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Engineers Guide To Rotating Equipment.
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6 P$ X# j8 [( A8 Q" TContents
v# T# n$ h+ x/ ^2 |6 NAbout the Author vi8 {$ Q' c7 s! N5 P+ P6 }3 y( T0 h
Preface vii& W! m0 _; ~- K* u
Introduction ix
5 ]" [ Y+ v, v3 Z2 C! @$ i! MChapter 1 Engineering Fundamentals 1
. ?# ^( B: @5 F4 B) D' N9 K1.1 The Greek alphabet 1
. L* ` p9 n+ |+ H$ Z/ u1.2 Units systems 2
4 W, T" W& m9 c5 }6 E1.3 Conversions 40 q9 i `8 x1 d: A
1.4 Consistency of units 17% P& z T, h. v' v
1.5 Foolproof conversions: using unity brackets 170 w, M% Y8 i7 W' u$ Q ^" L
1.6 Imperial–metric conversions 19+ S9 z7 F2 P9 U/ x1 `. b
1.7 Dimensional analysis 21
! \/ b/ E0 k3 x& A! a1.8 Essential mathematics 23
: R4 e7 E/ c# \1.9 Useful references and standards 454 _$ t; ]+ T) a
Chapter 2 Bending, Torsion, and Stress 47
0 K6 A( z7 p$ ^2 \4 j! s) q2.1 Simple stress and strain 47
* X: v' {1 g# k' E: A2.2 Simple elastic bending (flexure) 48
4 Z- I- i+ v6 ?: d: U2.3 Slope and deflection of beams 510 s: {" M9 i& `$ r) K( I
2.4 Torsion 51) B& M8 B0 X. l, s: d9 \
2.5 Combined bending and torsion 60
9 W7 k0 ^* O* W7 Y$ C. G" \2.6 Stress concentration factors 61" y7 T) y; h g/ Q3 j
Chapter 3 Motion and Dynamics 65( ^8 b" O! _, m' C) P; _
3.1 Making sense of dynamic equilibrium 65
; `1 P; _' ?% u0 R+ ?5 \8 H3.2 Motion equations 65
8 u, ~& w& W( O/ e/ t" X! f3.3 Newton’s laws of motion 67
* V T7 F% X( X! P0 ~3.4 Simple harmonic motion 679 s9 ]9 {/ V$ C9 L* c H
3.5 Understanding acceleration 687 x! {$ E3 ]& x9 b" S" `1 V/ ~
3.6 Dynamic forces and loadings 69
L* P% k! _ I% a l3.7 Forces due to rotating masses 70! F+ N* s. c1 t) {' _
3.8 Forces due to reciprocating masses 70+ W- _* _. e' ~" f" I
Chapter 4 Rotating Machine Fundamentals: Vibration,
: J+ j4 V7 ?( O1 @Balancing, and Noise 71
/ Z* v X8 R9 w$ F4.1 Vibration: general model 71' W6 l# r- _& b9 Y+ q
4.2 Vibration formulae 723 q6 ?9 Q* Z; A4 x5 o- z/ p+ ^
4.3 Machine vibration 75
[' N" Z& r8 h: }7 f9 b1 ?4.4 Dynamic balancing 78
9 x9 t3 i. ]( P' a4.5 Machinery noise 79* G! }5 L: T/ m s/ Q, j" m" [, ~! b
4.6 Useful references 81; v' K$ b3 K2 b) w$ j
Chapter 5 Machine Elements 83$ M4 q: k* _1 |1 H1 [) d
5.1 Screw fasteners 83
+ l, D0 V5 @. X H1 A0 @% d5.2 Bearings 86. a0 M3 M' Q) J, W, W- }
5.3 Mechanical power transmission – broad guidelines 90: @: Z: V0 U* N$ i2 j5 j8 q
5.4 Shaft couplings 91
, x- C0 q3 Z& S/ u7 x. L5.5 Gears 99) N2 W* F* g/ |
5.6 Seals 110
1 U+ x# U) e/ l, d: @5.7 Cam mechanisms 119
6 F {, X- n( R" N5.8 Belt drives 121& N3 }" x. ?% s: F1 F) l" m
5.9 Clutches 123
$ r) J0 q6 R! y/ {) p" x/ |5.10 Brakes 1280 O* z4 W( {: g. M- G
5.11 Pulley mechanisms 128+ @5 H7 ^! ?! @, w
5.12 Useful references and standards 131
' v3 F9 E& c' q' }9 x# C+ m: kChapter 6 Fluid Mechanics 1351 C9 T9 A. X4 A. {
6.1 Basic properties 1357 [$ ^6 [) J& w$ Y$ G4 q
6.2 Flow equations 137* ~+ `/ S; O% g r
6.3 Flow regimes 142+ y9 j( e) C1 {+ z
6.4 Boundary layers 1454 U1 T& q8 S' o( p
6.5 Isentropic flow 146# R6 s+ s* S) a' d4 w
6.6 Compressible one-dimensional flow 147
9 ]: ^5 |: ?/ G6 O4 b Z6.7 Normal shock waves 148* ?+ |2 \( s d. L# L6 P. p
6.8 Axisymmetric flows 151$ h# u M8 F# A8 j# z7 t( I
6.9 Drag coefficients 151
" N# D! L5 R: b: }' M: p! e/ P1 O7 z! cChapter 7 Centrifugal Pumps 153% v. C" x+ P6 K$ h
7.1 Symbols 153
7 Y% Q2 [% j; Y& W3 U2 U! W7.2 Centrifugal pump types 153 j: N/ O6 U! S
7.3 Pump performance 1585 m$ s: N, Z" j6 s; ^% u5 ]
7.4 Pump characteristics 162
1 V3 O1 x- m+ d# j$ Z7.5 Specifications and standards 163, k5 ]5 X8 R3 T2 l/ D
7.6 Test procedures and techniques 164
" B- C# x9 |+ |6 w) Q5 X* }/ D2 p7.7 Pump specific speed n, e% X H* |) n: l) b
s 169
, b& c' S; U! i& z% B& L% M7.8 Pump balancing 172- c: s* b3 O6 r4 }' \
7.9 Balance calculations 173
4 Z) M' I* ^, D4 [+ Y: _3 I# B7.10 Pump components – clearances and fits 176$ t1 {7 n/ ]' U7 F. k+ p$ V
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