PCE-950-ICA is a handheld material hardness tester used to determine the hardness of 10 different types of metal (i.e., cast steel, hammered steel, cold-rolled steel, stainless steel, cast iron, ductile iron, aluminum alloy, brass, bronze and forged copper alloy) according to the Leeb rebound method. In addition to Leeb hardness units, the metal hardness tester displays hardness measurements in Rockwell C, Rockwell B, Rockwell A, Brinell, Vickers and Shore hardness units.
PCE-950-ICA is a handheld metal hardness durometer used to determine the hardness of 10 different types of metal (i.e., cast steel, hammered steel, cold-rolled steel, stainless steel, cast iron, ductile iron, aluminum alloy, brass, bronze and forged copper alloy) according to the Leeb rebound method. In addition to Leeb hardness units, the metal hardness tester displays hardness measurements in Rockwell C, Rockwell B, Rockwell A, Brinell, Vickers and Shore hardness units.
PCE-950-ICA is a handheld metal hardness tester used to determine the hardness of 10 different types of metal (i.e., cast steel, hammered steel, cold-rolled steel, stainless steel, cast iron, ductile iron, aluminum alloy, brass, bronze and forged copper alloy) according to the Leeb rebound method. In addition to Leeb hardness units, the metal hardness tester displays hardness measurements in Rockwell C, Rockwell B, Rockwell A, Brinell, Vickers and Shore hardness units.
PCE-950-ICA is a handheld material hardness tester used to determine the hardness of 10 different types of metal (i.e., cast steel, hammered steel, cold-rolled steel, stainless steel, cast iron, ductile iron, aluminum alloy, brass, bronze and forged copper alloy) according to the Leeb rebound method. In addition to Leeb hardness units, the metal hardness tester displays hardness measurements in Rockwell C, Rockwell B, Rockwell A, Brinell, Vickers and Shore hardness units.
PCE-950-ICA is a handheld material hardness tester used to determine the hardness of 10 different types of metal (i.e., cast steel, hammered steel, cold-rolled steel, stainless steel, cast iron, ductile iron, aluminum alloy, brass, bronze and forged copper alloy) according to the Leeb rebound method. In addition to Leeb hardness units, the metal hardness tester displays hardness measurements in Rockwell C, Rockwell B, Rockwell A, Brinell, Vickers and Shore hardness units.
The PCE-VM 25 Vibration Meter is designed for engine monitoring to assure a smooth operation of machines. Due to its simple application, the Vibration Meter can be used for the measurement of a large range of parameters including acceleration, velocity and displacement.
- Vibration velocity 10 Hz ... 10 kHz, displacement to 60 mm
- True RMS, Max Hold, peak value
- OLED display
- Measurement memory
- VMID measuring point function
The PCE-VM 25 Vibration Meter is designed for engine monitoring to assure a smooth operation of machines. Due to its simple application, the Vibration Meter can be used for the measurement of a large range of parameters including acceleration, velocity and displacement.
- Vibration velocity 10 Hz ... 10 kHz, displacement to 60 mm
- True RMS, Max Hold, peak value
- OLED display
- Measurement memory
- VMID measuring point function
The concrete hardness tester is an analog measuring device to determine concrete strength. The measuring method of the concrete hardness tester is based on the Schmidt principle. With this measuring method, a kinetic impact energy hits the concrete from the concrete hardness tester. The resulting rebound enables the concrete hardness tester to determine the strength of the concrete.
The concrete rebound test hammer is an analog measuring device to determine concrete strength. The measuring method of the concrete rebound test hammer is based on the Schmidt principle. With this measuring method, a kinetic impact energy hits the concrete from the concrete rebound test hammer. The resulting rebound enables the concrete rebound test hammer to determine the strength of the concrete.
The durometer is an analog measuring device to determine concrete strength. The measuring method of the concrete durometer is based on the Schmidt principle. With this measuring method, a kinetic impact energy hits the concrete from the durometer. The resulting rebound enables the durometer to determine the strength of the concrete.
The material tester is an analog measuring device to determine concrete strength. The measuring method of the material tester is based on the Schmidt principle. With this measuring method, a kinetic impact energy hits the concrete from the material tester. The resulting rebound enables the material tester to determine the strength of the concrete.
The NDT tester - hardness tester is an analog measuring device to determine concrete strength. The measuring method of the NDT tester - hardness tester is based on the Schmidt principle. With this measuring method, a kinetic impact energy hits the concrete from the NDT tester - hardness tester. The resulting rebound enables the NDT tester - hardness tester to determine the strength of the concrete.
The roll hardness tester is an analog measuring device to determine concrete strength. The measuring method of the roll hardness tester is based on the Schmidt principle. With this measuring method, a kinetic impact energy hits the concrete from the roll hardness tester. The resulting rebound enables the roll hardness tester to determine the strength of the concrete.