Diseño y construcción de un dispositivo para caracterizar las propiedades mecánicas de materiales metálicos y plásticos a través de la técnica de excitación por impulso
This report explains the design, construction, methodology and results obtained from the characterization of the mechanical properties of materials, in accordance with the international standard ASTM E1876-01. The measurement method consists of a device that acts as a support for the sample of mater...
- Autores:
-
Higuita Caro, Paulina
Echavarría Rúa, David Alonso
- Tipo de recurso:
- Fecha de publicación:
- 2020
- Institución:
- Universidad de San Buenaventura
- Repositorio:
- Repositorio USB
- Idioma:
- spa
- OAI Identifier:
- oai:bibliotecadigital.usb.edu.co:10819/7965
- Acceso en línea:
- http://hdl.handle.net/10819/7965
- Palabra clave:
- Características mecánicas de materiales
Módulo de young
Módulo cortante
Coeficiente de Poisson
Modo de vibración flexural
Modo de vibración torsional
Transformada discreta de fourier
Generador de impulsos
Mechanical characteristics of materials
Young's modulus
Shear modulus
Poisson's ratio
Flexural vibration mode
Torsional vibration mode
Discrete fourier transform
Impulse generator
Materiales (ingenierías)
- Rights
- License
- Atribución-NoComercial-SinDerivadas 2.5 Colombia
| Summary: | This report explains the design, construction, methodology and results obtained from the characterization of the mechanical properties of materials, in accordance with the international standard ASTM E1876-01. The measurement method consists of a device that acts as a support for the sample of material, which is impulsively excited by the effect of a solenoid; finally, by audio capture and digital signal processing in the MATLAB® software, three mechanical characteristics of said material sample are obtained (Young's modulus, Shear modulus and the estimated Poisson ratio). After comparing the standardized values with the experimentally obtained values, it was obtained: for the Young modulus there are errors less than 20% and with an average error of 10%, for the shear modulus there are errors less than 49% and with an average error of 25% and for the estimated Poisson coefficient there are errors greater than 27% and with an average error of 56%. In order to obtain more precise results, it is recommended to pay special attention to the geometry and mass of the sample used, as well as the measuring instruments and the positioning of the components |
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