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Alloy G-30 Powder

Alloy G-30 Powder: Overview Alloy G-30 Powder is highly esteemed for its exceptional corrosion resistance, high strength, and versatility, making it indispensable in various demanding environments. Its unique combination of properties makes it suitable for applications where resistance to harsh chemical environments is paramount. Composition Alloy G-30 Powder is meticulously crafted with precise alloying elements:…

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Alloy G-30 Powder: Overview

Alloy G-30 Powder is highly esteemed for its exceptional corrosion resistance, high strength, and versatility, making it indispensable in various demanding environments. Its unique combination of properties makes it suitable for applications where resistance to harsh chemical environments is paramount.

Composition

Alloy G-30 Powder is meticulously crafted with precise alloying elements:

Element Weight %
Nickel (Ni) 50.0-55.0
Chromium (Cr) 14.0-17.0
Molybdenum (Mo) 15.0-17.0
Iron (Fe) 5.0-7.0
Cobalt (Co) 2.5 max
Tungsten (W) 2.5 max
Copper (Cu) 1.0-2.5
Vanadium (V) 0.35 max
Carbon (C) 0.03 max
Silicon (Si) 0.08 max
Phosphorus (P) 0.020 max
Sulfur (S) 0.010 max

Properties

Alloy G-30 Powder boasts outstanding properties:

Property Value
Density 8.22 g/cm³
Tensile Strength 760 MPa (min)
Yield Strength 350 MPa (min)
Elongation 40% (min)
Hardness (HRB) 92 HRB
Melting Point 1360-1415°C
Thermal Conductivity 10.3 W/m·K
Electrical Resistivity 1.25 µΩ·m

Applications

Alloy G-30 Powder finds extensive applications in the chemical processing, pharmaceutical, and pollution control industries for components like reactor vessels, heat exchangers, and scrubber systems.

Additive Manufacturing Process

Produced through gas or plasma atomization processes, Alloy G-30 Powder is suitable for additive manufacturing techniques such as powder bed fusion and directed energy deposition.

Powder Specifications

Available in various size ranges, morphologies, and quality levels, Alloy G-30 Powder meets specific application requirements.

Standards and Grades

Alloy G-30 Powder complies with industry standards like ASTM B582, ensuring quality and suitability for diverse applications.

Quality Control

Stringent quality control measures, including chemical and particle size analysis, ensure the consistency and reliability of Alloy G-30 Powder.

Cost Analysis

The cost of Alloy G-30 Powder varies depending on factors such as volume, particle size range, and market conditions.

Powder Storage And Handling

Proper storage in sealed containers and adherence to handling protocols are essential to maintain the integrity of Alloy G-30 Powder.

Health And Safety

Alloy G-30 Powder poses minimal health risks but requires the use of personal protective equipment during handling and processing.

FAQ

  1. What are the main advantages of Alloy G-30 Powder? Alloy G-30 Powder offers exceptional corrosion resistance, high strength, and versatility, making it ideal for applications in harsh chemical environments.
  2. Can Alloy G-30 Powder be used in additive manufacturing? Yes, Alloy G-30 Powder is commonly used in additive manufacturing techniques such as powder bed fusion and directed energy deposition to produce components with superior corrosion resistance and mechanical properties.
  3. Is Alloy G-30 Powder suitable for reactor vessel applications? Yes, Alloy G-30 Powder is widely used in reactor vessels due to its excellent corrosion resistance and high strength.
  4. What are the typical costs associated with Alloy G-30 Powder? Costs for Alloy G-30 Powder vary based on factors such as volume, particle size range, powder morphology, purity levels, and market conditions.

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