metrology and measurements unit 2

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Unit 2 Unit 2 Linear and Angular Linear and Angular Measurement Measurement

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Page 1: Metrology and Measurements unit 2

Unit 2Unit 2Linear and Angular Linear and Angular

MeasurementMeasurement

Page 2: Metrology and Measurements unit 2

Syllabus Syllabus Definition of metrologyLinear measuring instruments: Vernier,

micrometer and interval measurement- Slip gauges and classification. Interferometer, optical flats and limit gauges Comparators: Mechanical, pneumatic and electrical types, applications.

Angular measurements: -Sine bar, optical bevel protractor ,Taper measurements

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Definition Definition Metrology is the name given to

the science of pure measurement.

Engineering Metrology is restricted to measurements of length & angle

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Linear and Angular Linear and Angular Measurement Measurement The Linear Measurement includes

measurements of length, diameters, heights and thickness

The Angular measurement includes the measurement of angles or tapers

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Measurements Measurements Measurement systems are mainly

used in industries for quality control.Often widely using measurements

are◦Linear Measurement◦Angular measurement

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Dimensions Dimensions A very common measurement is

that of dimensions, i.e., length, width, height of an object

Dimensions of the measuring instruments are classified as follows◦Low resolution devices (up to 0.25mm) ◦Medium resolution devices (up to

0.0025mm) ◦High resolution devices (less than

microns)

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Low resolution devicesLow resolution devicesSteel ruleSteel rule with assistance of

◦Calipers◦Dividers &◦Surface gauges

Thickness gauges

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Medium resolution Medium resolution devicesdevicesMicrometer Micrometer with assistance of

◦Telescoping ◦Extendable ball gauges

Vernier calipers Dial indicators Microscope

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High resolution devicesHigh resolution devicesGauge blocks Gauge block with assistance of

◦Mechanical comparator ◦Electronic comparator ◦Pneumatic comparator ◦Optical flats

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Linear Measuring Linear Measuring Instruments Instruments Vernier caliperMicrometer Slip gauge or gauge blocks Optical flats Interferometer Comparators

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Vernier caliper Vernier caliper Components of vernier calipers are

◦Main scale ◦Vernier scale ◦Fixed jaw ◦Movable jaw

Types of vernier calipers ◦Type A vernier caliper ◦Type B vernier caliper ◦Type C vernier caliper

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Type A Vernier CaliperType A Vernier Caliper

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Type B Vernier CaliperType B Vernier Caliper

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Type C Vernier CaliperType C Vernier Caliper

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VERNIER CALIPERVERNIER CALIPERVernier calipers are available in size of

150 mm, 225 mm, 900 mm and 1200 mm. The selection of the size depends on the

measurements to be taken. Vernier calipers are precision

instruments, and extreme care should be taken while handing them.

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Vernier caliperVernier caliperVERIER CALIPER WITH 0.02MM LEAST COUNT IS GENERLY USED IM WORK SHOP.

In this Vernier caliper main scale division (49mm) are divided in to 50 equal part in the Vernier scale.

i.e. 1 main scale division =1 mm

(MSD)

1. Vernier scale division =49\50 mm

(VSD)

Least count is 1mm – 49\50 =1\50 mm

THE DIFFERENCE BETWEEN 1.MSD and 1. VSD=0.02MM

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Example Example Main scale reading =35mm The vernier division coinciding with the main scale is the 20th division. Value=20 multiplied by 0.02=0.40mm. Total reading is 35mm+0.40= 35.40mm

35.40 mm

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Vernier Depth GaugeVernier Depth Gauge

A vernier depth is very commonly used precision instrument for measuring depth of holes recesses, slot and step.

Its construction and method of reading are similar to those of a vernier caliper.

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VERNIER DEPTH GAUGEVERNIER DEPTH GAUGEBaseGraduated beamClamping screwFine adjustment

mechanism Vernier scale

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VERNIER HEIGHT GAUGEVERNIER HEIGHT GAUGE

The main parts of a vernier height gauge and their function are given.

1.base 2. beam 3.vernier slide 4. fine setting device 5. vernier plate 6. locking screws 7. scriber

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MICRO METER MICRO METER

A micro meter is a precision instrument used to measure a job, generally within an accuracy of 0.01mm.Micrometer used to take the outside measurements are know as outside micrometer.

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PARTS OF MICROMETERPARTS OF MICROMETER

Frame

Anvil and spindle

Screwed spindle

Graduated sleeve or barrel

Ratchet or friction stop

Spindle clamp

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Interval measurements Interval measurements Slip gauges InterferometerOptical flats and limit gauges Comparators

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SLIP GAUGESLIP GAUGESlip gauges are rectangular

blocks of steel having a cross-section of about 30 by 10 mm

Normal setRange Step Pieces

1.001 to 1.009 0.001 91.01 to 1.09 0.01 91.1 to 1.9 0.1 9

1 to 9 1 910 to 90 10 9

Total 45

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Special SetRange Step Pieces

1.001 to 1.009 0.001 91.01 to 1.49 0.01 49

1.5 to 9.5 0.5 1910 to 90 10 9

Total 86

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Classification Classification AA slip gaugesA slip gauges andB slip gauges

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AA slip gauges◦Master slip gauges◦Accurate to plus or minus two

microns per meterA slip gauges

◦Reference purpose◦Type A is guaranteed accurate up to

plus or minus four microns per meterB slip gauges

◦Working slip gauges◦Type 'B' for plus or minus eight

microns per meter

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Classes Classes Grade 2

Grade 1

Grade 0

Grade 00

Calibration grade

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Grade 2Grade 2This is the workshop gradeTypical uses include setting up

machine tools, positioning milling cutters and checking mechanical width.

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Grade 1Grade 1 Used for more precise work, -

tool room.Typical uses include setting up

◦Sine bars and sine tables◦Checking gap gauges and ◦Setting dial test indicators to zero

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Grade 0Grade 0 This is more commonly known

as the Inspection gradeInspection Department only who

have access to this grade of slips

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Grade 00Grade 00 This grade would be kept in the

Standard Room and would be kept for work of the highest precision only.

Determination of any errors present in the workshop or Grade 2 slips.

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Calibration grade Calibration grade Calibration grade are used for

calibration of slip gauges, other measuring instruments

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Interferometer Interferometer

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Principle Principle Interferometers are optical

instruments used for measuring flatness

Determining minute differences in length by direct reference to the wavelength of light.

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Principle of interferometerPrinciple of interferometer

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Fringes Fringes

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Fringes Fringes

ab

c

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Fringes Fringes A

◦Here the error is indicated by the amount by which the fringes are out of parallelism with those on the base plate

B◦If the work piece is concave or convex,

fringe pattern will be as shown in Figure (b).

C◦The surface is flat with slight rounding off

at the corner

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Optical flats Optical flats Optical flats can be used to

measure the flatness

◦An optical reference flat of known

quality

◦A monochromatic light box

◦Solvent and cleaning material

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Typical setup of optical Typical setup of optical flatflat

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Working Working

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Fringe PatternFringe PatternAir wedges

◦ Flatness error of zero◦ Cylinder with flatness error of two fringes

Contact method◦ Convex Cylinder◦ Concave Cylinder◦ Convex Sphere◦ Concave Sphere◦ Convex Spheroid◦ Concave Spheroid◦ Saddle◦ Highly Irregular

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Air wedge Air wedge Flatness error of zero (a)

(a) (b)Cylinder with flatness error of two

fringes (b)

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Contact methodContact methodConvex Cylinder

Concave Cylinder

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Saddle

Highly Irregular

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Application Application Front and rear surface mirrorsgauge blocksBearingsSeals and Anvils

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Limit gauges Limit gauges

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GaugesGaugesBasic dimension: exact size of part from

which all limiting variations madeLimits: maximum and minimum

dimensionsTolerance: permissible variation of part

◦unilateral: one direction only◦Bilateral: both plus and minus (two directions)

Allowance: intentional difference in dimensions of mating parts

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Fixed GaugesFixed GaugesUsed for inspection purposes

◦Provide quick means of checking specific dimension

Easy to use and accurately finished to required tolerance◦Generally finished to ten times the

tolerance designed to control

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Cylindrical Cylindrical Plug GaugesPlug Gauges

Dimensions usuallystamped on handleat each end.

Go

"go" end longer than"no-go" for easy

identification

Many made with carbidetips to increase gauge life

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Cylindrical Plug GaugesCylindrical Plug Gauges

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Cylindrical Plug gaugeCylindrical Plug gauge

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Plain Ring GaugesPlain Ring Gauges

Used to check outside diameter of piecesGround and lapped internally to desired

size◦Size stamped on side of gauge

Outside diameter knurled and "no-go" end identified by annular groove on knurled surface

Precautions and procedures similar to those outlined for a plug gauge

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Plain Ring gaugesPlain Ring gauges

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Taper Plug GaugesTaper Plug Gauges

Used to check size of hole and taper accuracy

Made with standard or special tapers

Some have "go" and "no-go" rings scribed◦gauge fits into hole between two rings

means within required tolerance

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Taper Plug and Ring Taper Plug and Ring GaugesGauges

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Thread Plug GaugesThread Plug GaugesUsed for checking internal threads of

the "go" and "no-go" varietyBased on same principle as cylindrical

plug gauges"go" end (longer end)

◦Should be turned in flush to bottom of hole

"no-go" end◦Should just start into hole and become

snug before third thread enters

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Thread Plug GaugesThread Plug Gauges

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Thread Ring GaugesThread Ring Gauges

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Snap GaugesSnap GaugesOne of most common types of

comparative measuring instrumentsFaster to use than micrometersLimited in their applicationUsed to check diameters within

certain limits by comparing part size to preset dimension of snap gauge

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Snap GaugesSnap GaugesHave C-shaped frame with

adjustable gauging anvils or rolls set to "go" and "no-go" limits of the part

Several styles

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FEELER GAUGEFEELER GAUGEA feeler gauge

(also known as a thickness gauge) is an accurately manufactured strip of metal that is used to determine the gap or clearance between two components.

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FEELER GAUGEFEELER GAUGE A feeler gauge can

be used to check the following:◦ Piston ring gap◦ Piston ring side

clearance◦ Connecting rod side

clearance

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Radius GaugeRadius GaugeA radius gauge is a tool used to

measure the radius of an object.

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Thread Pitch GaugeThread Pitch GaugeIt used to quickly determine the

pitch of various threads by matching the teeth on the leaves with teeth on the work.

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Comparators Comparators Mechanical comparatorsElectrical comparatorsOptical comparatorsPneumatic comparators

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Mechanical comparators Mechanical comparators

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It is a precision instrument employed to compare the dimension of a given component with a working standard

It does not measure the actual dimension but indicates how much it differs from the basic dimension

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Electrical comparators Electrical comparators