Héctor A. Tinoco scite author profile

This study exposes the assessment of a piezo-actuated sensor for monitoring elastic variations (change in Young’s modulus) of a host structure in which it is attached. The host structure is monitored through a coupling interface connected to the piezo-actuated device. Two coupling interfaces were considered (an aluminum cone and a human tooth) for the experimental tests. Three different materials (aluminum, bronze and steel) were prepared to emulate the elastic changes in the support, keeping the geometry as a fixed parameter. The piezo device was characterized from velocity frequency response functions in pursuance to understand how vibration modes stimulate the electrical resistance through electrical resonance peaks of the sensor. An impedance-based analysis (1–20 kHz) was performed to correlate elastic variations with indexes based on root mean square deviation (RMSD) for two observation windows (9.3 to 9.7 kHz and 11.1 to 11.5 kHz). Results show that imposed elastic variations were detected and quantified with the electrical resistance measurements. Moreover, it was demonstrated that the sensitivity of the device was influenced by the type of coupling interface since the cone was more sensitive than the tooth in both observation windows. As a final consideration, results suggest that bio-structures (fruits and bone, among others) could be studied since these can modify naturally its elastic properties.

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Voltage relations for debonding detection of piezoelectric sensors with segmented electrode

Tinoco

Serpa

2012

Mechanical Systems and Signal Processing

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Damage detection in plates using the electromechanical impedance technique based on decoupled measurements of piezoelectric transducers

Tinoco

Robledo-Callejas

Marulanda

et al. 2016

Journal of Sound and Vibration

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Damage Identification in Active Plates with Indices Based on Gaussian Confidence Ellipses Obtained of the Electromechanical Admittance

Tinoco

Marulanda

2015

J Nondestruct Eval

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An automated time and hand motion analysis based on planar motion capture extended to a virtual environment

et al. 2015

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In the context of industrial engineering, the predetermined time systems (PTS) play an important role in workplaces because inefficiencies are found in assembly processes that require manual manipulations. In this study, an approach is proposed with the aim to analyze time and motions in a manual process using a capture motion system embedded to a virtual environment. Capture motion system tracks IR passive markers located on the hands to take the positions of each one. For our purpose, a real workplace is virtually represented by domains to create a virtual workplace based on basic geometries. Motion captured data are combined with the virtual workplace to simulate operations carried out on it, and a time and motion analysis is completed by means of an algorithm. To test the methodology of analysis, a case study was intentionally designed using and violating the principles of motion economy. In the results, it was possible to observe where the hands never crossed as well as where the hands passed by the same place. In addition, the activities done in each zone were observed and some known deficiencies were identified in the distribution of the workplace by computational analysis. Using a frequency analysis of hand velocities, errors in the chosen assembly method were revealed showing differences in the hand velocities. An opportunity is seen to classify some quantifiable aspects that are not identified easily in a traditional time and motion analysis. The automated analysis is considered as the main contribution in this study. In the industrial context, a great application is perceived in terms of monitoring the workplace to analyze repeatability, PTS, workplace and labor activities redistribution using the proposed methodology.

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Mechanical and geometrical characterization of fruits Coffea arabica L. var. Colombia to simulate the ripening process by finite element analysis

Tinoco

Peña

2019

Engineering in Agriculture, Environment and Food

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Harmonic stress analysis on Coffea arábica L. var. Colombia fruits in order to stimulate the selective detachment: A finite element analysis

Tinoco

Peña

2017

SIMULATION

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This study shows a finite element harmonic stress analysis to evaluate the stress performance at the pedicel interface of a fruit-peduncle system of Coffea arábica L. var. Colombia plants. The aim was to study detachment of fruits subjected to mechanical vibrations. A model of the coffee fruit-peduncle system is designed computationally to reproduce its topology in all ripening stages using a proposed numerical procedure. Young's modulus, Poisson ratio, and density were adjusted using analytical models for all ripening stages. The glomerulus of three fruits in different ripening stages was proposed and these were combined in four groups. Based on a detachment model, it was verified which fruit was detached first when a chirp force signal was applied on each glomerulus. Results indicated that dynamic excitations applied in between 130 to 150 Hz detached only ripe fruits, since fruits that were in other ripening stages were not stimulated until detachment in that bandwidth.

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Héctor A. Tinoco

Finite element modal analysis of the fruit-peduncle of Coffea arabica L. var . Colombia estimating its geometrical and mechanical properties

Evaluation of a Piezo-Actuated Sensor for Monitoring Elastic Variations of Its Support with Impedance-Based Measurements

Voltage relations for debonding detection of piezoelectric sensors with segmented electrode

Damage detection in plates using the electromechanical impedance technique based on decoupled measurements of piezoelectric transducers

Damage Identification in Active Plates with Indices Based on Gaussian Confidence Ellipses Obtained of the Electromechanical Admittance

An automated time and hand motion analysis based on planar motion capture extended to a virtual environment

Mechanical and geometrical characterization of fruits Coffea arabica L. var. Colombia to simulate the ripening process by finite element analysis

Harmonic stress analysis on Coffea arábica L. var. Colombia fruits in order to stimulate the selective detachment: A finite element analysis

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