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Field Guide to Optomechanical Design and Analysis [Spiraalköide]

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  • Formaat: Spiral bound, 168 pages, kaal: 220 g
  • Sari: Field Guides
  • Ilmumisaeg: 30-Aug-2012
  • Kirjastus: SPIE Press
  • ISBN-10: 0819491616
  • ISBN-13: 9780819491619
Teised raamatud teemal:
Field Guide to Optomechanical Design and AnalysisSuurem pilt
  • Formaat: Spiral bound, 168 pages, kaal: 220 g
  • Sari: Field Guides
  • Ilmumisaeg: 30-Aug-2012
  • Kirjastus: SPIE Press
  • ISBN-10: 0819491616
  • ISBN-13: 9780819491619
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780819491619.html
Märksõnad:
Optomechanics is a field of mechanics that addresses the specific design challenges associated with optical systems. Intended for practicing optical and mechanical engineers whose work involves both fields, this SPIE Field Guide describes how to mount optical components, as well as how to analyse a given design. Common issues involved with mounting optical components are discussed, including stress, glass strength, thermal effects, vibration, and errors due to motion. This handy reference also has a useful collection of material properties for glasses, metals, and adhesives, along with guidelines for tolerancing optics and machined parts.
List of Symbols and Acronyms
ix
Image Motion and Orientation
1(13)
Optical Effects of Mechanical Motion
1(1)
Lens and Mirror Motion
2(1)
Plane Parallel Plate
3(1)
General Image-Motion Equations
4(1)
Image Motion Example
5(1)
Rigid Body Rotation
6(1)
Quantifying Pointing Error
7(1)
Image Orientation
8(2)
Mirror Matrices
10(2)
Mirror Rotation Matrices
12(1)
Cone Intersecting a Plane
13(1)
Stress, Strain, and Material Strength
14(8)
Stress and Strain
14(2)
Strain-vs-Stress Curve
16(1)
Safety Factor
17(1)
Glass Strength
18(2)
Stress Birefringence
20(2)
Precision Positioning
22(10)
Kinematic Constraint
22(1)
Example Constraints and Degrees of Freedom
23(1)
Semi-Kinematic Design
24(1)
Issues with Point Contacts
25(2)
Precision Motion
27(1)
Stage Terminology
28(1)
Linear Stages
29(1)
Rotation and Tilt Stages
30(1)
Errors in Stage Motion
31(1)
Precision Fastening and Adjustments
32(19)
Standard Hardware
32(1)
Example Screws
33(1)
Fastener Strength
34(2)
Tightening Torque
36(1)
Adjusters
37(1)
Differential Screws and Shims
38(1)
Liquid Pinning
39(1)
Electronic Drivers
40(1)
Flexures
41(1)
Stiffness Relations for Single-Strip Flexures
42(1)
Parallel Leaf Strip Flexures
43(1)
Stiffness Relations for Parallel Leaf Strip Flexures
44(1)
Notch Hinge Flexures
45(1)
Adhesives
46(1)
Adhesive Properties
47(1)
Adhesive Thickness and Shape Factor
48(1)
Thermal Stress
49(1)
Choice of Bond Size and Thickness
50(1)
Mounting of Optical Components
51(38)
Lens Mounts: Off the Shelf
51(2)
Lens Mounting: Custom
53(1)
Calculating Torque and Clearance
54(1)
Potting a Lens with Adhesive
55(1)
Clamped Flange Mount
56(1)
Lens Barrel Assemblies
57(1)
Lens Barrel Assembly Types
58(2)
Surface--Contact Interfaces
60(2)
Prism Types
62(2)
Image-Rotation Prisms
64(1)
Image-Erection Prisms
65(1)
Prism and Beamsplitter Mounting
66(2)
Thin-Wedge Systems
68(1)
Window Mounting
69(3)
Domes
72(1)
Dome Strength
73(1)
Small-Mirror Mounts: Off the Shelf
74(1)
Small-Mirror Mounts: Adhesives and Clamping
75(1)
Small-Mirror Mounts: Tangent Flexure and Hub
76(1)
Mirror Substrates
77(2)
Mirror Substrate Examples
79(1)
Large-Mirror Mounting: Lateral Supports
80(1)
Large-Mirror Mounting: Point Supports
81(1)
Large-Mirror Mounting: Active Supports
82(1)
Self-Weight Deflection: General
83(1)
Self-Weight Deflection: Thin Plates
84(1)
Self-Weight Deflection: Parametric Model
85(1)
Lightweighting Mirrors
86(2)
Flexural Rigidity of Lightweighted Mirrors
88(1)
Design Considerations and Analysis
89(21)
RMS, P--V, and Slope Specifications
89(1)
Finite Element Analysis
90(4)
Vibration
94(1)
Damping Factor
95(1)
Isolation
96(1)
System Acceleration and Displacement
97(1)
Thermal Effects
98(2)
Heat Flow
100(2)
Air Index of Refraction
102(1)
Athermalization
103(1)
Passive Athermalization
104(1)
Active Athermalization
105(1)
Determining Thermally Induced Stress
106(1)
Alignment
107(1)
Optical and Mechanical Axis of a Lens
108(1)
Alignment Tools
109(1)
Tolerancing
110(4)
Geometric Dimensioning and Tolerancing
110(1)
GD&T Terminology
111(1)
GD&T Symbology
112(1)
ISO 10110 Standard
113(1)
Appendices
114(22)
Tolerance Guides
114(3)
Clean-Room Classifications
117(2)
Shipping Environments: Vibration
119(1)
Shipping Environments: Drop Heights
120(1)
Unit Conversions
121(1)
Cost and Performance Tradeoffs for Linear Stages
122(3)
Torque Charts
125(2)
Adhesive Properties
127(3)
Glass Properties
130(4)
Metal Properties
134(2)
Equation Summary 136(5)
Glossary 141(3)
Bibliography 144(4)
References 148(1)
Index 149