1. Gear Root Tangent Length Measurement
In gear manufacturing, measuring the root tangent length of spur or helical gears is critical to verifying the teeth profile and pitch. The thin disc anvils (0.7 mm edge thickness) easily enter the narrow recesses between gear teeth (measurable module 0.5 - 6) to deliver precise contact measurements.
Problem SolvedStandard spherical or flat anvil micrometers cannot reach between gear teeth to measure the root tangent length. The thin disc design enables non-destructive, highly precise (±4 µm accuracy) direct measurements of the teeth profiles on the shop floor.
spur gearhelical gearroot tangent lengthmeasurable moduledisc anvils
2. Precision Machining Inspection under Coolant Exposure
During the machining of precision automotive shafts or slotted components, part inspection must occur immediately on the shop floor where the environment is heavily contaminated with metalworking fluids and cutting coolant.
Problem SolvedHigh-humidity and oil-heavy environments rapidly damage standard digital metrology tools. This micrometer's IP65 protection rating and robust seal construction prevent ingress of water, cutting oil, and dust, allowing engineers to carry out accurate 0-25mm measurements without risking electronic failure.
IP65 coolant-proofautomotive machiningshop floor inspectioncutting oil resistance
3. Narrow Groove and Rib Thickness Verification
In sheet metal stamping and high-precision electronic enclosure manufacturing, parts often feature narrow grooves, slots, or reinforcement ribs with widths less than 1 mm that must be verified for structural integrity.
Problem SolvedTraditional micrometers are too bulky to fit into narrow recesses. The 0.7 mm thin edge and ø20 mm flat disc anvils slip directly into narrow grooves to perform highly repeatable (3-8 N measuring force) thickness verification.
rib thicknessnarrow groovessheet metal stampingrepeatable forceflatness