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Engineers Guide To Rotating Equipment.
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About the Author vi1 |5 {/ o$ F; t- L+ E, U8 i7 j
Preface vii; \$ `7 E" s: Y( F8 Z. [& |
Introduction ix
" I( p' c5 Q* r2 W+ a1 W9 fChapter 1 Engineering Fundamentals 1
; t( n% a( F# |- i, I) O1.1 The Greek alphabet 1
4 v6 U! E8 K- ?2 d1.2 Units systems 28 m& i2 e. B/ F
1.3 Conversions 4
4 m) y" L# Z5 s. }2 x- c1.4 Consistency of units 17
2 e' ^4 A2 ^. [/ I" M% I! B1.5 Foolproof conversions: using unity brackets 17
: p- S! w5 X' u" K1.6 Imperial–metric conversions 19
9 x# G# H7 z4 x, C5 I+ j# ?* ?1.7 Dimensional analysis 21
$ k" u5 h: w. j& j! q+ ?/ w1.8 Essential mathematics 23! y$ ~+ v. N% j! {! G) }; `& v
1.9 Useful references and standards 45" N# t! A3 M, B& E; T+ z
Chapter 2 Bending, Torsion, and Stress 47
. @. J* H: q+ j: A2.1 Simple stress and strain 47
. @: d+ @3 `6 w( ?& L2.2 Simple elastic bending (flexure) 48& Y/ S+ N( l+ j5 J& l, Q5 R
2.3 Slope and deflection of beams 51
9 t* Q- B" N" h2 ~% u' g2 R, p2.4 Torsion 518 I; R% ]2 ]4 y) _' l/ [
2.5 Combined bending and torsion 60
K$ m' _2 U4 N0 K5 J" U( |, v2.6 Stress concentration factors 61$ V- E/ [6 k- H) Q H1 S: X' h/ Z# M
Chapter 3 Motion and Dynamics 65$ E$ O5 R8 l' ]6 L, z
3.1 Making sense of dynamic equilibrium 65/ e' |: T& Z; i! l: a2 i
3.2 Motion equations 659 ^, z) E: R& s3 b( X* J
3.3 Newton’s laws of motion 67
% x/ g! ?+ _5 d. a: x3 l3.4 Simple harmonic motion 67' Q8 o; V- V$ N1 K; X
3.5 Understanding acceleration 68! q' k/ J# S9 B9 n9 K( i% I! p
3.6 Dynamic forces and loadings 698 w8 |* J3 |/ h1 {& F
3.7 Forces due to rotating masses 705 T: r6 R( Z9 Z4 O" Q8 g. z7 Q# N$ f
3.8 Forces due to reciprocating masses 700 E; K1 n" c/ |0 V
Chapter 4 Rotating Machine Fundamentals: Vibration,
8 ^% x2 o8 B0 d$ S4 U2 cBalancing, and Noise 71
$ K2 t) _2 u) {0 a; P6 h4.1 Vibration: general model 71/ x+ M9 G9 C6 ^2 ?9 q/ v
4.2 Vibration formulae 72& ^: k9 J, j: G; ?$ j+ P
4.3 Machine vibration 75; x- A0 b* F3 L! e% p
4.4 Dynamic balancing 78$ h+ C( b5 @' {0 k8 @* |4 k
4.5 Machinery noise 79
( Q) M' A1 B0 O9 F1 |6 A4.6 Useful references 812 h. X3 k5 I l- c V1 T( ^" i
Chapter 5 Machine Elements 83- b3 b: s4 a4 l4 j7 s) K2 Y( S# ?
5.1 Screw fasteners 83. G, P! |% B. ~
5.2 Bearings 86. u4 z: ?7 D3 \
5.3 Mechanical power transmission – broad guidelines 90
8 }" \; `+ m8 v5.4 Shaft couplings 91) ?: E) ]* x: w W9 _
5.5 Gears 990 _3 c# N- }& D
5.6 Seals 110' f" Y3 r7 a0 o! }& x3 m
5.7 Cam mechanisms 1193 Z, Y8 B: s; { {3 o% m1 N
5.8 Belt drives 121' q* k9 m/ j" _$ K
5.9 Clutches 1238 O) b* C' l3 q7 U* G. {$ {0 K
5.10 Brakes 1288 X. R! m& D$ B8 o6 U( V; j
5.11 Pulley mechanisms 128
- [2 ?5 M1 A' C& i3 O( I5.12 Useful references and standards 131" ]" j a q! ]: N4 g5 r/ M
Chapter 6 Fluid Mechanics 135! P P7 |, W: R2 z6 E6 E1 p$ T* Y
6.1 Basic properties 135+ h4 N/ p% _3 \
6.2 Flow equations 137
: }' C$ n, ^5 G/ f$ H6.3 Flow regimes 142
+ R% M. p+ c0 @) E- i8 E6.4 Boundary layers 145
6 G [7 k" p7 E# l6.5 Isentropic flow 146
. \' G' U0 w J% c7 K; R1 d8 {6.6 Compressible one-dimensional flow 147
4 \% h3 h! Y9 u7 W, Z5 d* ~6.7 Normal shock waves 148' W3 s( ^$ }: a. M+ v. W K
6.8 Axisymmetric flows 151; F" E8 M/ z m6 \$ w& C0 k6 Y4 t
6.9 Drag coefficients 1516 l! [. w$ v. \8 \# k9 ]
Chapter 7 Centrifugal Pumps 153' M& b! U# s% o4 c) g. G% { t4 O
7.1 Symbols 153
) k# M/ Y3 R- T$ y, D7.2 Centrifugal pump types 153
7 X- j4 ]- a5 z2 h) K% O' _, }7.3 Pump performance 158
) a2 z. h% `: j( K& k7.4 Pump characteristics 162
! u$ ^ V( V8 q+ a8 n, |! e2 G7.5 Specifications and standards 163
* v5 ~3 s8 o7 f+ N5 B7.6 Test procedures and techniques 164
/ _+ ]9 r e- M X7.7 Pump specific speed n! h' Q7 z" t! {7 o- v
s 169
0 F$ R" x; \! P' M1 C/ Q O5 `7.8 Pump balancing 1722 Q3 p& y4 c% ^" G/ j h. |! _! ^
7.9 Balance calculations 173
! W6 m9 J: a( ~7.10 Pump components – clearances and fits 176
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