Validation of DOE Factorial/Taguchi/Surface Response Models of Mechanical Properties of Synthetic and Natural Fiber Reinforced Epoxy Matrix Hybrid Material-Reference-Cited by-同舟云学术

Validation of DOE Factorial/Taguchi/Surface Response Models of Mechanical Properties of Synthetic and Natural Fiber Reinforced Epoxy Matrix Hybrid Material

Published:2024-07-18 Issue:14 Volume:16 Page:2051
ISSN:2073-4360
Container-title:Polymers
language:en
Short-container-title:Polymers

Author:

Toapanta Oscar G.¹²³^ORCID,Paredes Juan⁴⁵⁶^ORCID,Meneses Manuel¹,Salinas Gabriela⁴⁷

Affiliation:

1. Escuela de Posgrado, Universidad Nacional de Chimborazo, Riobamba 060110, Ecuador

2. Escuela Doctorado, Universidad Nacional de Ingeniería (UNI), Lima 15333, Peru

3. Campus Benjamín Araujo, Instituto Superior Tecnológico Pelileo, Patate 180550, Ecuador

4. GI3M—Grupo de Investigación e Innovación en Ingeniería Mecánica, Universidad Técnica de Ambato, Ambato 180104, Ecuador

5. Escuela Internacional de Doctorado (EIDUNED), Universidad Nacional de Educación a Distancia (UNED), 28040 Madrid, Spain

6. Facultad de Ingeniería Civil y Mecánica, Universidad Técnica de Ambato, Ambato 180104, Ecuador

7. Facultad de Ciencias de la Salud, Universidad Técnica de Ambato, Ambato 180105, Ecuador

Abstract

A validation of the factorial, Taguchi and response surface methodology (RSM) statistical models is developed for the analysis of mechanical tests of hybrid materials, with an epoxy matrix reinforced with natural Chambira fiber and synthetic fibers of glass, carbon and Kevlar. These materials present variability in their properties, so for the validation of the models a research methodology with a quantitative approach based on the statistical process of the design of experiments (DOE) was adopted; for which the sampling is in relation to the design matrix using 90 treatments with three replicates for each of the study variables. The analysis of the models reveals that the greatest pressure is obtained by considering only the source elements that are significant; this is reflected in the increase in the coefficient of determination and in the predictive capacity. The modified factorial model is best suited for the research, since it has an R2 higher than 90% in almost all the evaluated mechanical properties of the material; with respect to the combined optimization of the variables, the model showed an overall contribution of 99.73% and global desirability of 0.7537. These results highlight the effectiveness of the modified factorial model in the analysis of hybrid materials.

Publisher

MDPI AG

Link

https://www.mdpi.com/2073-4360/16/14/2051/pdf

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