Foundations for machines: analysis and design
Theory of vibrations. Wave propagation in an elastic medium. Dynamic soil properties. Unbalanced forces for design of machine foundations. Foundations for reciprocating machines. Foundations for impact machines. Foundations for high-speed rotary machines. Foundations for miscellaneous types of machines. Vibration absorption and isolation. Dynamic response of embedded block foundations. Machine foundations on piles. Case histories. Construction of machine foundations. Computer program for the design of a block foundation. Computer program for the design of a hammer foundation. Brief description of some available computer programs. Computation of moment of inertia. Conversion factors.
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THEORY OF VIBRATIONS
WAVE PROPAGATION IN AN ELASTIC MEDIUM
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absorber amplitude of vibration analysis anvil axis base slab beam Beredugo block foundation calculated center of gravity coefficient of elastic column compression computed concrete confining pressure crank damping ratio deck slab depth determined displacement dynamic loads dynamic shear modulus elastic half-space embedded foundation exciting force factor Figure foundation block Geotech given Gmax horizontal vibrations inertia linear linear elastic machine foundation mass method natural frequency Novak obtained operating speed oscillator parameters pile group Poisson's ratio Prakash rad/sec Rayleigh wave resonance response Richart rigid rocking and sliding rocking vibrations rotation sand Section shear modulus shear strain shear wave shear wave velocity shown in Fig simple shear Soil Mech soil pressure soil reaction solution spring constant static stiffness and damping stress surface torsional vibrations trench unbalanced force undamped values vertical vibrations wave propagation weight Young's modulus