Premium Forging Metals

Explore our premium forging metals for superior strength and durability. Elevate your products with our high-quality, specialized alloys

Indira

Stainless Steel Forging

Stainless steel forging is a precision manufacturing method that involves the deformation of stainless steel using localized compressive forces. Through controlled pressure and shaping, the stainless steel undergoes a transformation, improving its structural integrity and performance characteristics.

Advantages :
Enhanced Strength
Corrosion Resistance
Improved Micro-Structure

Applications :
Aerospace - Critical components requiring high strength and resistance to extreme temperatures.
Automotive - Engine parts, shafts, and gears benefit from the durability and reliability of forged stainless steel.
Oil & Gas - Exploration and drilling equipment rely on its corrosion-resistant properties for longevity in harsh environments.

The forging process utilized by Indira Forge represents a pivotal method for crafting high-quality stainless steel components with unparalleled strength and corrosion resistance. This method's versatility across industries solidifies its position as a crucial process in modern manufacturing, ensuring reliability and longevity in demanding applications.

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Alumimium Forging

Aluminum forging stands as a precision manufacturing technique, shaping aluminum through compressive forces for optimal strength and versatility. This process refines the metal's structure, enhancing durability while maintaining a lightweight profile, ideal for diverse applications.

Advantages include:

Strength-to-Weight Ratio.
Corrosion Resistance.
Precision and Complexity.

This method of forging finds extensive use in aerospace, automotive, and industrial sectors, producing components like engine parts, structural elements, and specialized tools with superior strength and reliability

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Non-ferrous Forging

Non-ferrous forging, a precise metalworking process, shapes non-iron-based metals like bronze, copper, and titanium through compressive forces. This method enhances the metals’ mechanical properties, ensuring superior strength, corrosion resistance, and diverse applications.

Key benefits include:

Versatility
Enhanced Properties
Complexity and Precision
Improved strength, durability, and conductivity.

Non-ferrous forging produces critical components like aircraft parts, heat exchangers, and electrical connectors, meeting stringent quality standards while maintaining lightweight profiles. Its versatility and reliability make it a cornerstone in modern manufacturing for high-performance, non-ferrous metal applications

We, at Indira Forge, specialize in open die forging of bronze metals tailored specifically for defense industries. Our precision-driven method ensures top-quality components, meeting stringent industry standards

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Carbon Steel Forgings

Carbon steel forging involves shaping steel through compressive forces, enhancing its strength and durability. This process refines the steel's microstructure, ensuring superior mechanical properties and resistance to wear, making it ideal for various applications.

Key aspects include:

Strength and Toughness
Versatility
Corrosion Resistance

Carbon steel is broadly categorized into several types based on the carbon content and its specific application. Here are some common types:

Low Carbon Steel: Contains a low amount of carbon (up to 0.3%). Grades like 1018 and A36 offer good weldability and machinability, suitable for applications requiring bending, forming, or welding.

Medium Carbon Steel: Contains a higher carbon content (between 0.3% to 0.6%). Grades such as 1045 possess increased strength and hardness, used in machinery parts, axles, and gears.

High Carbon Steel: Contains higher carbon concentrations (above 0.6% to 1.5%). Grades like 1095 are known for exceptional hardness and edge retention, commonly found in knives, cutting tools, and springs.

Ultra-High Carbon Steel: With extremely high carbon content (above 1.5%), this steel type offers exceptional hardness and wear resistance, typically used in applications requiring extreme durability, like specialized machinery parts.

Each type of carbon steel exhibits distinct properties, making them suitable for various industrial and commercial applications across different sectors

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