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Our Services

DESTRUCTIVE TESTING
 

Destructive Testing (DT) is a critical method in metallurgy used to assess a material's physical properties by pushing it to the point of failure. This testing process is essential for understanding how materials perform under various stress and strain conditions. By analyzing the material's behavior during these tests, we can identify its performance characteristics, which are crucial for ensuring the reliability and safety of products in their intended applications.
 

At ASR Metallurgy, we offer a comprehensive range of Destructive Testing services, including:​

  • Chemical Testing: Identifying the composition and quantifying the individual elements within a material, crucial for determining properties like strength, durability, and corrosion resistance.

  • Mechanical Testing: Evaluating a material's response to mechanical forces, such as tension, compression, and bending, to ensure it meets the required performance standards.

  • Metallurgy Testing: Studying the physical structure and components of metals, often using microscopy, to understand their properties and predict their behavior under different conditions.

  • Corrosion Testing: Assessing a material's resistance to various forms of corrosion, including pitting, crevice corrosion, and stress corrosion cracking, to ensure its longevity in harsh environments.​

CHEMICAL TESTING

Chemical testing is essential in identifying and quantifying the individual elements within a material. This process is crucial in determining the properties of metals and alloys, such as strength, durability, and resistance to corrosion. In the metallurgical industry, chemical testing ensures that materials meet specific standards and are suitable for their intended applications. Various techniques are employed in this process, with Optical Emission Spectroscopy (OES) being one of the most prevalent methods, allowing for precise measurements of elements in a wide range of metal samples.

Chemical Testing Services at ASR Metallurgy

1. Chemical Analysis of Low Carbon Steel

  • Test Methods: IS:8811-2018, ASTM E415:2021

  • Description: This test determines the precise elemental makeup of low carbon steel, ensuring its suitability for its intended applications.

  • Equipment Used: Optical Emission Spectroscopy (OES)

2. Chemical Composition of Cast Iron

  • Test Method: ASTM E1999:2018

  • Description: This test reveals the chemical composition of cast iron, which is critical for assessing its mechanical properties and quality.

  • Equipment Used: Optical Emission Spectroscopy (OES)

3. Chemical Analysis of Tool Steel

  • Test Method: JIS 1253:2013

  • Description: This analysis identifies the elemental constituents of tool steel, ensuring its performance in demanding conditions.

  • Equipment Used: Optical Emission Spectroscopy (OES)

4. Chemical Composition of Stainless Steel

  • Test Method: IS 9879:1998

  • Description: This test assesses the chemical stability and corrosion resistance of stainless steel, which is crucial for its varied uses.

  • Equipment Used: Optical Emission Spectroscopy (OES)

5. Chemical Composition of Aluminium Alloys

  • Test Methods: IS 11035:2014, ASTM E1251:2017

  • Description: This test verifies the composition of aluminium alloys, key to their lightweight and high-strength characteristics.

  • Equipment Used: Optical Emission Spectroscopy (OES)

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