terms Flashcards
1
Q
machine design
A
2
Q
AISI
A
3
Q
SAE
A
4
Q
Points of carbon
A
5
Q
design stress
A
6
Q
induced stress
A
7
Q
axial stress
A
8
Q
shear stress
A
9
Q
torsional shear stress
A
10
Q
flexural stress
A
11
Q
pure tensile load
A
12
Q
ccross sectional area
A
sr
13
Q
stress
A
14
Q
strength failure
A
15
Q
deformation failure
A
16
Q
deformation limit
A
17
Q
repeated but not reversed
A
18
Q
pure compression
A
19
Q
ultimate compressive stress
A
20
Q
buckling
A
21
Q
slenderness ratio
A
22
Q
least radius of gyration
A
23
Q
moment of inertia
A
24
Q
pure compression block
A
25
intermediate column
26
Euler Formula
27
Axial concentrated load
28
modulus of elasticity
29
design factor
30
JB Johnson Formula
31
End Ficity Coefficient
32
WQT
33
Pure Torsion
34
Torsional Shear Stress
35
Strength Failure
36
Deformation Failure
37
Polar Moment of Inertia
38
Pure Bending
39
c
distance from the neutral axis
40
thin Walled Pressure Vessel
41
thin walled cylinder
42
circumferential stress
43
Longitudinal stress
44
revited joint
45
joint efficiency
46
for jointed seam
47
thin walled sphere
48
thin walled sphere
49
Lame's equation
50
Hoop Stress
51
Ductile
52
Brittle
53
Stress Concentration
54
Stress Raisers
55
soderberg equation
56
goodman equation
57
fatigue strength reduction factor
58
notch sensitivity factor
59
indefinite life
60
definite life
61
62
Variable Stress Analysis
63
mean or average stress
64
65
yield strength in shear
66
ultimate strength in shear
67
alternating or range stress
68
69
endurance strength
70
71
surface factor
72
73
Size factor
74
Shaft
75
Shaft design
76
spindles
77
countershafts. jackshafts, or headhsafts
78
79
angle of twist
79
80
angular deformation
81
modules of rigidity
82
shaft under pure bending
82
83
84
shaft under combined bending and torsion
85
Equivalent Bending Moment
86
Equivalent Torque
87
Maximum shear Stress Theory
88
Mac
Maximum Normal Stress Theory
89
ASME Code
90
PSME Code
91
keyway
92
93
PSME CODE
94
95
Square KEy
96
Flat Key
97
Barth Key
97
Round Key
98
Woodruff Key
99
Saddle Key
100
Gib Head Key
101
102
Feather Key
103
Coupling
104
105
Do no allow misalignment of connecting members
Rigid coupling
106
Lack of perfect collinearity of bearing support housings due to the manufacturing tolerances
-Shaft bending deflection under load
-Use of two separately mounted units, such as couplings or motor shaft to a pump shaft.
Flexible Coupling
107
usually applies to a coupling havinig two separate cast iron flanges
Flange Coupling
108
Chain Coupling
109
is a high performance motion control (servo) coupling designed to be the torque transmitting element (by connecting two shafts together) while accommodating for shaft misalignment. It is designed to be flexible, while remaining torsionally strong under high torque loads.
Flexible Disk Coupling
110
is used to join two shafts which are parallel and having a lateral misalignment. It consists of two flanges A and B with slots and a central floating part E with two tongues T1 and T2 at right angles.
Oldham Coupling
111
is a hydrodynamic device which is used to transfer rotational power from one shaft to another by the use of transmission fluid.
Hydraulic Coupling
