We Are Manufacturer, Supplier Of Copper Brazing Alloys, Brazing Products, Brazing Equipments, Brazing Rods and our set up is situated in Pune, Maharashtra, India.We Are Manufacturer, Supplier Of Copper Brazing Alloys, Brazing Products, Brazing Equipments, Brazing Rods and our set up is situated in Pune, Maharashtra, India.

At its core, a copper brazing alloy is made up of copper, zinc, and sometimes silver. The exact composition of the alloy will depend on the intended use, with different alloys offering different melting points, flow properties, and other key characteristics.

Applications of Copper Brazing Alloys

Copper brazing alloys are used in many applications that require the joining of two or more metal parts. These alloys are often used in industries such as:

Automotive: Copper brazing alloys are used to join components in automotive engines, transmissions, and air conditioning systems. These alloys offer excellent flow properties and good mechanical strength, making them ideal for use in high-stress environments.

HVAC: Copper brazing alloys are widely used in the HVAC industry to join copper piping and other components. These alloys offer excellent corrosion resistance and high thermal conductivity, making them ideal for use in heating and cooling systems.

Aerospace: Copper brazing alloys are used in the aerospace industry to join components in engines, turbines, and other critical systems. These alloys offer excellent mechanical strength and resistance to high temperatures and corrosion, making them ideal for use in extreme environments.

Types of Copper Brazing Alloys

There are several different types of copper brazing alloys available, each with its unique properties and characteristics. Some of the most common types of copper brazing alloys include:

Phosphorus-Copper Brazing Alloys: These alloys are made by adding phosphorus to copper and are often used in brazing copper and brass components. Phosphorus-copper brazing alloys offer good fluidity and are easy to use, making them ideal for general-purpose brazing applications.

Silver-Copper Brazing Alloys: These alloys are made by adding silver to copper and are often used in high-temperature applications. Silver-copper brazing alloys offer excellent strength and resistance to corrosion and oxidation, making them ideal for use in the aerospace and power generation industries.

Nickel-Copper Brazing Alloys: These alloys are made by adding nickel to copper and are often used in brazing stainless steel and other high-temperature alloys. Nickel-copper brazing alloys offer excellent strength and corrosion resistance and are often used in the aerospace and defense industries.

Aluminum-Copper Brazing Alloys: These alloys are made by adding aluminum to copper and are often used in brazing aluminum and aluminum alloys. Aluminum-copper brazing alloys offer excellent corrosion resistance and are often used in the automotive and aerospace industries.

Advantages of Copper Brazing Alloys

Copper brazing alloys offer several advantages over other joining methods, including:

Excellent Strength: Copper brazing alloys offer excellent mechanical strength, making them ideal for use in high-stress environments.

Corrosion Resistance: Copper brazing alloys offer excellent resistance to corrosion, making them ideal for use in harsh environments.

High Thermal Conductivity: Copper brazing alloys offer high thermal conductivity, making them ideal for use in heating and cooling systems.

Easy to Use: Copper brazing alloys are easy to use and can be applied using a variety of methods, including torch brazing, furnace brazing, and induction brazing.

Choosing the Right Copper Brazing Alloy

Choosing the right copper brazing alloy for your application requires careful consideration of several key factors, including:

Joint Design: The design of the joint and the materials being joined will impact the choice of brazing alloy.

Operating Conditions: The operating conditions of the application, including temperature, pressure, and environment


Copper Brazing Alloys

Copper Brazing Alloys

 

KRANTI CODE Composition % By Weight Melting Range
- Ag Cu P Solids Liquids
KM14 15 80.2 4.8 643 802
KM5 5.5 88.2 6.3 643 802
KM2.1 2 91.5 6.5 645 740
KM2.7 2.7 90.7 6.6 640 760
KMCu - 93.5 6.5 705 800