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Engineers Guide To Rotating Equipment., g& p2 @3 e, z( _) J$ H2 F2 ?* {; }
, W* f. Q" e/ s+ X5 T, e9 ?0 CContents. {: @8 Z, B* W7 r
About the Author vi* J" y0 @& @3 y5 {" t
Preface vii: H+ k8 V( R. X/ u6 L$ R6 y
Introduction ix
! Y7 T5 B, {- ~6 k# m2 AChapter 1 Engineering Fundamentals 19 a8 \- r4 ~% e5 ~. R
1.1 The Greek alphabet 1
, u9 N0 [' q+ {9 a2 x6 s9 }/ g1.2 Units systems 2
1 G; q& @* Z& h4 D* @1.3 Conversions 44 L$ U, u% l7 H. K0 u# r
1.4 Consistency of units 17
% F. o; t1 u. k5 f1.5 Foolproof conversions: using unity brackets 17
4 N4 H, t3 l c- m1.6 Imperial–metric conversions 19" \1 B9 _' u3 i
1.7 Dimensional analysis 21
2 ?4 q8 J7 t) G" H& ?1.8 Essential mathematics 23
' g8 b$ _' D( A0 n2 t8 Z& A1.9 Useful references and standards 45 k# ?/ S+ s9 f7 L
Chapter 2 Bending, Torsion, and Stress 47
3 a0 V) y# C& H5 c5 \& `- A9 _2.1 Simple stress and strain 473 f7 ~/ @% G& ~8 k
2.2 Simple elastic bending (flexure) 483 ^9 ]. W! ^, N; E, Y9 o# L9 E# w
2.3 Slope and deflection of beams 510 I" S6 z/ `8 @0 F! H& [! a
2.4 Torsion 51. g6 h2 p3 F3 N* e7 j1 Q. u
2.5 Combined bending and torsion 603 R- I y: \# _4 l; Q1 v" c% H
2.6 Stress concentration factors 61
K% X+ u a2 W5 [* {Chapter 3 Motion and Dynamics 65' w) D; a* ]; `& I0 P
3.1 Making sense of dynamic equilibrium 65
8 x1 Q9 q7 i1 G* _+ K3.2 Motion equations 651 F8 a' T# P# W0 z) ]
3.3 Newton’s laws of motion 67
, S/ z! P7 T( @; s3.4 Simple harmonic motion 679 ]( j7 O, ]& L; O! U: s
3.5 Understanding acceleration 68
, K$ I9 ?: }& o. [/ g: P3.6 Dynamic forces and loadings 692 N% g' P- L0 q9 U5 j0 i
3.7 Forces due to rotating masses 70# K$ G3 V- H! T b& f2 `
3.8 Forces due to reciprocating masses 70; t# s3 {5 \' _7 ]+ }% k4 W
Chapter 4 Rotating Machine Fundamentals: Vibration,+ C. `& a8 y5 m/ L- i- d+ M c1 A. M* D
Balancing, and Noise 711 U' D1 E) p; w! e: P8 y; i
4.1 Vibration: general model 711 ^9 ^$ x9 W% S: k' i
4.2 Vibration formulae 72
+ r7 J6 T% z* ?& g/ {& ]) ^4.3 Machine vibration 752 I8 G% [2 l; b4 D+ L
4.4 Dynamic balancing 78
9 P1 v8 a0 [( o4.5 Machinery noise 798 {" j: e# S$ j
4.6 Useful references 81' T+ y2 _0 |, o
Chapter 5 Machine Elements 835 z; D/ c1 X" {1 K4 ?7 m
5.1 Screw fasteners 838 Y0 Z i( f* S8 h
5.2 Bearings 865 A4 S: i; q. A
5.3 Mechanical power transmission – broad guidelines 90; h7 B& u. ~) n6 ~
5.4 Shaft couplings 91/ w2 u4 x8 J$ j1 }2 q9 a1 W' M; o
5.5 Gears 99" z; K1 X# S6 Y/ _6 I0 i
5.6 Seals 110
: ~ g& V) ^* g" ]) ?& q7 K5.7 Cam mechanisms 119. e( f6 u7 S5 J1 ?+ b$ N) f
5.8 Belt drives 121
, G- E+ H9 D! g+ S5.9 Clutches 1238 m. b1 S1 `9 x7 L8 T& e6 k5 C
5.10 Brakes 128
" M U9 S* n. l. O& O5.11 Pulley mechanisms 1286 E% n/ d+ q; }/ C
5.12 Useful references and standards 131' K: g k/ a3 [" m8 \
Chapter 6 Fluid Mechanics 135/ u( E0 G6 d) _ V' v4 f( S J
6.1 Basic properties 1356 E; S0 N4 q% b% S
6.2 Flow equations 137+ a2 s, D. [# y8 | a5 ~
6.3 Flow regimes 142
2 R/ Q" G" ]6 W, R8 e& V6.4 Boundary layers 145
/ {* s8 ?. I! _" b6.5 Isentropic flow 146
' o1 D8 o7 G! {3 u9 F% f4 b6.6 Compressible one-dimensional flow 147! s9 t/ g# h; C) }& \ }
6.7 Normal shock waves 1486 p9 J; v( J$ b& L) f
6.8 Axisymmetric flows 151
4 F- ^. U. W7 M9 T( Z) g4 ]% H6.9 Drag coefficients 151
$ k$ O; \0 \2 ]# jChapter 7 Centrifugal Pumps 153* p; d0 |4 f% s. K- l1 g \
7.1 Symbols 153* r' J: s1 U2 @' K5 t
7.2 Centrifugal pump types 153
* z& A: _. p3 p' b% P' v! C6 v6 [7.3 Pump performance 158
* l4 @) i/ [& [+ C7.4 Pump characteristics 162
# I* L- T# g) H0 u8 I: u7.5 Specifications and standards 163
2 j$ h( }$ t" q. X B' R8 I* e- X7.6 Test procedures and techniques 1642 v. ~9 h( P6 e4 N
7.7 Pump specific speed n8 s+ E% Q& N, c
s 1699 o0 M. ~1 u. o3 k: x
7.8 Pump balancing 1721 L* n6 X% f. T, c/ \2 a, i( u
7.9 Balance calculations 173& T( w1 Z6 {7 o, _- J) B
7.10 Pump components – clearances and fits 176
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