Valorization of Coffee Husk in Ternary Bio-Composites: Synergistic Reinforcement of Bio-Epoxy/Polylactic Acid for Enhanced Mechanical and Physical Properties

Isaác Molina-Sánchez; Carlos Moreno-Miranda; Rodny Peñafiel; Mayra Paredes-Escobar; Pilar Pazmiño-Miranda; Miguel Aldás; Estefanía Altamirano-Freire; Nelly Flores

doi:10.3390/polym17223013

Valorization of Coffee Husk in Ternary Bio-Composites: Synergistic Reinforcement of Bio-Epoxy/Polylactic Acid for Enhanced Mechanical and Physical Properties

Isaác Molina-Sánchez
, Carlos Moreno-Miranda
, Rodny Peñafiel
, Mayra Paredes-Escobar
, Pilar Pazmiño-Miranda
, Miguel Aldás
, Estefanía Altamirano-Freire
, Nelly Flores

Research and Development Group in Applied Sciences to Biological Resources (GIDCARB)

Research output: Contribution to journal › Article › peer-review

Abstract

This study investigated Coffee arabica husk (CAH) as a reinforcing filler to create sustainable biocomposites from agro-industrial waste. The research explored the relationship between processing, structure, and properties using two matrices: polylactic acid (LA) and a bio-based epoxy resin (BER). We found that CAH incorporation increased the elastic modulus in all composites, with the stiffening effect being more significant in BER-based systems. However, filler inclusion dramatically reduced composite toughness. Our analysis showed that melt processing significantly reduced the CAH aspect ratio, with BER causing a more pronounced reduction than LA. Conversely, LA showed a greater tendency to fill the porous voids of the CAH particles. This work demonstrates the crucial interaction of filler, matrix, and processing on a composite’s final performance. These materials have shown promises for sustainable packaging and other technical applications.

Original language	English
Article number	3013
Journal	Polymers
Volume	17
Issue number	22
DOIs	https://doi.org/10.3390/polym17223013
State	Published - Nov 2025

Bibliographical note

Publisher Copyright:
© 2025 by the authors.

Keywords

agro-waste valorization
bio-based epoxy
biocomposites
Coffea arabica husk
matrix-filler interface
polylactic acid

Access to Document

10.3390/polym17223013

Cite this

Molina-Sánchez, I., Moreno-Miranda, C., Peñafiel, R., Paredes-Escobar, M., Pazmiño-Miranda, P., Aldás, M., Altamirano-Freire, E., & Flores, N. (2025). Valorization of Coffee Husk in Ternary Bio-Composites: Synergistic Reinforcement of Bio-Epoxy/Polylactic Acid for Enhanced Mechanical and Physical Properties. Polymers, 17(22), Article 3013. https://doi.org/10.3390/polym17223013

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title = "Valorization of Coffee Husk in Ternary Bio-Composites: Synergistic Reinforcement of Bio-Epoxy/Polylactic Acid for Enhanced Mechanical and Physical Properties",

abstract = "This study investigated Coffee arabica husk (CAH) as a reinforcing filler to create sustainable biocomposites from agro-industrial waste. The research explored the relationship between processing, structure, and properties using two matrices: polylactic acid (LA) and a bio-based epoxy resin (BER). We found that CAH incorporation increased the elastic modulus in all composites, with the stiffening effect being more significant in BER-based systems. However, filler inclusion dramatically reduced composite toughness. Our analysis showed that melt processing significantly reduced the CAH aspect ratio, with BER causing a more pronounced reduction than LA. Conversely, LA showed a greater tendency to fill the porous voids of the CAH particles. This work demonstrates the crucial interaction of filler, matrix, and processing on a composite{\textquoteright}s final performance. These materials have shown promises for sustainable packaging and other technical applications.",

keywords = "agro-waste valorization, bio-based epoxy, biocomposites, Coffea arabica husk, matrix-filler interface, polylactic acid",

author = "Isa{\'a}c Molina-S{\'a}nchez and Carlos Moreno-Miranda and Rodny Pe{\~n}afiel and Mayra Paredes-Escobar and Pilar Pazmi{\~n}o-Miranda and Miguel Ald{\'a}s and Estefan{\'i}a Altamirano-Freire and Nelly Flores",

note = "Publisher Copyright: {\textcopyright} 2025 by the authors.",

year = "2025",

month = nov,

doi = "10.3390/polym17223013",

language = "English",

volume = "17",

journal = "Polymers",

issn = "2073-4360",

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Molina-Sánchez, I, Moreno-Miranda, C, Peñafiel, R, Paredes-Escobar, M, Pazmiño-Miranda, P, Aldás, M, Altamirano-Freire, E & Flores, N 2025, 'Valorization of Coffee Husk in Ternary Bio-Composites: Synergistic Reinforcement of Bio-Epoxy/Polylactic Acid for Enhanced Mechanical and Physical Properties', Polymers, vol. 17, no. 22, 3013. https://doi.org/10.3390/polym17223013

TY - JOUR

T1 - Valorization of Coffee Husk in Ternary Bio-Composites

T2 - Synergistic Reinforcement of Bio-Epoxy/Polylactic Acid for Enhanced Mechanical and Physical Properties

AU - Molina-Sánchez, Isaác

AU - Moreno-Miranda, Carlos

AU - Peñafiel, Rodny

AU - Paredes-Escobar, Mayra

AU - Pazmiño-Miranda, Pilar

AU - Aldás, Miguel

AU - Altamirano-Freire, Estefanía

AU - Flores, Nelly

PY - 2025/11

Y1 - 2025/11

N2 - This study investigated Coffee arabica husk (CAH) as a reinforcing filler to create sustainable biocomposites from agro-industrial waste. The research explored the relationship between processing, structure, and properties using two matrices: polylactic acid (LA) and a bio-based epoxy resin (BER). We found that CAH incorporation increased the elastic modulus in all composites, with the stiffening effect being more significant in BER-based systems. However, filler inclusion dramatically reduced composite toughness. Our analysis showed that melt processing significantly reduced the CAH aspect ratio, with BER causing a more pronounced reduction than LA. Conversely, LA showed a greater tendency to fill the porous voids of the CAH particles. This work demonstrates the crucial interaction of filler, matrix, and processing on a composite’s final performance. These materials have shown promises for sustainable packaging and other technical applications.

AB - This study investigated Coffee arabica husk (CAH) as a reinforcing filler to create sustainable biocomposites from agro-industrial waste. The research explored the relationship between processing, structure, and properties using two matrices: polylactic acid (LA) and a bio-based epoxy resin (BER). We found that CAH incorporation increased the elastic modulus in all composites, with the stiffening effect being more significant in BER-based systems. However, filler inclusion dramatically reduced composite toughness. Our analysis showed that melt processing significantly reduced the CAH aspect ratio, with BER causing a more pronounced reduction than LA. Conversely, LA showed a greater tendency to fill the porous voids of the CAH particles. This work demonstrates the crucial interaction of filler, matrix, and processing on a composite’s final performance. These materials have shown promises for sustainable packaging and other technical applications.

KW - agro-waste valorization

KW - bio-based epoxy

KW - biocomposites

KW - Coffea arabica husk

KW - matrix-filler interface

KW - polylactic acid

UR - https://www.scopus.com/pages/publications/105022867184

U2 - 10.3390/polym17223013

DO - 10.3390/polym17223013

M3 - Article

AN - SCOPUS:105022867184

SN - 2073-4360

VL - 17

JO - Polymers

JF - Polymers

IS - 22

M1 - 3013

ER -

Valorization of Coffee Husk in Ternary Bio-Composites: Synergistic Reinforcement of Bio-Epoxy/Polylactic Acid for Enhanced Mechanical and Physical Properties

Abstract

Bibliographical note

Keywords

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