Machinery's Handbook for Machine Shop and Drafting-room: A Reference Book on Machine Design and Shop Practice for the Mechanical Engineer, Draftsman, Toolmaker and MachinistIndustrial Press, 1915 - 1400 pages |
From inside the book
Results 1-5 of 100
Page 49
... Diam- Circum- eter ference Area Diam Circum- eter ference Area Diam- Circum- eter ference Area 10 31.4159 78.540 16 50.2655 201.06 22 69.1150 380.13 ******* 31.8086 80.516 18 50.6582 204.22 1/8 69.5077 384.46 32.2013 82.516 1⁄4 / 4 ...
... Diam- Circum- eter ference Area Diam Circum- eter ference Area Diam- Circum- eter ference Area 10 31.4159 78.540 16 50.2655 201.06 22 69.1150 380.13 ******* 31.8086 80.516 18 50.6582 204.22 1/8 69.5077 384.46 32.2013 82.516 1⁄4 / 4 ...
Page 50
... Diam- Circum- eter ference Area Diam- Circum- eter ference Area Diam- eter Circum- ference Area 28 87.9646 615.75 34 106.814 907.92 40 16 88.3573 621.26 1/8 107.207 914.61 1/8 125.664 1256.6 126.056 1264.5 1/4 88.7500 626.80 1⁄44 ...
... Diam- Circum- eter ference Area Diam- Circum- eter ference Area Diam- eter Circum- ference Area 28 87.9646 615.75 34 106.814 907.92 40 16 88.3573 621.26 1/8 107.207 914.61 1/8 125.664 1256.6 126.056 1264.5 1/4 88.7500 626.80 1⁄44 ...
Page 51
... Diam- Circum- eter ference Area Diam- Circum- eter ference Area Diam- Circum- eter ference Area 46 144.513 1661.9 52 163.363 2123.7 58 182.212 2642.1 36 144.906 1670.9 1/8 163.756 2133.9 18 182.605 2653.5 น 145.299 1680.0 4164.148 ...
... Diam- Circum- eter ference Area Diam- Circum- eter ference Area Diam- Circum- eter ference Area 46 144.513 1661.9 52 163.363 2123.7 58 182.212 2642.1 36 144.906 1670.9 1/8 163.756 2133.9 18 182.605 2653.5 น 145.299 1680.0 4164.148 ...
Page 52
... Diam- Circum- eter ference Area Diam- Circum- eter ference Area Diam- Circum- eter ference Area 64 ****** 201.062 3217.0 1/3 201.455 3229.6 70 219.911 3848.5 76 238.761 4536.5 1/8 220.304 3862.2 1 % 239.154 4551.4 201.847 3242.2 1/4 ...
... Diam- Circum- eter ference Area Diam- Circum- eter ference Area Diam- Circum- eter ference Area 64 ****** 201.062 3217.0 1/3 201.455 3229.6 70 219.911 3848.5 76 238.761 4536.5 1/8 220.304 3862.2 1 % 239.154 4551.4 201.847 3242.2 1/4 ...
Page 53
... Diam- Circum- eter ference 16 1/4 Circumferences and Areas of Circles Diam- Circum- Area eter 100. Diam- Circum- ference eter Area Area Diam- Circum- eter ference Area 82 257.611 5281.0 88 276.460 6082.1 94 295.310 6939.8 258.003 5297.1 ...
... Diam- Circum- eter ference 16 1/4 Circumferences and Areas of Circles Diam- Circum- Area eter 100. Diam- Circum- ference eter Area Area Diam- Circum- eter ference Area 82 257.611 5281.0 88 276.460 6082.1 94 295.310 6939.8 258.003 5297.1 ...
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Common terms and phrases
addendum axis beam bearing belt Bevel Gears brass cast iron cent center distance center of gravity chain circle circular pitch clearance coefficient of friction Cosine Sine Cotan Cube cutter deflection degrees depth Diam diametral pitch dimensions disk divide drill driven equal example factor factor of safety feed feet per minute formulas friction gage Gear on Worm given grinding high-speed steel hole horsepower knurl length load Logarithms lubricant machine maximum milling modulus moment of inertia multiply number of teeth pinion pitch diameter pitch line plate pounds per square pressure pulley radius ratio revolutions per minute rivets roller chain Root rope Secant Cosecant shaft shear side Sine Cosine Sine Cotangent spiral angle spring sprocket spur gears square inch steel strength stress surface Tangent taper thickness thread tool tooth Trigonometrical Functions velocity weight wheel Wire Worm Gearing ΙΟ
Popular passages
Page 259 - Moment of a Force. — The moment of a force with respect to a point is the product of the force multiplied by the perpendicular distance from the given point to the direction of the force.
Page 279 - If a body oscillates about an axis, then the point at which, if a blow is struck by the body, the percussive action is the same as if the whole mass of the body were concentrated at that point, is called the center of percussion. This point is located at the same point as the center of oscillation. Center Reamers. A "center reamer" is a reamer the teeth of which meet in a point.
Page 993 - Depth of Cut per Tooth The amount of metal that the successive teeth of a broach should remove, or the increase in size per tooth, depends largely upon the hardness or toughness of the material to be broached. The size of the hole in proportion to its length also affects the depth of cut, so that it is impossible to give more than a general idea of the increase in size per tooth. Medium-sized broaches for round or square holes usually have an increase of from 0.001 to 0.003 inch per tooth for broaching...
Page 295 - The time of vibration of a pendulum varies directly as the square root of the length, and inversely as the square root of the acceleration due to gravity at the given latitude and elevation above the earth's surface.
Page 274 - If a body is acted upon by several forces, it is acted upon by each of these as if the others did not exist. This is true whether the body is at rest or in motion. In other words, if two or more forces act upon a body at the same time, each produces exactly the same effect as if it acted alone; the total effect or resultant motion of all the forces may be found by a diagram in the same way as the resultant of forces is found.
Page 259 - The resultant of two forces applied at the same point, and acting in the same direction, is equal to the sum of the forces. For example, if the two forces AB and AC, one equal to two and the other equal to three pounds ,are applied at point A, then their resultant AD equals the sum of these forces, or five pounds.
Page 926 - ... instead of 280, the number being reduced because the total movement of the crank, for each indexing, is equal to its movement relative to the index plate, plus the movement of the plate itself when (as in this case) the crank and plate rotate in the same direction. If they were rotated in opposite directions, the crank would have a total movement equal to the amount it turned relative to the plate, minus the movement of the plate.
Page 369 - The principal conclusions to be drawn from the results of this research may be briefly stated as follows: 1. The length of tube, between transverse joints tending to hold it to a circular form, has no practical influence upon the collapsing pressure of a commercial lap.welded steel tube so long as this length is not less than about six times the diameter of the tube.
Page 719 - Rule. — Multiply the diameter of the driving pulley by its number of revolutions per minute, and divide the product by the diameter of the driven pulley.
Page 297 - An externally fired fire-tube or flue boiler is a steam boiler, part of the outer shell of which is exposed to fire or to the products of combustion, and containing flues through which such products pass from the furnace to the uptake.