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Engineers Guide To Rotating Equipment.
6 q& ^2 L) V9 P& S5 c* z( s0 M! L3 `" h" q6 f
Contents: t& }& p( C7 F. v) y/ U
About the Author vi( s+ i$ d6 |5 E% r$ E
Preface vii
' r- A7 n/ P1 [0 d: q: XIntroduction ix6 e0 w' E2 J+ R; |
Chapter 1 Engineering Fundamentals 16 r1 {, l0 |1 p' f8 q% n0 _& S8 H
1.1 The Greek alphabet 1
: \$ F8 D- [7 q$ h1.2 Units systems 25 X$ b. O) e2 V z: }; e
1.3 Conversions 49 f; j* l- K: f
1.4 Consistency of units 17
% ]/ \0 u; |4 f9 m. p1 D% t1.5 Foolproof conversions: using unity brackets 171 g/ o5 K0 y9 S0 @3 ^9 [
1.6 Imperial–metric conversions 19; w: p5 y t& M: q* L" V
1.7 Dimensional analysis 219 b: f* f# Q' l" G2 P5 @
1.8 Essential mathematics 23' O% C" g9 o4 P7 _
1.9 Useful references and standards 45/ t @6 E* `/ I4 T8 }. j h7 Q1 I
Chapter 2 Bending, Torsion, and Stress 473 K' d' W2 X& s- Y+ j
2.1 Simple stress and strain 47& _8 N" c; E ?1 O: c
2.2 Simple elastic bending (flexure) 48) D7 L- ?& b2 }
2.3 Slope and deflection of beams 518 r1 n; E' w' s, W4 ?
2.4 Torsion 51# @' W; ], O+ }
2.5 Combined bending and torsion 60/ M8 S* I$ k* |% x
2.6 Stress concentration factors 61
, r9 k5 O; a( a* k! qChapter 3 Motion and Dynamics 65+ a/ `3 _) ]+ `( j2 `
3.1 Making sense of dynamic equilibrium 65
4 Y) G0 F/ _% U& n7 ~/ D3.2 Motion equations 65
4 Q2 G+ w z( W' u# g3.3 Newton’s laws of motion 67
5 K# X$ G1 g+ S3.4 Simple harmonic motion 675 N u+ f( V+ a4 A, l
3.5 Understanding acceleration 68" p+ y6 C$ n9 J- S) G( i
3.6 Dynamic forces and loadings 69
' M! z2 X! _4 P3.7 Forces due to rotating masses 70
7 I1 R. [4 O! S! | c* {7 `3.8 Forces due to reciprocating masses 70/ ^0 A. y/ ~ s& J8 [( m
Chapter 4 Rotating Machine Fundamentals: Vibration,/ v4 ?5 P0 X" r6 [) T
Balancing, and Noise 71
5 Z( y+ t. q/ `- D; ~/ x9 p3 e4.1 Vibration: general model 713 [! o- ?* o! ?' s
4.2 Vibration formulae 72" x; @5 ]2 X/ v
4.3 Machine vibration 75
$ @7 A+ U& s; O- k4.4 Dynamic balancing 78" U2 k1 Y! k# n/ ?: c8 z7 g
4.5 Machinery noise 79
/ h8 q7 O0 G) h, ~7 i4.6 Useful references 81% C# u6 J: u/ X# |4 Y; h
Chapter 5 Machine Elements 83$ i* q/ u/ [ c5 ?) A
5.1 Screw fasteners 83
, Y. ?& X. M# X- y! v; m7 d5.2 Bearings 86) n- B' g; L0 ?& n# O! j
5.3 Mechanical power transmission – broad guidelines 90: z% G5 z0 c2 @( M* u
5.4 Shaft couplings 91
8 `- m4 `( J! S# _/ X& M( e# a5.5 Gears 99; D! b( z5 Q+ c; ?; t& O. Y
5.6 Seals 110
6 _) q9 Y+ [) [+ Z" ]/ L' X5.7 Cam mechanisms 119
' U% M& i3 }, o- h, P5.8 Belt drives 121
1 d/ Z$ |3 q8 \" @ u( R% {" y$ t5.9 Clutches 1237 ^/ s! C" }& |! S, t, w3 k4 J' Q1 w, ]
5.10 Brakes 1284 e5 s- U0 V1 W" O$ p1 O
5.11 Pulley mechanisms 1283 B* x# h G2 y7 I. E! i
5.12 Useful references and standards 1318 m: W: q" f) l1 r* n
Chapter 6 Fluid Mechanics 135
5 `' \# V( g: v' u0 i; R& x6 b6.1 Basic properties 135- ~" R# [3 s3 F
6.2 Flow equations 1371 q; y) b% F- R; p2 z% t2 X5 T
6.3 Flow regimes 142
) \1 d5 z; \( s8 i4 _1 w6.4 Boundary layers 145
7 G9 M& [+ g3 K2 S0 \- `6.5 Isentropic flow 146
# k0 S g9 [9 M+ J6 Y5 z j6.6 Compressible one-dimensional flow 147
0 |# n: B- [ V' V+ i6.7 Normal shock waves 148
; w. _: p6 b2 K( I0 h! R6.8 Axisymmetric flows 151
8 h* K+ I. G( i+ N) p6.9 Drag coefficients 1515 _4 P2 V% Y' A/ ~
Chapter 7 Centrifugal Pumps 153+ R6 E3 n3 y! A3 a- j# {' {7 N
7.1 Symbols 153" \( O% }4 }2 [) ~" ?; Y
7.2 Centrifugal pump types 153
/ E, o9 @+ P6 s1 n$ {6 Z8 j7.3 Pump performance 1580 m" I! S: `4 c2 h0 B2 M& ^
7.4 Pump characteristics 162& r3 F' t1 A/ n1 }. a' c" U) d
7.5 Specifications and standards 1636 Q; a1 p% D6 x0 K& n
7.6 Test procedures and techniques 164( W5 U# \# L8 T% G; D
7.7 Pump specific speed n
' k9 `; ?3 {1 a+ S4 ?: y5 J# vs 1696 x. X8 A3 I& W5 A' }/ K
7.8 Pump balancing 172' d/ |0 Z% \! \% ^ R/ e
7.9 Balance calculations 173
! J2 D' a" ~4 x, ]7.10 Pump components – clearances and fits 176* k* b/ s% n: D! I, S. C3 z5 o) K V
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发表于 2010-7-12 08:58:17
