A conversion table is particularly useful to provide a standardized way to compare results from different tests, ensuring consistency across different testing methods and industries (the data provided below is an approximation).

In materials science and engineering, hardness testing is crucial for evaluating a material’s resistance to deformation, which directly impacts its durability, wear resistance, and performance across various applications. Understanding a material’s hardness is essential for determining its suitability for specific tasks.

The Rockwell test is particularly suited for harder materials like steels and alloys, where smaller indentations and the precision of measuring indentation depth offer reliable results. It also requires less operator skill and reduces the likelihood of human error compared to other methods, such as Brinell, making it a preferred choice in production settings where speed and ease of use are crucial.

Although this table only represents metal hardness testing, polymers and elastomers can also be tested using slightly different testing methods (e.g. Shore hardness).

Material hardnesschart

The Knoop hardness number (HK) is calculated based on the load and the area of the indentation, with longer indentations indicating softer materials and shorter indentations indicating harder materials. This test is particularly suited for brittle materials and thin coatings.

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Material hardnesspdf

The Brinell hardness test measures material hardness by determining the diameter of an indentation made by a hardened steel or carbide ball under a specific load. A load, typically ranging from 500 to 3,000 kgf, is applied to the material’s surface for 10-15 seconds, allowing the ball to penetrate and create an indentation.

The Knoop test is particularly suited for very brittle materials or applications requiring precise hardness measurements in small areas, such as the cross-sections of coatings, microstructures, or very thin films, where deeper indentations from the Vickers test might cause cracking or fracture.

The Leeb hardness test measures material hardness by determining the rebound velocity of a tungsten carbide ball after it impacts the material’s surface under a specific impact energy. The test typically uses a probe that delivers an impact energy ranging from 9.8 mJ to 74.5 mJ, depending on the probe type.

Hardnessof materials examples

After the ball strikes the material, the rebound velocity is measured, and the HL is calculated based on the ratio of rebound to impact velocity. A higher rebound velocity indicates a harder material, while a lower rebound velocity indicates a softer material. This test is portable and ideal for testing large, heavy components on-site.

The Leeb test is versatile, accommodating various materials and hardness levels with different probes and impact energies. It provides quick, direct hardness readings with minimal setup and operator skill, making it efficient for applications requiring speed, ease of use, and field testing capabilities.

Material hardnesstest

The Vickers hardness test is a versatile and precise method suitable for a wide range of materials, from soft metals to hard ceramics, and is especially valuable for micro hardness testing requiring small, accurate measurements. It uses a diamond pyramid indenter, creating a consistent indentation regardless of material hardness, which ensures highly accurate results.

Hardnessdefinition engineering

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Below is a quick reference chart comparing the different hardness test methods in terms of suitable materials, advantages and disadvantages, applications, load range, indentation type and applicable standards.

After the load is removed, the diameter of the indentation is measured using a microscope. The Brinell hardness number is calculated based on the load applied and the surface area of the indentation, with larger diameters indicating softer materials and smaller diameters indicating harder materials.

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Knoop Hardness Number (HK) tests can be performed with loads ranging from 10 gf to 1,000 gf, allowing for detailed hardness analysis of brittle materials and thin coatings.

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Unlike the Brinell test, suited for materials with coarse grain structures, or the Rockwell test, ideal for quick, high-volume testing, the Vickers method excels in testing very small or thin specimens and provides detailed microhardness data. This makes it particularly useful in research, material science, and applications requiring fine detail and precision.

Steelmaterial hardness

Leeb Hardness Number (HL) tests can be conducted under various impact energies, typically ranging from 5.5 mJ (D type probe) to 74.5 mJ (G type probe) depending on the probe used.

The Knoop hardness test is a microhardness test designed for brittle materials like ceramics and glass, as well as for small or thin metal sections. It uses an elongated diamond-shaped indenter to create a shallow, narrow indentation, ideal for measuring hardness on thin layers or coatings at a micro scale without causing excessive damage.

What ishardness

The Rockwell hardness test is a widely used method for determining material hardness, especially in high-volume testing environments, due to its speed, simplicity, and efficiency. It provides direct hardness readings without the need for additional calculations, making it ideal for routine quality control.

Brinell is particularly useful for testing softer materials or when a larger indentation area is needed for analysis. In contrast, Rockwell testing is better suited for harder materials and scenarios requiring quick, direct readouts, but may be less accurate for materials with varying microstructures.

The Brinell hardness test is ideal for measuring the hardness of metals with coarse or inhomogeneous grain structures, such as cast iron and softer metals like aluminum alloys. It measures the diameter of a larger indentation, which averages out variations in the material’s microstructure, providing a more representative hardness value for materials with non-uniform properties.

The Leeb Hardness Test, also known as the rebound hardness test, measures hardness by analyzing the rebound of an indenter, rather than the size of an indentation. It is portable and ideal for on-site testing of large and heavy components, offering a non-destructive method that causes minimal damage to finished parts and coatings.

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*The unit “kgf” stands for kilogram-force. It is a unit of force defined as the force exerted by one kilogram of mass in a gravitational field with a standard acceleration due to gravity (9.80665 m/s²). In the context of hardness testing, “kgf” is used to specify the load applied to the indenter. For example, a load of 10 kgf means a force equivalent to 10 kilograms is applied.

The HV is calculated based on the applied load and the area of the indentation. Smaller indentations indicate harder materials, while larger indentations indicate softer materials, with the test being particularly useful for precise hardness measurements across a wide range of materials.

The Rockwell hardness number, automatically calculated by the testing machine, reflects this depth—higher values indicate harder materials with shallower indentations, while lower values correspond to softer materials with deeper indentations.

This concise breakdown aids in selecting the appropriate testing method for different materials, ensuring accurate and reliable measurements.

The Vickers hardness test measures material hardness by determining the size of an indentation made by a diamond pyramid-shaped indenter under a specific load. A load ranging from 1 gf to 100 kgf is applied to the material’s surface, creating a square-shaped indentation. After the load is removed, the diagonals of the indentation are measured using a microscope.

HV (Vickers Hardness Number) testing can be performed under loads ranging from 1 gf to 100 kgf. The versatility in load range allows it to be used for micro to macro hardness testing.

Material hardnessunit

The Rockwell hardness test involves applying a sequence of loads to the material and measuring the depth of the resulting indentation, which indicates the material’s hardness. Here’s a step-by-step of the process:

The most frequently referenced hardness tests in material datasheets are Rockwell, Brinell, and Vickers, with Rockwell being the most prevalent due to its quick and straightforward process, especially in industrial settings. Leeb, and Knoop hardness tests have specialized uses and are less commonly cited in standard material datasheets due to their specific applications and testing environments.

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The Knoop test measures material hardness by determining the length of an indentation made by an elongated diamond-shaped indenter under a light load. The load, typically ranging from 10 gf to 1,000 gf, is applied to the material’s surface, creating a small, elongated indentation. After the load is removed, the length of the indentation’s long diagonal is measured using a microscope.

Hardness testing is a fundamental practice in materials science and engineering, providing crucial insights into a material’s resistance to deformation and its overall durability. By understanding the differences among various hardness testing methods, you can select the right hardness test method for a specific metal, leading to more informed material choices and better performance in real-world applications.

The following table provides an overview of various materials, including metals, along with the corresponding hardness testing methods applicable to each. The table categorizes materials based on their ability to undergo specific hardness tests, such as Rockwell, Brinell, Vickers, and others.

The values below are estimated based on widely accepted conversion references such as ASTM E140, which provides guidelines for converting hardness numbers between various scales like Rockwell, Brinell, and Vickers. The exact values can vary slightly depending on the material and specific testing conditions. If a number falls between two hardness values, simply interpolate results to obtain an estimate.