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Introduction to Precision Metrology

Introduction to Precision Metrology. General Comments. Precision tools – delicate – treat them with respect Set them down carefully – preferably something soft Wood, linoleum – avoid metals, ceramics, glass Check gauging surfaces – clean off and set to zero

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Introduction to Precision Metrology

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  1. Introduction to Precision Metrology

  2. General Comments • Precision tools – delicate – treat them with respect • Set them down carefully – preferably something soft • Wood, linoleum – avoid metals, ceramics, glass • Check gauging surfaces – clean off and set to zero • When finished – wipe clean and return to storage box • Use rag with a drop or two of oil • With care these tools will last for years • If mis-treated they become worthless in days

  3. General Comments cont’d • Using precision tools is somewhat complex • Result – concentration on details – not bigger picture • Keep plastic ruler handy – double check measurements • More mixture of English and metric units • Measure twice – cut once

  4. What you will do in lab • Use some precision tools to measure sample parts • Gain a feel for use of the tool and its capabilities • Use some tools in order of increasing resolution • Gain a feeling for tool features that increase resolution • Get an understanding of the types of tools available • Tools used are generally available for mechanical inspection • Learn about ISO 5460, techniques to measure features • Set ups to measure specific features called out on drawings • Examples, flatness, straightness, roundness

  5. Calipers – from ISO 3599 Moderately accurate (.02 mm) multi-purpose length measuring tool Typically 150 mm capacity – available to 1 m Measures outside, inside and depth dimensions Close jaws on piece of paper, pull out and check zero Digital version much easier to use than dial or vernier Many digital devices have a serial interface to a computer

  6. Outside mircometers – ISO 3611 Most common are 25 mm capacity – available to 500 mm – check w gage Accurate to .01 mm with resolution to .002 mm on better grades Use a micrometer stand with larger sizes if practical Commonly used for measuring diameters – use ball tips for plane surfaces Ratchet gives uniform squeeze between anvils Digital versions help avoid reading errors – measure twice

  7. Dial indicators – test and long travel Test indicators – short range high sensitivity – used as null devices Long range – needle makes many revolutions – has counter dial Used for rough centering, thickness measurement Mounted in a stand – either stationary while part moves or indicator moves along a straightedge with part still Generally looking for minimum indicator movement End result given as TIR – Total Indicator Reading or Runout Also attached to bore & depth gages Digital & dial versions available Can be fitted with various tips

  8. Gauge or Jo Blocks – ISO 3650 Come in sets to 150 mm with 88 blocks Minimum step 1 μm Make up any dimension by wringing blocks together Sets come in several grades, typical for shop use is grade AS-1 with thinner blocks good to sub-microns Sets include two wear blocks to be mounted to either end of stack to protect the measurement blocks from wear

  9. Gauge blocks con’t Measuring surfaces are specular and optically flat Faces have matt finish Nominal length values are etched into the face

  10. Angle gauge blocks 16 blocks – 1 second to 90° in 1 second increments Useful for measuring optical wedges Surfaces are optically flat and specular – can use with an autocollimator Same is true of gauge blocks Sides are not finished to same specs as angle faces but are perpendicular to angle faces so angle readings are correct

  11. Inside micrometers Uses 12.5 or 25 mm travel hollow micrometer head and set of precision length rods Standard set can measure inside dimensions from 50 to 600 mm In side mics are harder to use accurately because you are looking for the maximum extension that just fits a hole diameter, that is, mic must be parallel to the diameter to get a true reading

  12. Sine plate or bar Typically 10” between hinge rod and gauge block rod Calculate sine of angle, multiply by 10 and put gauge block stack under gauge block rod Can theoretically set angle to 2 seconds of arc with .0001” blocks

  13. Inspection of mechanical parts • Part is held against datums called out on drawing • Indicator is slid along part for checking features with a spatial extent • Indicator reading must remain inside tolerance band

  14. Indicate along top surface while moving along straight edge - straightness Use clamps to secure rod to V-block surface Align V-Block with Straight-edge on Surface Plate Indicate along side surface while rotating cylinder - circularity Use of “V” blocks

  15. Measuring parallelism

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