Diseño, construcción y caracterización de sistema neumático para la medición de rugosidad

TecnoLogicas Pub Date : 2015-08-03 DOI:10.22430/22565337.186

Germán A. Bacca-Bastidas, Iván Vásquez-Valencia, Julián Pérez-Ordóñez

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Abstract

This article aims to present the results obtained from the design, construction and characterization of a pneumatic flapper-nozzle amplifier, employed in the measurement of average surface roughness. In the construction of the sensor, low cost materials were used and most pieces were obtained by machining. The data acquisition was performed through PC, using an Arduino interface board. The nonlinear mathematical model of the sensor is based on equations of perfect gas flow through an orifice and the continuity law for a control volume. The characterization of physical parameters obtained through laboratory techniques based on the transient response of the gas pressure in the pressurization and depressurization processes of constant volume chambers, using computational tools for adjusting experimental curves. The validation of the model was based on the specifications of transient response that presents a dynamic system for a step input. For the measurement of the roughness, the mathematical model of average roughness, Ra, was used, and the measured data by the sensor were obtained in sandpapers from P1000 to P2000 size, with reference for validation values of average roughness indicated by the FEPA standard.

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气动粗糙度测量系统的设计、构造和特性

本文旨在介绍一种用于测量平均表面粗糙度的气动挡板喷嘴放大器的设计、构造和特性。在传感器的制造中，采用了低成本的材料，大部分零件都是通过机械加工获得的。数据采集通过PC机进行，使用Arduino接口板。该传感器的非线性数学模型是基于理想气体通过孔板的方程和控制体积的连续性规律。基于恒容室增压和减压过程中气体压力的瞬态响应，利用计算工具调整实验曲线，通过实验室技术获得物理参数的表征。模型的验证是基于瞬态响应的规范，它呈现了一个阶跃输入的动态系统。粗糙度测量采用平均粗糙度Ra数学模型，传感器测量数据在P1000 ~ P2000尺寸的砂纸上获得，并参考FEPA标准给出的平均粗糙度验证值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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TecnoLogicas

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审稿时长

28 weeks