Math Analysis
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A solid circular rod of diameter dMoment M=1000lbf.inStress : S = [pic 1][pic 2][pic 3]Table A-17 select a preferred fractional diameter : d = [pic 4]The resulting factor of safety:[pic 5]1.2(a) For a sliding fit with 30mm basic size ISO symbol: 30H7/g6Hole: 30H7 ➔ D = 30 mmIT7 (from table A-11) ➔∆D = 0.025mmD + ∆D = 30 +0.025 = 30.025mm.[pic 6] = D = 30mm[pic 7]Shaft: 30g6 ➔ d = 30IT6 (from talbe A-11) ➔ ∆d = 0.016 mmFundamental deviation: = – 0.009 mm (from table A-12).[pic 8]Sliding fit g:= d + = 30 + (-0.009) = 29.991 mm[pic 9][pic 10] = d + – = 30 + (-0.009) – 0.016 = 29.975 mm.[pic 11][pic 12][pic 13]Hole: Shaft: [pic 14][pic 15](b) For a clerance fit with 18mm basic size ISO symbol: 18H7/h6Hole: 18H7 ➔ D = 18 mmIT7 (from table A-11) ➔∆D = 0.021mmDD + ∆D = 18 +0.021 = 18.021mm.[pic 16] = D = 18mm[pic 17]Shaft: 318h6 ➔ d = 18 mmIT6 (from talbe A-11) ➔ ∆d = 0.013 mmFundamental deviation: = 0 mm (from table A-12).[pic 18]Clearance fit h:= d + = 18 + 0= 18 mm[pic 19][pic 20] = d + – = 30 + 0 – 0.013 = 17.987 mm.[pic 21][pic 22][pic 23]Hole: Shaft: [pic 24][pic 25](c) For a interferece fit with 72mm basic size. ISO symbol: 72H7/p6Hole: 72H7 ➔ D = 72 mmIT7 (from table A-11) ➔∆D = 0.030mmDD + ∆D = 72 +0.030 = 30.030mm.[pic 26] = D = 72mm[pic 27]Shaft: 72p6 ➔ d = 72mmIT6 (from talbe A-11) ➔ ∆d = 0.019 mmFundamental deviation: = +0.032 mm (from table A-12).[pic 28]Interference fit p:= d + + = = 7230 + 0.032 +0.019= 72.051 mm[pic 29][pic 30][pic 31]= d + = 72 + 0.032 = 72.032 mm.[pic 32][pic 33]Hole: Shaft: [pic 34][pic 35]
(d) For a locational transition fit with 48 mm basic size. ISO symbol: 48H7/k6Hole: 48H7 ➔ D = 48 mmIT7 (from table A-11) ➔∆D = 0.025mmDD + ∆D = 48 +0.025 = 48.025mm.[pic 36] = D = 48mm[pic 37]Shaft: 48k6 ➔ d = 48 mmIT6 (from talbe A-11) ➔ ∆d = 0.016 mmFundamental deviation: = + 0.002 mm (from table A-12).[pic 38]Locational transmition fit k:= d + + = 30 + (0.002) + 0.016 = 48.018 mm[pic 39][pic 40][pic 41] = d + = 48 + 0.002 = 48.002 mm.[pic 42][pic 43]Hole: Shaft: [pic 44][pic 45]We have : a= 1.500 0.001 in [pic 46]b = 2.000 0.003 in [pic 47]c = 3.000 0.004 in [pic 48]d = 6.520 0.010 in [pic 49]the mean gap : = 6.520 -1.5 -2 – 3 = 0.020 in [pic 50]and tolerance: = 0.001 + 0.003 + 0.004 +0.010 = 0.018 [pic 51][pic 52]w= 0.020 0.018 in [pic 53] From part (a), = 0.002 in. Thus, must add 0.008 in to . Therefore, [pic 54][pic 55]= 6.520 + 0.008 = 6.528 in[pic 56]1.4 Let be the length of the pin , be the thickness of the clevis, be the thickness of the snap ring , and be the gap between the clevis and the snap ring. [pic 57][pic 58][pic 59][pic 60]Then [pic 61],[pic 62] , 0.004[pic 63][pic 64][pic 65]From the geometry , need +[pic 66][pic 67]