Specification Brand : FUZHUI BulletPoint1 : Hardness Material - Crafted from tungsten steel, renowned for its durability and to deformation, ensuring accurate measurements even in demanding conditions. BulletPoint2 : - Engineered through stringent processes, these points boast edges that complement equipment perfectly. BulletPoint3 : Dial Gauge Compatibility - Specifically designed for dial gauges, making these points essential for professionals seeking reliable measurement solutions. BulletPoint4 : Ideal Thread Size - Featuring an M2.5 thread, these points are compatible with various dial indicators, ensuring integration and use. BulletPoint5 : Versatile Application - for measuring soft materials such as foam and plastics with drop indicators, underscoring their versatility in diverse measuring scenarios. IncludedComponents : Vintage Vernier Grey Theodolite ItemName : Tungsten Steel M2.5 Thread Dial Indicator Probe - Flat Points for Dial Gauges and Soft Material Measurement (Y5) ItemPackageDimensions_Height : 1 centimeters ItemPackageDimensions_Length : 7 centimeters ItemPackageDimensions_Width : 6 centimeters ItemPackageQuantity : 1 ItemTypeKeyword : test-indicators Manufacturer : FUZHUI MeasurementAccuracy : 1/4 inch ModelNumber : FUZHUIab270t9g3h-01 NumberOfItems : 1 PartNumber : FUZHUIab270t9g3h-01 ProductDescription : Feature:
High Hardness Material - Crafted from tungsten steel, renowned for its durability and to deformation, ensuring accurate measurements even in demanding conditions. Precision - Engineered through stringent processes, these points boast edges that complement equipment perfectly. Dial Gauge Compatibility - Specifically designed for dial gauges, making these points essential for professionals seeking reliable measurement solutions. Ideal Thread Size - Featuring an M2.5 thread, these points are compatible with various dial indicators, ensuring integration and use. Versatile Application - for measuring soft materials such as foam and plastics with drop indicators, underscoring their versatility in diverse measuring scenarios.