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Inconel 738 plates is a high-temperature, nickel-based superalloy known for its exceptional strength, oxidation resistance, and durability at elevated temperatures. Inconel 738 plates are a popular form of this alloy, widely used in various industries that demand reliable performance under extreme conditions.

Inconel 738 plates primarily consist of nickel, chromium, cobalt, and small amounts of other elements such as aluminium, titanium, and tantalum. The precise composition may vary slightly depending on the manufacturer and application requirements. Combining these elements imparts unique properties to Inconel 738 plates, making it suitable for high-stress, high-temperature environments.

One of the key attributes of Inconel 738 plates is their remarkable strength at elevated temperatures. This makes them ideal for applications in aerospace, gas turbine engines, and industrial processes where materials are exposed to extreme heat. The alloy retains its structural integrity and mechanical properties at temperatures exceeding 1000°C (1832°F), providing a reliable solution for components subjected to intense thermal stress.

Chemical Composition of Inconel 738 Plates

Explore the Chemical Composition of Inconel 738 Plates, crucial for understanding their properties and applications.

ElementAmount
Chromium (Cr)16%
Cobalt (Co)8.5%
Aluminum (Al)3.4%
Titanium (Ti)3.4%
Tungsten (W)2.6%
Molybdenum (Mo)1.8%
Iron (Fe)0.5%
Silicon (Si)0.3%
Manganese (Mn)0.2%
Carbon (C)0.17%

Inconel 738 Plates feature a tailored chemical composition, enhancing strength, corrosion resistance, and applicability across various uses.

Properties of Inconel 738 Plates:

1. High-Temperature Strength: Inconel 738 plates exhibit remarkable strength at elevated temperatures, making them suitable for applications in environments where other materials would fail.

2. Corrosion Resistance: These plates offer excellent resistance to corrosion and oxidation, even in harsh chemical and high-temperature environments. This property makes them suitable for use in aerospace, power generation, and chemical processing industries.

3. Creep Resistance: Inconel 738 plates demonstrate exceptional resistance to creep deformation, ensuring structural integrity even under prolonged exposure to high temperatures and stress.

4. Wear Resistance: The alloy composition of Inconel 738 plates provides good resistance to wear and abrasion, enhancing its durability and longevity in demanding operating conditions.

5. Fatigue Strength: With its high fatigue strength, Inconel 738 plates can withstand cyclic loading and prolonged use without experiencing premature failure.

Fabrication Methods:

Inconel 738 plates are typically manufactured using advanced metallurgical processes such as vacuum induction melting (VIM) or vacuum arc remelting (VAR) to ensure high purity and uniformity of the alloy composition. These plates can be further processed through hot rolling, cold rolling, or hot forging to achieve the desired dimensions and mechanical properties.

Advanced machining techniques such as CNC milling and turning are employed to precision-cut Inconel 738 plates into various shapes and sizes according to specific application requirements. Additionally, heat treatment processes such as solution annealing and ageing are often employed to optimize the microstructure and mechanical properties of the material.

Applications of Inconel 738 Plates:

Inconel 738 plates find extensive applications in demanding environments where high-temperature strength, corrosion resistance, and excellent mechanical properties are essential. The primary applications include:

  • Aerospace Industry: Inconel 738 plates are widely used in the aerospace sector, particularly in manufacturing critical components for jet engines and gas turbines. These plates contribute to producing turbine blades, combustion chambers, and other parts subjected to extreme temperatures and mechanical stresses.
  • Gas Turbines: Due to its exceptional high-temperature strength and resistance to oxidation, Inconel 738 Plate is a preferred material for components in gas turbines. The plates are employed in turbine discs, blades, and other parts that operate at elevated temperatures, ensuring reliability and longevity in power generation and aviation applications.
  • Industrial Furnaces: Inconel 738 plates are utilized to construct industrial furnaces where resistance to high temperatures, thermal cycling, and corrosion are crucial. These plates contribute to the durability and performance of furnace components subjected to harsh operating conditions.
  • Chemical Processing: The corrosion resistance of Inconel 738 Plate makes it suitable for applications in chemical processing industries. It is used in vessels, reactors, and other equipment that handle corrosive chemicals at elevated temperatures.
  • Power Generation: Inconel 738 plates are vital in power generation applications, including components in steam turbines and other high-temperature environments within power plants.

Inconel 738 plates are versatile engineering materials renowned for their exceptional mechanical properties, high-temperature strength, and corrosion resistance. From aerospace to automotive industries, these plates play a crucial role in various applications where reliability and performance under extreme conditions are paramount. With ongoing advancements in metallurgy and manufacturing technologies, the utilization of Inconel 738 plates is expected to expand further across diverse industrial sectors in the coming years.

FAQ's for Inconel 738 Plates

Inconel 738 is a high-strength, corrosion-resistant nickel-chromium alloy with the following general characteristics:

 

  • Composition: The alloy contains approximately 58% nickel, 22% chromium, and small amounts of iron, niobium, and molybdenum.
  • Melting point: Inconel 738 has a melting point of approximately 1350°C (2460°F).
  • Density: The alloy has a density of approximately 8.19 g/cm3.
  • Thermal conductivity: Inconel 738 has a relatively high thermal conductivity of approximately 100 W/mK.
  • Thermal expansion: The alloy has a low coefficient of thermal expansion, which means that it expands very little when heated.
  • Tensile strength: Inconel 738 has a high tensile strength of approximately 1275 MPa (185 KSI).
  • Yield strength: The alloy has a high yield strength of approximately 930 MPa (135 KSI).
  • Elongation: Inconel 738 has a moderate elongation of approximately 30%.
  • Hardness: The alloy has a high Rockwell hardness of approximately C45.

 

Inconel 738 plates are thin Plates of this alloy used to fabricate various parts and components. They are typically available in thicknesses ranging from 3mm to 50mm and can be supplied in various sizes and finishes.

Inconel 738 is a high-strength, corrosion-resistant nickel-chromium alloy with the following mechanical properties:


  • Tensile strength: Inconel 738 has a high tensile strength of approximately 1275 MPa (185 KSI).
  • Yield strength: The alloy has a high yield strength of approximately 930 MPa (135 KSI).
  • Elongation: Inconel 738 has a moderate elongation of approximately 30%.
  • Hardness: The alloy has a high Rockwell hardness of approximately C45.
  • Impact resistance: Inconel 738 has excellent impact resistance and can withstand high levels of shock and vibration.
  • Creep resistance: The alloy has good creep resistance and can maintain its strength at high temperatures.
  • Fatigue resistance: Inconel 738 has excellent fatigue resistance and can withstand repeated loading and unloading without failing.

Inconel 738 is a high-strength, corrosion-resistant nickel-chromium alloy that is not readily interchangeable with other materials. However, there are a few alloys that have similar properties to Inconel 738 and can be used as substitutes in some applications:


  • Inconel 718: This alloy is similar to Inconel 738 in terms of its strength and corrosion resistance, but it has a lower melting point and is easier to work with.
  • Nimonic 80A: This alloy is also similar to Inconel 738 in terms of its strength and corrosion resistance, but it has a lower melting point and is easier to machine.
  • PH 13-8 Mo: This alloy is similar to Inconel 738 in terms of its strength and corrosion resistance, but it has a lower melting point and is easier to machine.


It is important to note that these alloys may not have the exact same properties as Inconel 738 and may not be suitable for all applications.

Inconel 738 is a high-strength, corrosion-resistant nickel-chromium alloy with the following approximate chemical composition:


  • Nickel: 58%
  • Chromium: 22%
  • Iron: 18%
  • Molybdenum: 1.5%
  • Niobium: 0.5%


This alloy may also contain trace amounts of other elements, such as carbon, silicon, manganese, phosphorus, sulfur, and aluminium.

738 Inconel plates start from INR 1,800/Kilogram to INR 2,500/Kilogram.

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