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Vibration characterization and numerical modeling of a pneumatic impact hammer.
Blacksburg, Virginia: Virginia Polytechnic Institute and State University, 2006 Jul; :1-141
Hand transmitted vibration (HTV) is one of the most common hazards faced by workers in the construction industry. A major source of HTV is hand held percussion tools, such as pneumatically driven chipping hammers and rock drills. This thesis presents a new approach to measuring the vibration from these tools using an experimental hand arm model to which the tools are attached. The experimental hand-arm model has been designed to have similar dynamic characteristics to that of a human hand-arm system. This approach addresses the issue of repeatability as HTV measurements suffer from variability between cases. The measured acceleration of the hand-arm system is in range or close to range of the measured accelerations of the test subjects with superior repeatability. Further, the thesis presents a nonlinear numerical model of a pneumatic impact hammer. Fundamentally, the numerical model was made up of two different sub-models, 1) a fluid flow model and 2) a structural dynamic model. The fluid flow model was based on the equations for mass flow rate of air though a bleed orifice assuming an isentropic process. The second sub-model deals with modeling the structural components of the impact hammer consisting of the major hammer like the center body, handle, piston and chisel as well as the human hand and the ground. Time domain simulations of the hammer were carried out by using a state space formulation to get displacements, velocities and accelerations of the each component as well as the exhaust jet velocities. Experiments were carried out to measure the handle response and exhaust jet velocities as well as pressure profiles. The results obtained from the numerical model were then validated using these experimental results. Finally, a parametric study using the numerical model was carried out to explore different vibration control techniques.
Hand-tools; Vibration; Vibration-exposure; Vibration-effects; Hazards; Workers; Construction; Construction-industry; Construction-workers; Tools; Pneumatic-tools; Models; Repetitive-work; Mathematical-models; Author Keywords: Pneumatic Impact Hammer; Numerical Modeling; Vibration and Acoustic Characterization; State-space Modeling; Hand Transmitted Vibrations
Vibration characterization and numerical modeling of a pneumatic impact hammer
Virginia Polytechnic Institute and State University
Page last reviewed: November 27, 2020
Content source: National Institute for Occupational Safety and Health Education and Information Division