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Engineers Guide To Rotating Equipment.
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. ^4 r7 f' a; m% W: fContents
8 b' ^- ?2 \1 k" UAbout the Author vi; l9 |( z2 }$ m) Y& a3 S
Preface vii
% l* i4 E* k" p9 XIntroduction ix$ h2 h) ?+ `3 o7 r+ ^2 |
Chapter 1 Engineering Fundamentals 13 `+ O& x* ~; S6 e$ E/ K/ c
1.1 The Greek alphabet 1) P A. v8 d& V. o I: v9 b
1.2 Units systems 2
( c9 q2 `+ f$ s8 T5 W' n1.3 Conversions 4
0 H; C( G6 O& C X& \$ Q, y1.4 Consistency of units 17, n) ?; A+ S4 T- f2 N& W' c
1.5 Foolproof conversions: using unity brackets 17
# A6 P, s& d! A$ M: c$ T1.6 Imperial–metric conversions 19: I4 M- K C2 L8 |$ v8 X# J- T
1.7 Dimensional analysis 21
. U# _9 _ {7 k& }2 m/ i$ Q1.8 Essential mathematics 238 ~1 ~( y: b- r% @: r2 ~% O9 ]. E
1.9 Useful references and standards 453 ?8 C9 N% v3 }$ g
Chapter 2 Bending, Torsion, and Stress 47
" x4 M/ p, F3 I8 Y6 }2.1 Simple stress and strain 47
2 Y: V: e% R5 d& S6 v7 ]8 w2 T5 b. Y2.2 Simple elastic bending (flexure) 48
8 X9 p" Q- Y# l0 s8 E7 j2.3 Slope and deflection of beams 51- R- f7 e' j% N2 F
2.4 Torsion 51
% V3 u4 p' _" V! s7 j0 C4 v2.5 Combined bending and torsion 60
+ C8 [3 e% ?0 {* Q2.6 Stress concentration factors 61
( p1 |8 g& ?+ B% z. mChapter 3 Motion and Dynamics 65; n7 ]+ T( B8 }1 W$ q; m( m4 U6 \
3.1 Making sense of dynamic equilibrium 65
4 ]0 b6 B9 e9 R8 U) S) ]* _3.2 Motion equations 65
" G5 T6 f' M5 ]$ `9 c! m8 W3.3 Newton’s laws of motion 67
9 V. d \: g U- K. [' u: m3.4 Simple harmonic motion 671 S; ?% |9 G0 p8 O$ i
3.5 Understanding acceleration 68( Q! W, S( O2 K6 J+ X6 D
3.6 Dynamic forces and loadings 69+ {. B% }8 H" C7 \
3.7 Forces due to rotating masses 709 R3 Q/ ?* C; q# I; R
3.8 Forces due to reciprocating masses 70* K( E8 `; p# B, S" c/ N+ b
Chapter 4 Rotating Machine Fundamentals: Vibration,' d1 L' r5 q- z4 A; `$ Q$ k
Balancing, and Noise 718 B! t2 G8 m+ ]) x1 W% ?
4.1 Vibration: general model 71
* p) B$ c4 A# R1 S9 u- s4.2 Vibration formulae 720 T3 `4 q: r0 Y8 f: Z+ j
4.3 Machine vibration 75
7 A! L: e1 p+ `6 g, z$ w4.4 Dynamic balancing 78
9 z" `( i3 m: t) d2 K) A4.5 Machinery noise 79; q) X6 v) T+ D7 X$ n
4.6 Useful references 813 q* G# O9 T% E) u' @6 G# Y
Chapter 5 Machine Elements 836 A, i4 b, g7 o
5.1 Screw fasteners 838 i' v4 ~2 ]3 `3 L
5.2 Bearings 86
/ N+ b0 M, o5 |5 h$ J6 w5.3 Mechanical power transmission – broad guidelines 90; P0 `; X3 d* f @
5.4 Shaft couplings 91
- l# z( h L/ V K$ m5.5 Gears 99
, W* h" H5 X! y( S5.6 Seals 110
/ e3 {* @3 p6 h) @$ D5.7 Cam mechanisms 119
7 `' u/ ~' v8 Q1 y5.8 Belt drives 121: M) H& d+ v) ~+ ~( U
5.9 Clutches 123
' J' q6 `( V1 i2 V: M5.10 Brakes 128* Y) _ Q, ?# P$ P; \* n
5.11 Pulley mechanisms 128
}4 s/ `* R. V) X5.12 Useful references and standards 1318 T$ O' C! a9 \9 A7 Q: @
Chapter 6 Fluid Mechanics 135
3 b% [0 y& w' J; @4 f, v6.1 Basic properties 135% H, V6 o& q+ p1 ~. J
6.2 Flow equations 137
8 j: Y+ ]% m) }6.3 Flow regimes 1420 ?& N, {6 R# T# P! _; U
6.4 Boundary layers 145
9 A. H: Q( B3 G) x6.5 Isentropic flow 1466 ^( `' X0 M8 W
6.6 Compressible one-dimensional flow 147
) y; R" i2 O) L% \; N4 ]1 w6.7 Normal shock waves 148
u0 ?5 B9 }) l2 w% M6.8 Axisymmetric flows 151
5 C+ D0 @, ~! B6.9 Drag coefficients 151$ u) i9 P1 e' F# g
Chapter 7 Centrifugal Pumps 153$ H$ B7 L `* Z! N
7.1 Symbols 153/ M6 i4 g. r: N9 p* p- f( e
7.2 Centrifugal pump types 153
8 s0 x3 d% `2 t5 t+ Z. y) U7.3 Pump performance 158, G. a6 R9 c T+ z0 M
7.4 Pump characteristics 1620 w$ {* G7 P# e- P% O8 s- ] E
7.5 Specifications and standards 163; N. p& B a6 J4 o9 i& B
7.6 Test procedures and techniques 164. M$ _% x" u T4 W
7.7 Pump specific speed n$ p! h( v) {; v3 a |% S+ C( I' ?. Y I3 t
s 169
+ L( G+ w+ Y, H0 O& m0 l. [7.8 Pump balancing 172$ z8 Z1 e: j- d" h2 |6 z# u
7.9 Balance calculations 173" b T4 v: ^# u/ M4 o8 ?
7.10 Pump components – clearances and fits 176
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发表于 2010-7-12 08:58:17
