The PCE Instruments PCE-2000N material tester uses the Leeb rebound method. This is a dynamic hardness test method in which a standardized test specimen, usually a hard metal ball, is hit with defined impact energy on a test surface.
Measurement according to Leeb Rebound method
Hardness scales: HL (Leeb), HV (Vickers), HB (Brinell), HS (Shore), HRA (Rockwell A), HRB (Rockwell B), HRC (Rockwell C)
The material thickness gauge can measure material thicknesses of up to 300 mm. In order to measure the material thickness of a wide variety of homogeneous materials, it is possible to store the corresponding sonic velocity in the material thickness gauge.
The PCE Instruments PCE-2000N metal hardness tester uses the Leeb rebound method. This is a dynamic hardness test method in which a standardized test specimen, usually a hard metal ball, is hit with defined impact energy on a test surface.
Measurement according to Leeb Rebound method
Hardness scales: HL (Leeb), HV (Vickers), HB (Brinell), HS (Shore), HRA (Rockwell A), HRB (Rockwell B), HRC (Rockwell C)
The material thickness gauge can measure material thicknesses of up to 300 mm. In order to measure the material thickness of a wide variety of homogeneous materials, it is possible to store the corresponding sonic velocity in the material thickness gauge.
The PCE Instruments PCE-2000N NDT tester uses the Leeb rebound method. This is a dynamic hardness test method in which a standardized test specimen, usually a hard metal ball, is hit with defined impact energy on a test surface.
Measurement according to Leeb Rebound method
Hardness scales: HL (Leeb), HV (Vickers), HB (Brinell), HS (Shore), HRA (Rockwell A), HRB (Rockwell B), HRC (Rockwell C)
The material thickness gauge can measure material thicknesses of up to 300 mm. In order to measure the material thickness of a wide variety of homogeneous materials, it is possible to store the corresponding sonic velocity in the material thickness gauge.
The material thickness gauge can measure material thicknesses of up to 300 mm. In order to measure the material thickness of a wide variety of homogeneous materials, it is possible to store the corresponding sonic velocity in the material thickness gauge.
The material thickness gauge can measure material thicknesses of up to 300 mm. In order to measure the material thickness of a wide variety of homogeneous materials, it is possible to store the corresponding sonic velocity in the material thickness gauge.
The material thickness gauge can measure material thicknesses of up to 300 mm. In order to measure the material thickness of a wide variety of homogeneous materials, it is possible to store the corresponding sonic velocity in the material thickness gauge.
