of Origin | Made in India |
Product Details:
Minimum Order Quantity | 1 Unit |
Fuel Gas Type | LPG |
Torch Type | Brazing Torch |
Automation Grade | Automatic |
Brand | Esab |
Material | Mild Steel |
Country of Origin | Made in India |
A brazing torch is a tool used in metalworking and welding processes to join two or more metal pieces together by melting and flowing a filler metal into the joint. Brazing is similar to soldering but typically involves higher temperatures and creates stronger joints.
Here are the key components and features of a typical brazing torch:
Handle: The handle of the torch provides a grip for the user and may incorporate features such as a trigger for controlling the flow of gas or the ignition mechanism.
Gas Inlet: Brazing torches are typically fueled by gases such as acetylene, propane, or natural gas, which are supplied through a hose connected to the torch handle. The gas inlet allows for the attachment of the gas supply line.
Gas Mixing Chamber: Inside the torch handle, the incoming fuel gas is mixed with oxygen or air to create a combustible mixture suitable for producing a flame.
Ignition Mechanism: Many brazing torches feature a built-in ignition mechanism, such as a piezoelectric igniter or a striker, to ignite the gas mixture and produce the flame.
Nozzle or Tip: The nozzle or tip of the torch directs the flame onto the workpiece, heating the metal surfaces to the temperature required for brazing. Different tips may be available for achieving various flame sizes and shapes.
Heat Control: Some brazing torches allow the user to adjust the flame temperature and intensity using controls on the torch handle. This feature enables precise control over the brazing process, particularly when working with different types of metals and filler materials.
Safety Features: Brazing torches may incorporate safety features such as flame guards, flashback arrestors, and automatic shutoff mechanisms to prevent accidents and ensure safe operation.
Hoses and Regulators: In addition to the torch itself, brazing setups typically include hoses to deliver fuel gas and oxygen from the regulators to the torch. Regulators control the flow and pressure of these gases to maintain a consistent flame.
Product Details:
Minimum Order Quantity | 1 Piece |
Gas | LPG |
Brand | Esab |
Regulator Type | Clip on Regulator |
Material | Mild Steel, Glass |
Usage/Application | Industrial |
Single Stage | IDA 4 B |
Double Stage | DURA Series/IDA 50 B/EDGE series |
An oxygen regulator is a crucial component of any oxy-fuel welding or cutting setup. It controls the flow of oxygen from the high-pressure cylinder to the torch, ensuring a consistent and accurate supply of oxygen for the welding or cutting process. Here are the key features and functions of an oxygen regulator:
Pressure Regulation: The primary function of an oxygen regulator is to reduce the high pressure from the cylinder (often in the range of 2000-2500 psi or higher) to a lower, more manageable pressure suitable for welding or cutting operations. Typical working pressures for oxygen in oxy-fuel applications range from 20 to 60 psi, depending on the specific process and materials being worked with.
Flow Control: Oxygen regulators feature a flow control knob or valve that allows the operator to adjust the rate at which oxygen flows from the regulator to the torch. This adjustment is critical for achieving the desired flame characteristics and controlling the intensity of the oxy-fuel flame.
Gauges: Oxygen regulators are equipped with pressure gauges that indicate both the cylinder pressure (in psi or bar) and the outlet pressure (working pressure) set by the regulator. These gauges provide essential information to the operator, ensuring that the system is functioning correctly and that the desired pressure levels are maintained.
Safety Features: Many oxygen regulators include built-in safety features to protect against overpressure conditions and ensure safe operation. These may include relief valves that release excess pressure, burst disks that rupture in case of extreme pressure buildup, and color-coded pressure adjustment knobs to prevent accidental adjustments.
Inlet and Outlet Connections: Oxygen regulators are typically equipped with standard inlet and outlet connections to facilitate easy installation and compatibility with other components of the oxy-fuel system. Common inlet connection types include CGA-540 for standard oxygen cylinders and CGA-870 for medical oxygen cylinders.
Materials and Construction: Oxygen regulators are constructed from materials that are compatible with high-pressure oxygen, such as brass or stainless steel, to ensure durability and safety. They undergo stringent testing and certification processes to meet industry standards for performance and reliability.
Application Specificity: Oxygen regulators are available in various configurations and pressure ranges to suit different oxy-fuel welding, cutting, and brazing applications. For example, regulators designed for cutting operations may have higher flow rates and pressure settings compared to those used for welding or brazing.
Product Details:
Minimum Order Quantity | 1 Unit |
Material | Mild Steel, Glass |
With Tube | Yes |
Brand | Esab |
Single stage | ICO 32B CO2 regulator |
Double stage | DURA CO 2 Regulator/EDGE series |
Country of Origin | Made in India |
Product Details:
Minimum Order Quantity | 1 piece |
Gas | LPG |
Regulator Type | Clip on Regulator |
Material | Mild Steel, Glass |
Usage/Application | Industrial |
Brand | Esab |
Single stage | LPG 18B Regulator |
ESAB is a well-known manufacturer of welding equipment and consumables, including welding wires. ESAB welding wires are used in various welding processes such as MIG/MAG welding, TIG welding, and flux-cored arc welding (FCAW).
Here are some key features and types of ESAB welding wires:
Solid MIG/MAG Welding Wires: These wires are used in gas metal arc welding (GMAW), also known as MIG (Metal Inert Gas) or MAG (Metal Active Gas) welding. They consist of a solid metal wire electrode that is fed continuously through the welding gun along with a shielding gas to protect the weld pool from atmospheric contamination. ESAB offers a wide range of solid wires suitable for different base metals, welding positions, and applications.
Flux-Cored Arc Welding (FCAW) Wires: Flux-cored wires are tubular electrodes filled with flux materials that provide a shielding gas and slag system during welding. They are commonly used in applications where high deposition rates and deep penetration are required, such as welding thick materials or in outdoor welding environments where wind may blow away shielding gas. ESAB produces flux-cored wires for both mild steel and stainless steel welding.
TIG Welding Rods: Tungsten inert gas (TIG) welding, also known as gas tungsten arc welding (GTAW), uses a non-consumable tungsten electrode to produce the weld. ESAB offers a range of TIG welding rods made from various alloys, including stainless steel, aluminum, and specialty metals, suitable for welding a wide variety of materials with high precision and quality.
Submerged Arc Welding (SAW) Wires: Submerged arc welding is a high-deposition rate welding process that uses a continuously fed electrode and a granular flux to protect the weld from atmospheric contamination. ESAB provides submerged arc welding wires for welding applications such as shipbuilding, pressure vessel fabrication, and structural steel construction.
Metal-Cored Wires: Metal-cored wires are a type of flux-cored wire that combines the high deposition rates of flux-cored wires with the high-quality welds and low spatter levels of solid wires. ESAB offers metal-cored wires designed for various welding applications, including automotive manufacturing, pipe welding, and heavy equipment fabrication.
ESAB welding wires are known for their high quality, consistency, and reliability
Product Details:
Minimum Order Quantity | 1 Piece |
Gas | Hydrogen |
Regulator Type | Clip on Regulator |
Usage/Application | Industrial |
Media | Gas |
Material | Mild Steel, Gas |
Brand | Esab |
Single Stage | DURA Series/ISG 43 Series |
Product Details:
Single Stage | IOX 13 B |
Double Stage | DURA Series / IOX 63 B Series |
Material | Mild Steel, Glass |
Brand | Esab |
An oxygen regulator is a crucial component of any oxy-fuel welding or cutting setup. It controls the flow of oxygen from the high-pressure cylinder to the torch, ensuring a consistent and accurate supply of oxygen for the welding or cutting process. Here are the key features and functions of an oxygen regulator:
Pressure Regulation: The primary function of an oxygen regulator is to reduce the high pressure from the cylinder (often in the range of 2000-2500 psi or higher) to a lower, more manageable pressure suitable for welding or cutting operations. Typical working pressures for oxygen in oxy-fuel applications range from 20 to 60 psi, depending on the specific process and materials being worked with.
Flow Control: Oxygen regulators feature a flow control knob or valve that allows the operator to adjust the rate at which oxygen flows from the regulator to the torch. This adjustment is critical for achieving the desired flame characteristics and controlling the intensity of the oxy-fuel flame.
Gauges: Oxygen regulators are equipped with pressure gauges that indicate both the cylinder pressure (in psi or bar) and the outlet pressure (working pressure) set by the regulator. These gauges provide essential information to the operator, ensuring that the system is functioning correctly and that the desired pressure levels are maintained.
Safety Features: Many oxygen regulators include built-in safety features to protect against overpressure conditions and ensure safe operation. These may include relief valves that release excess pressure, burst disks that rupture in case of extreme pressure buildup, and color-coded pressure adjustment knobs to prevent accidental adjustments.
Inlet and Outlet Connections: Oxygen regulators are typically equipped with standard inlet and outlet connections to facilitate easy installation and compatibility with other components of the oxy-fuel system. Common inlet connection types include CGA-540 for standard oxygen cylinders and CGA-870 for medical oxygen cylinders.
Materials and Construction: Oxygen regulators are constructed from materials that are compatible with high-pressure oxygen, such as brass or stainless steel, to ensure durability and safety. They undergo stringent testing and certification processes to meet industry standards for performance and reliability.
Application Specificity: Oxygen regulators are available in various configurations and pressure ranges to suit different oxy-fuel welding, cutting, and brazing applications. For example, regulators designed for cutting operations may have higher flow rates and pressure settings compared to those used for welding or brazing.
Product Details:
Brand | Esab |
Gas | LPG |
Regulator Type | Clip on Regulator |
Material | Mild Steel, Glass |
Country of Origin | Made in India |