Rockwell (HRC) vs Brinell (HB) hardness conversion

1. Hardness

Hardness is a performance indicator used to evaluate the softness or hardness of materials. There are many hardness testing methods, each with different principles, resulting in hardness values ​​and meanings that are not exactly the same.

The most common is the static load indentation hardness test, namely Brinell Hardness (HB), Rockwell Hardness (HRA, HRB, HRC), Vickers Hardness (HV) and plastic rubber hardness Shore Hardness (HA, HD ) between others . These hardness values ​​represent the resistance of the material's surface to being indented by a hard object.

The most popular Leeb Hardness (HL) and Shore Hardness (HS) belong to the rebound hardness test, their values ​​represent the magnitude of the elastic deformation work of the metal.

Therefore, hardness is not a pure physical quantity, but a comprehensive performance indicator that reflects the elasticity, plasticity, strength and toughness of the material.

2. Types of hardness

Steel Hardness

The code for metal hardness (Hardness) is H. Depending on the hardness testing method,

• It is typically represented as Brinell (HB), Rockwell (HRC), Vickers (HV), Leeb (HL), etc. hardness, with HB and HRC being the most commonly used.
• HB has a wide range of applications, while HRC is suitable for materials with high surface hardness such as heat-treated hardness. The difference between the two is in the different heads of the hardness testers, with the Brinell hardness tester using a steel ball and the Rockwell hardness tester using a diamond.
• HV is suitable for microscopic analysis. Vickers Hardness (HV) uses a load of up to 120kg and a diamond square cone indenter with a top angle of 136° pressed into the surface of the material. The Vickers Hardness (HV) value is calculated by dividing the surface area of ​​the indentation in the material by the load value.
• The easy-to-measure HL portable hardness tester uses a bouncing ball head to impact the hardness surface, producing a bounce. Using the relationship between the rebound speed of the impact head at 1 mm from the sample surface and the impact speed to calculate the hardness. The formula is: Leeb Hardness HL = 1000 × VB (Rebound Speed) / VA (Impact Speed).
• The most commonly used portable Leeb hardness tester can be converted to: Brinell (HB), Rockwell (HRC), Vickers (HV), Shore (HS) hardness after Leeb (HL) measurement. Or the hardness value is directly measured by Brinell (HB), Rockwell (HRC), Vickers (HV), Leeb (HL), Shore (HS) using Leeb principle.

HB – Brinell Hardness:

Brinell hardness (HB) is generally used when the material is softer, such as non-ferrous metals or steel before heat treatment or after annealing. Rockwell hardness (HRC) is generally used for materials with higher hardness, such as post-heat treatment hardness.

Brinell hardness (HB) uses a given test load to press a hardened steel ball or hard alloy ball of a given diameter onto the metal surface to be tested, hold it for a specified time, then discharge and measure the diameter of the indentation on the tested surface.

The Brinell hardness value is the quotient obtained by dividing the load by the spherical surface area of ​​the indentation.

Typically it is: using a certain load (generally 3,000 kg) to press a hardened steel ball of a certain size (generally 10 mm in diameter) onto the surface of the material, holding it for a while, unloading, and the relationship between the load and its Indentation area is the Brinell hardness value (HB), the unit is kgf/mm2 (N/mm ² ).

HR – Rockwell Hardness

Rockwell Hardness (HR-) uses plastic deformation depth of indentation to determine the hardness value index. One unit of hardness is 0.002 mm.

When HB > 450 or the sample is very small, Brinell hardness test cannot be used and Rockwell hardness measurement must be adopted.

It uses a diamond cone with an apex angle of 120° or a steel ball with a diameter of 1.59,3.18mm, under a certain load, to press the surface of the material to be tested, and the hardness of the material is calculated from the depth of the indentation.

According to the different hardness of the testing material, it is expressed in three different scales:

• HRA: Hardness obtained with a load of 60kg and a conical diamond indenter, used for extremely hard materials (such as carbide).
• HRB: Hardness obtained using a load of 100kg and a hardened steel ball with a diameter of 1.59mm, used for materials of lower hardness (such as annealed steel, cast iron, etc.).
• HRC: Hardness obtained with a load of 150kg and conical diamond indenter, used for extremely hard materials (such as tempered steel).

Furthermore:

(1)HRC refers to the Rockwell C scale.

(2)HRC and HB are widely used in production.

(3)The HRC range is HRC 20–67, equivalent to HB225–650.

If the hardness is greater than this range, the HRA Rockwell A hardness scale is used. If the hardness is less than this range, Rockwell's B HRB hardness scale is used. The upper limit of Brinell hardness is HB650 and cannot exceed this value.

(4) Rockwell hardness tester C scale indenter is 120° diamond cone, and the test load is a fixed value, the Chinese standard is 150 kgf.

The indenter of the Brinell durometer is a hardened steel ball (HBS) or a hard alloy ball (HBW), and the test load varies with the diameter of the ball, ranging from 3,000 to 31.25 kgf.

(5) Rockwell hardness has small indentations, the measured value is local, the average value should be obtained by measuring multiple points, suitable for finished products and thin sheets, belonging to the non-destructive testing category.

Brinell hardness indentation is higher, the measured value is accurate, not suitable for finished products and thin sheets, generally not belonging to the non-destructive testing category.

(6) The Rockwell hardness value is a number without a name, without a unit. (Therefore, it is incorrect to refer to Rockwell hardness in terms of degrees.)

Brinell hardness has a unit and has a certain approximate relationship with tensile strength.

(7) Rockwell hardness is directly displayed on the dial or can be displayed digitally, it is convenient to operate, fast, intuitive, suitable for mass production.

Brinell hardness requires measuring the diameter of the indentation with a microscope and then consulting the table or calculating, the operation is more complicated.

(8)Under certain conditions, HB and HRC can be converted by referring to the table. The mental calculation formula can be remembered approximately as: 1HRC≈1/10HB.

3. Tensile strength comparison table with Vickers hardness, Brinell hardness and Rockwell hardness

According to the German standard DIN50150, below is the tensile strength comparison table with Vickers Hardness, Brinell Hardness and Rockwell Hardness for a variety of commonly used steel materials:

4. Approximate relationship table of various hardness

5. The approximate conversion value of the Brinell hardness of steel