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Engineers Guide To Rotating Equipment.
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Contents* z: w8 Q6 ?1 ?
About the Author vi
! l! m* I$ w4 C, K( [8 \1 N# f2 RPreface vii
4 V, x$ R' S7 a( f9 l1 c$ |Introduction ix4 }& B* t- m, B7 [$ Q
Chapter 1 Engineering Fundamentals 1
, B" k9 W% e! F3 M ?4 V1.1 The Greek alphabet 1
: r- x; a2 D* y8 Z1.2 Units systems 2
# e* B! o& W4 p1 N1.3 Conversions 4: B2 R7 a7 K9 q% c9 a
1.4 Consistency of units 17
1 C+ \5 u" p4 W7 v% r& I1.5 Foolproof conversions: using unity brackets 173 L( U! d+ d- Y
1.6 Imperial–metric conversions 19
, t2 f. J8 S6 [( I9 J( h8 I- x1 [% ~1.7 Dimensional analysis 21
; n# B6 [' Q0 ^) o1.8 Essential mathematics 23* v9 m" X! F& F
1.9 Useful references and standards 45
t: [, V: n6 jChapter 2 Bending, Torsion, and Stress 47' d5 z5 F1 ?" O9 v5 I
2.1 Simple stress and strain 47
; Q/ X/ D4 g6 k2.2 Simple elastic bending (flexure) 48
$ C/ q) Z2 d4 H3 e$ L# {: g2.3 Slope and deflection of beams 510 F: m: {% c" B( G' n, R# P. W3 a7 ~
2.4 Torsion 51
7 j% {' M1 Z' V( o6 V2.5 Combined bending and torsion 607 }4 }0 N) n3 P- }" U+ V5 w( c
2.6 Stress concentration factors 61
' W. t2 D& M5 n6 xChapter 3 Motion and Dynamics 65
5 g) m/ F4 J. I3.1 Making sense of dynamic equilibrium 65
; g( u; ~0 E' n4 n- Z* l7 U3.2 Motion equations 65
2 w/ R! `9 v; @0 C. q3 w3.3 Newton’s laws of motion 67/ \: M* g9 a. s$ G) I; {3 d6 J
3.4 Simple harmonic motion 675 A7 O/ T* j/ m: K3 b1 k& w1 o! K
3.5 Understanding acceleration 684 w& s# j y* Q2 n# `( m
3.6 Dynamic forces and loadings 69/ p9 T! H y! O4 m
3.7 Forces due to rotating masses 70; I$ k8 o2 a3 Q, ^! p0 ?3 ]4 y z& M
3.8 Forces due to reciprocating masses 70
: w% p+ H$ ?" L& G4 TChapter 4 Rotating Machine Fundamentals: Vibration,: ?% p0 \) V2 ~8 O; d& u$ r
Balancing, and Noise 71
. ~5 C) h3 e9 n" y4.1 Vibration: general model 71
+ B/ l6 A2 w" a$ h, S2 ?1 z. \' w/ u. g4.2 Vibration formulae 72
% H5 q" o* a6 w. m4.3 Machine vibration 752 H+ ?: s( z' g2 m' j: ]
4.4 Dynamic balancing 781 d' J* T( g1 n% S7 J, x
4.5 Machinery noise 79
- N5 ]/ m z, M* X0 n3 b* ?4.6 Useful references 819 [8 H/ |& f- {; l& t5 r8 {
Chapter 5 Machine Elements 83
- \# V: O8 y8 y( d) b5.1 Screw fasteners 83
D# p! f, ]: @& ?5.2 Bearings 86& ~! U* U, U, F- `
5.3 Mechanical power transmission – broad guidelines 90: T) `5 w' G+ q3 u/ S3 i. t0 h
5.4 Shaft couplings 91
w& x0 P! p5 O% s! R# M7 e5.5 Gears 99
+ d# `- ]' N# R- l5.6 Seals 110
5 m5 a# P' Y# b2 O! ?5.7 Cam mechanisms 119/ ]0 h( `+ e. S/ k
5.8 Belt drives 121
) q( N* ~3 x6 z8 K. G1 K8 Q5 M5.9 Clutches 123
6 r! T* j: K/ [; \2 [6 r5.10 Brakes 128( Y" D! \6 o; D: |
5.11 Pulley mechanisms 128
3 ?8 ?2 V- N) E+ |' | C0 o' R; g5.12 Useful references and standards 131
& S i: z# ^9 C( q5 F! l) G# BChapter 6 Fluid Mechanics 135: `. \- Y; G$ Z1 N3 E1 b
6.1 Basic properties 135
4 ~& M. {( Q" Z h" \5 { z% p6.2 Flow equations 137
% ]' t% H6 b* ? o' [" U6 C$ P( w6 E6.3 Flow regimes 142
. { O6 l# I: I* l$ |' j1 d( j6.4 Boundary layers 145
( _: I, G9 e) ~. z: P' ^6.5 Isentropic flow 146
( U9 v/ @" V; f+ Z5 M6.6 Compressible one-dimensional flow 147/ I% ]9 z7 J5 n, v* d
6.7 Normal shock waves 148% c# U: k, Q1 A. x( w: T) p
6.8 Axisymmetric flows 151' }( ] \& t6 l
6.9 Drag coefficients 151
/ Z# L9 O2 u5 p: XChapter 7 Centrifugal Pumps 153! y7 i! P" U) {5 s E9 l- z+ n( L# j
7.1 Symbols 153
/ G, C; y! C0 J2 U7.2 Centrifugal pump types 153
, W8 o& D' ?9 n2 a3 e; O7.3 Pump performance 158' A. Y1 W6 C: K
7.4 Pump characteristics 162
% H+ l( E6 Q" I% i& |" h7.5 Specifications and standards 163
/ Y$ Z3 F! U4 R o# ?7.6 Test procedures and techniques 164; A9 i6 O- ?0 ?/ A
7.7 Pump specific speed n
; m1 L6 h4 V# R, y$ \" j! Xs 169
% N6 ?" c' u. u3 J$ `2 d7.8 Pump balancing 172
- p! y' K+ y6 E# o7.9 Balance calculations 173
: }8 c/ z3 X- @6 w7.10 Pump components – clearances and fits 176+ M& _* E* s( d0 D0 R- X
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