Manufacturing Processes Lab 1 (MET 1321) Dr Simin Nasseri Machining Fundamental Measurement- Part 2.

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Presentation transcript:

Manufacturing Processes Lab 1 (MET 1321) Dr Simin Nasseri Machining Fundamental Measurement- Part 2

Manufacturing Processes Lab 1 (MET 1321) Dr Simin Nasseri Learning Objective  Reading an Inch-based Vernier Scale,  Reading a Metric-based Vernier Scale,  Identify and use various types of gages found in a machine shop,

Manufacturing Processes Lab 1 (MET 1321) Dr Simin Nasseri Vernier Scale

Manufacturing Processes Lab 1 (MET 1321) Dr Simin Nasseri Reading an Inch-based Vernier scale Two measuring tools are available: 25-division Vernier plates. It can be read to 0.001”. Vernier plate is graduated into 40 equal parts. Each graduation is 1/40” or Every four division= 0.1” 50-division Vernier plates. It can be read to 0.001”. Vernier plate is graduated into 50 equal parts. Each graduation is 1/50” or Every fifth division= 0.1”

Manufacturing Processes Lab 1 (MET 1321) Dr Simin Nasseri 25-division Vernier plates Every four division= 0.1”

Manufacturing Processes Lab 1 (MET 1321) Dr Simin Nasseri 25-division Vernier plates x0.1=0.1 1x0.025= x.001= ” Remember that for a 50-division one, the principle is the same, except that one graduation is 0.050”.

Manufacturing Processes Lab 1 (MET 1321) Dr Simin Nasseri How to read a 25-division metric-based Vernier scale Readings on the scale are obtained in units of two hundredths of a millimeter (0.02 mm) mm

Manufacturing Processes Lab 1 (MET 1321) Dr Simin Nasseri Vernier Caliper

Manufacturing Processes Lab 1 (MET 1321) Dr Simin Nasseri Vernier Caliper Copyright © Clemson University. Watch the video clips about using a Vernier caliper. The links are added to the site

Manufacturing Processes Lab 1 (MET 1321) Dr Simin Nasseri Dial Calipers Dial calipers provide direct readings of measurements.

Manufacturing Processes Lab 1 (MET 1321) Dr Simin Nasseri Universal Bevel Protractor 50 o 00’ 50 o 00’+ 0 o 20’ 50 o 20’ Check near zero Degree (°)— Regardless of its size, a circle contains 360°. Angles are also measured by degrees. Minute ( ’ )—A minute represents a fractional part of a degree. If a degree is divided into 60 equal parts, each part is one minute. A foot mark (‘) is used to signify minutes (e.g. 30°15’). Second ( ” )—Minutes are divided into smaller units known as seconds. There are 60 seconds in one minute.

Manufacturing Processes Lab 1 (MET 1321) Dr Simin Nasseri Vernier scale for reading the angle This Vernier scale allows the angle to be read to an accuracy of about 0.05 degrees. 1- Begin by reading the integer of the angle directly – here, this is 19 degrees. Use the next smallest number below the line pointed-to by the arrow ("1" in the figure shown). 2- Next, the fractional angle can be read using the Vernier. Simply follow the lines across on the Vernier scale (the outside) until you locate the ONE which best lines-up with a line (any line) on the circular inner scale degrees

Manufacturing Processes Lab 1 (MET 1321) Dr Simin Nasseri Test yourself! Read each Vernier: 0.1 mm

Manufacturing Processes Lab 1 (MET 1321) Dr Simin Nasseri Gages Gaging involves checking parts with various gages. Gaging simply shows whether the piece is made within the specified tolerances. Examples of Gages: plug gages, ring gages, snap gage, thread gage, and optical gages. When great numbers of an item with several critical dimensions are manufactured, it might not be possible to check each piece. It then becomes necessary to decide how many randomly selected pieces must be checked to ensure satisfactory quality. This technique is called statistical quality control.

Manufacturing Processes Lab 1 (MET 1321) Dr Simin Nasseri Plug Gage Plug gages are used to check whether hole diameters are within specified tolerances. A double end cylindrical plug gage has two gaging members known as go and no-go plugs. The go plug should enter the hole with little or no interference. The no-go plug should not fit.

Manufacturing Processes Lab 1 (MET 1321) Dr Simin Nasseri Ring Gage External diameters are checked with ring gages. The go and no-go ring gages are separate units, and can be distinguished from each other by a groove cut on the knurled outer surface of the no-go gage.

Manufacturing Processes Lab 1 (MET 1321) Dr Simin Nasseri Snap Gage A nonadjustable snap gage is made for one specific size. An adjustable snap gage can be adjusted through a range of sizes. A snap gage serves the same purpose as a ring gage. Snap gages are designed to check internal diameters, external diameters, or both. There are three general types: A dial indicator snap gage measures the amount of variation in the part measurement.