https://journals.agh.edu.pl/mech/issue/feed 2018-10-08T14:01:42+02:00 Mechanics & Control mech@agh.edu.pl Open Journal Systems <p><strong><img style="float: left; margin-right: 15px; margin-bottom: 5px;" src="https://journals.agh.edu.pl/public/site/images/admin/mcv35no1small.jpg" alt="" width="200" height="286" />Mechanics and Control </strong>covers a wide range of theoretical and applied aspects of mechanics, mechanical engineering, vibration theory, machine dynamics, robotics, mechatronics, vibroacoustics, control of dynamical systems, active noise and vibration control methods, smart technologies, mechanics of materials, fluid mechanics, thermodynamics, operational reliability, problems of computer aided simulations and design and noise and vibration environment protection.</p> https://journals.agh.edu.pl/mech/article/view/2493 2018-10-08T14:01:29+02:00 Dariusz Grzybek dariusz.grzybek@agh.edu.pl Piotr Micek micek_pt@agh.edu.pl

<p>The monitoring of a structure (e.g., a building) enables safe utilization of such a structure. A large number of sensors that measure selected parameters are often required in applied monitoring systems. Cables or batteries are used to power such sensors. This leads to an increase in utilization costs, as the cables have to be spatially located in a monitored building structure, or batteries have to be changed periodically. The use of the natural properties of piezoelectric materials that convert mechanical energy into electrical energy in places where sensors are mounted is a promising field of wireless monitoring system development. This article presents the results of an experimental study for an energy harvesting system using a piezoelectric composite – the Macro Fiber Composite (MFC). The device used for energy harvesting has a beam structure that was achieved by gluing steel and MFC together. In laboratory research, the characteristics of generated currents and electrical power were obtained for several values of vibration amplitude. The most important conclusion was that the resonant frequency of a piezoelectric beam generator should be established (by the selection of proper dimension or/and mass) both for the vibration frequency of the monitored mechanical structure and the vibration amplitude of this structure.</p>

2018-10-08T00:00:00+02:00 Copyright (c) 2018 Mechanics and Control https://journals.agh.edu.pl/mech/article/view/2070 2018-10-01T21:04:06+02:00 Jacek Snamina snamina@agh.edu.pl Bogdan Sapiński deep@agh.edu.pl

<p>A physical model of a vehicle engine mount incorporating a magnetorheological (MR) damper in squeeze mode is investigated and the structural design and operating characteristics of the MR damper are provided. The mathematical model of an engine mount is formulated. Kinematic excitations are assumed to be those emulating road profile-chassis (car body) interactions. Simulations of engine vibration are performed to determine the efficiency of the proposed engine mount. Conclusions are drawn concerning the potential applications of the MR damper in vehicle engine mounts.</p>

2018-10-08T00:00:00+02:00 Copyright (c) 2018 Mechanics and Control