£ 3,426.00
Price excl. VAT &. delivery
The gas detector is used in various areas of industry. For example, the gas detector is used on compressed air, gas, steam and vacuum systems, as well as on refrigeration systems and door seals.
The gas leak detector is used in various areas of industry. For example, the gas leak detector is used on compressed air, gas, steam and vacuum systems, as well as on refrigeration systems and door seals.
The leak detector is used in various areas of industry. For example, the leak detector is used on compressed air, gas, steam and vacuum systems, as well as on refrigeration systems and door seals.
The NDT tester is used in various areas of industry. For example, the NDT tester is used on compressed air, gas, steam and vacuum systems, as well as on refrigeration systems and door seals.
The Refrigerant Gauges is used in various areas of industry. For example, the Refrigerant Gauges is used on compressed air, gas, steam and vacuum systems, as well as on refrigeration systems and door seals.
The ultrasonic leak detector is used in various areas of industry. For example, the ultrasonic leak detector is used on compressed air, gas, steam and vacuum systems, as well as on refrigeration systems and door seals.
The Ultrasonic Contact Impedance (UCI) condition monitoring material tester has been designed for the non-destructive hardness measurement of metallic components. A 136° Vickers diamond at the probe is stimulated with its self-resonance to allow the user to very accurately measure hardness of small items, thin-walled items (>1 mm), and surface-hardened layers. Small imprint after measuring for mirrored surfaces.
The Ultrasonic Contact Impedance (UCI) condition monitoring material tester has been designed for the non-destructive hardness measurement of metallic components. A 136° Vickers diamond at the probe is stimulated with its self-resonance to allow the user to very accurately measure hardness of small items, thin-walled items (>1 mm), and surface-hardened layers. Small imprint after measuring for mirrored surfaces and nitrided surfaces.
The Ultrasonic Contact Impedance (UCI) condition monitoring material tester has been designed for the non-destructive hardness measurement of metallic components. A 136° Vickers diamond at the probe is stimulated with its self-resonance to allow the user to very accurately measure hardness of small items, thin-walled items (>1 mm), and surface-hardened layers. Small imprint after measuring for mirrored surfaces and nitrided surfaces.
The Ultrasonic Contact Impedance (UCI) durometer PCE-3500 has been designed for the non-destructive hardness measurement of metallic components. A 136° Vickers diamond at the probe is stimulated with its self-resonance to allow the user to very accurately measure hardness of small items, thin-walled items (>1 mm), and surface-hardened layers. Small imprint after measuring for mirrored surfaces.
The Ultrasonic Contact Impedance (UCI) durometer PCE-3500 has been designed for the non-destructive hardness measurement of metallic components. A 136° Vickers diamond at the probe is stimulated with its self-resonance to allow the user to very accurately measure hardness of small items, thin-walled items (>1 mm), and surface-hardened layers. Small imprint after measuring for mirrored surfaces and nitrided surfaces.
The Ultrasonic Contact Impedance (UCI) durometer PCE-3500 has been designed for the non-destructive hardness measurement of metallic components. A 136° Vickers diamond at the probe is stimulated with its self-resonance to allow the user to very accurately measure hardness of small items, thin-walled items (>1 mm), and surface-hardened layers. Small imprint after measuring for mirrored surfaces and nitrided surfaces.
The Ultrasonic Contact Impedance (UCI) Metal Hardness Tester PCE-3500 has been designed for the non-destructive hardness measurement of metallic components. A 136° Vickers diamond at the probe is stimulated with its self-resonance to allow the user to very accurately measure hardness of small items, thin-walled items (>1 mm), and surface-hardened layers. Small imprint after measuring for mirrored surfaces.
The Ultrasonic Contact Impedance (UCI) durometer PCE-3500 has been designed for the non-destructive hardness measurement of metallic components. A 136° Vickers diamond at the probe is stimulated with its self-resonance to allow the user to very accurately measure hardness of small items, thin-walled items (>1 mm), and surface-hardened layers. Small imprint after measuring for mirrored surfaces.
The Ultrasonic Contact Impedance (UCI) durometer PCE-3500 has been designed for the non-destructive hardness measurement of metallic components. A 136° Vickers diamond at the probe is stimulated with its self-resonance to allow the user to very accurately measure hardness of small items, thin-walled items (>1 mm), and surface-hardened layers. Small imprint after measuring for mirrored surfaces and nitrided surfaces.
The Ultrasonic Contact Impedance (UCI) durometer PCE-3500 has been designed for the non-destructive hardness measurement of metallic components. A 136° Vickers diamond at the probe is stimulated with its self-resonance to allow the user to very accurately measure hardness of small items, thin-walled items (>1 mm), and surface-hardened layers. Small imprint after measuring for mirrored surfaces and nitrided surfaces.
The Ultrasonic Contact Impedance (UCI) durometer PCE-3500 has been designed for the non-destructive hardness measurement of metallic components. A 136° Vickers diamond at the probe is stimulated with its self-resonance to allow the user to very accurately measure hardness of small items, thin-walled items (>1 mm), and surface-hardened layers. Small imprint after measuring for mirrored surfaces.
The Ultrasonic Contact Impedance (UCI) durometer PCE-3500 has been designed for the non-destructive hardness measurement of metallic components. A 136° Vickers diamond at the probe is stimulated with its self-resonance to allow the user to very accurately measure hardness of small items, thin-walled items (>1 mm), and surface-hardened layers. Small imprint after measuring for mirrored surfaces and nitrided surfaces.
The Ultrasonic Contact Impedance (UCI) durometer PCE-3500 has been designed for the non-destructive hardness measurement of metallic components. A 136° Vickers diamond at the probe is stimulated with its self-resonance to allow the user to very accurately measure hardness of small items, thin-walled items (>1 mm), and surface-hardened layers. Small imprint after measuring for mirrored surfaces and nitrided surfaces.
The Ultrasonic Contact Impedance (UCI) Metal Hardness Tester PCE-3500 has been designed for the non-destructive hardness measurement of metallic components. A 136° Vickers diamond at the probe is stimulated with its self-resonance to allow the user to very accurately measure hardness of small items, thin-walled items (>1 mm), and surface-hardened layers. Small imprint after measuring for mirrored surfaces.
The Ultrasonic Contact Impedance (UCI) Metal Hardness Tester PCE-3500 has been designed for the non-destructive hardness measurement of metallic components. A 136° Vickers diamond at the probe is stimulated with its self-resonance to allow the user to very accurately measure hardness of small items, thin-walled items (>1 mm), and surface-hardened layers. Small imprint after measuring for mirrored surfaces and nitrided surfaces.
The Ultrasonic Contact Impedance (UCI) Metal Hardness Tester PCE-3500 has been designed for the non-destructive hardness measurement of metallic components. A 136° Vickers diamond at the probe is stimulated with its self-resonance to allow the user to very accurately measure hardness of small items, thin-walled items (>1 mm), and surface-hardened layers. Small imprint after measuring for mirrored surfaces and nitrided surfaces.
The Ultrasonic Contact Impedance (UCI) durometer PCE-3500 has been designed for the non-destructive hardness measurement of metallic components. A 136° Vickers diamond at the probe is stimulated with its self-resonance to allow the user to very accurately measure hardness of small items, thin-walled items (>1 mm), and surface-hardened layers. Small imprint after measuring for mirrored surfaces.
The Ultrasonic Contact Impedance (UCI) durometer PCE-3500 has been designed for the non-destructive hardness measurement of metallic components. A 136° Vickers diamond at the probe is stimulated with its self-resonance to allow the user to very accurately measure hardness of small items, thin-walled items (>1 mm), and surface-hardened layers. Small imprint after measuring for mirrored surfaces and nitrided surfaces.
The Ultrasonic Contact Impedance (UCI) durometer PCE-3500 has been designed for the non-destructive hardness measurement of metallic components. A 136° Vickers diamond at the probe is stimulated with its self-resonance to allow the user to very accurately measure hardness of small items, thin-walled items (>1 mm), and surface-hardened layers. Small imprint after measuring for mirrored surfaces and nitrided surfaces.
The Ultrasonic testing device has been designed for the non-destructive hardness measurement of metallic components. A 136° Vickers diamond at the probe is stimulated with its self-resonance to allow the user to very accurately measure hardness of small items, thin-walled items (>1 mm), and surface-hardened layers. Small imprint after measuring for mirrored surfaces.
The Ultrasonic testing device has been designed for the non-destructive hardness measurement of metallic components. A 136° Vickers diamond at the probe is stimulated with its self-resonance to allow the user to very accurately measure hardness of small items, thin-walled items (>1 mm), and surface-hardened layers. Small imprint after measuring for mirrored surfaces and nitrided surfaces.