NT5108 Nickel-Based Brazing Alloy Powder (BNi-2)

Nickel-Based Brazing Alloy Powder (BNi-2) Description

Nickel-Based Brazing Alloy Powder is a brazing material primarily composed of nickel, along with elements such as copper, chromium, and boron. BNi-2 Powder is a low-melting, free-flowing filler metal known for its excellent strength. It contains less chromium than BNi-1, resulting in a lower melting point range.

Nickel-Based Brazing Alloy Powder is renowned for its high strength, excellent corrosion resistance, and ability to create strong metallurgical bonds between base metals. It is particularly well-suited for brazing thick parts made of stainless steel, nickel-based, and cobalt-based alloys.

Nickel-Based Brazing Alloy Powder (BNi-2) Specifications

Chemical Composition (%)

Nickel-Based Brazing Alloy Powder (BNi-2) Applications

Nickel-Based Brazing Alloy Powder (BNi-2) is used in furnace brazing aircraft, munition, food processing, and other commercial components subject to high temperatures and stress conditions.

Nickel-Based Brazing Alloy Powder (BNi-2) Packaging

Our Nickel-Based Brazing Alloy Powder (BNi-2) is carefully handled during storage and transportation to preserve the quality of our product in its original condition.

FAQ: Nickel-Based Brazing Alloy Powder

1. What is Nickel-Based Brazing Alloy Powder?

Nickel-Based Brazing Alloy Powder is a powdered form of an alloy containing nickel as the primary metal. These alloys typically include other elements such as boron, silicon, or phosphorus to enhance flow characteristics, strength, and resistance to oxidation. Nickel-based brazing alloys are commonly used for high-temperature applications, especially where excellent strength, corrosion resistance, and thermal conductivity are required.

2. What are the typical applications of Nickel-Based Brazing Alloy Powder?

Nickel-Based Brazing Alloy Powders are used in a variety of applications, including: Brazing of High-Temperature Alloys: These powders are used in brazing high-temperature metal parts, such as turbine blades, heat exchangers, and other components in the aerospace and power generation industries.

Automotive: In automotive manufacturing, these powders are used to join parts made from high-strength steel and other materials.

Electronics: They are used to bond metals in electronic components that need to perform under high stress or temperature conditions.

Aerospace: Applied in the aerospace industry to join components exposed to high thermal and mechanical stresses.

Repair and Maintenance: Used in repairing damaged or worn parts that are exposed to high heat, such as engine components.

3. What are the key benefits of using Nickel-Based Brazing Alloy Powder?

High-Temperature Resistance: Nickel-based alloys offer superior strength and stability at elevated temperatures, making them ideal for high-stress applications.

Corrosion and Oxidation Resistance: They provide excellent resistance to corrosive environments, particularly in industries like aerospace, automotive, and power generation. Good Flow Characteristics: The alloys typically have low melting points and excellent fluidity, enabling smooth bonding between materials.

Durability: These alloys produce joints that can withstand mechanical and thermal stresses over long periods, increasing the lifespan of components.