Shock and Vibration Handbook, Volume 1Cyril M. Harris, Charles E. Crede McGraw-Hill, 1961 - Shock (Mechanics) |
From inside the book
Results 1-3 of 42
Page 17-2
... wire or foil used in a strain gage must be very fine or thin to have a relatively high electrical resistance , it is difficult to handle . For example , the wire used in typical gages is 1 mil ( 0.001 in . ) in diameter , which is about ...
... wire or foil used in a strain gage must be very fine or thin to have a relatively high electrical resistance , it is difficult to handle . For example , the wire used in typical gages is 1 mil ( 0.001 in . ) in diameter , which is about ...
Page 17-4
... Wire , foil ; static , dynamic ; room- temp . , high - temp . , very high- temp .; paper , Bakelite , ceramic Wire ; static , dynamic ; high - temp .; very high - temp .; ceramic Foil ; static , dynamic ; room temp . , high - temp ...
... Wire , foil ; static , dynamic ; room- temp . , high - temp . , very high- temp .; paper , Bakelite , ceramic Wire ; static , dynamic ; high - temp .; very high - temp .; ceramic Foil ; static , dynamic ; room temp . , high - temp ...
Page 17-40
... wire Bakelite S or D Waltham , Mass . SR - 4 * Baldwin - Lima - Hamilton Corp. , CB Isoelastic wire Bakelite Waltham , Mass . Electrometer * . Electrometer , B Wire Bakelite 350 ° F ( 175 ° C ) S or D Trondheim , Norway Tepic ...
... wire Bakelite S or D Waltham , Mass . SR - 4 * Baldwin - Lima - Hamilton Corp. , CB Isoelastic wire Bakelite Waltham , Mass . Electrometer * . Electrometer , B Wire Bakelite 350 ° F ( 175 ° C ) S or D Trondheim , Norway Tepic ...
Contents
BASIC VIBRATION THEORY | 2-2 |
VIBRATION OF A RESILIENTLY SUPPORTED RIGID BODY | 3-1 |
SHOCK TESTING MACHINES 261 | 3-26 |
Copyright | |
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Common terms and phrases
acceleration accelerometer amplifier angle applied approximately auxiliary mass system axis beam calibration capacitance center-of-gravity characteristics circuit coefficient coil COMPLEX PLANE constant damper defined deflection degree-of-freedom system density determined differential equation displacement dynamic absorber elastic electrical energy equation of motion equivalent system example excitation free vibration frequency range function harmonic impact impedance inertia input instrument integral linear load mass-spring maximum measured mechanical mechanical impedance method mobility mode moment of inertia natural frequency nonlinear obtained oscillator output voltage parameters pendulum phase pickup piezoelectric plane plate power spectral density primary system products of inertia pulse quency ratio recording relative residual response amplitude resilient supporting resistance resonance response curves rigid body rotation sensitivity shock shown in Fig signal sinusoidal solution spectra spring strain gage stress Table temperature tion torsional transducer transform undamped velocity vertical wire zero