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Effect of particle sizes on physical, thermal and mechanical behavior of a hybrid composite with polymer matrix with raffia vinifera cork and Bambusa vulgaris
by
Njeugna, Ebenezer
, Damfeu, Claude
, Mbou Tiaya, Elvis
, Meukam, Pierre
, Huisken Mejouyo, Paul William
, Ndema Ewane, Phillipe Arnaud
in
Characterization and Evaluation of Materials
/ Chemistry
/ Chemistry and Materials Science
/ Complex Fluids and Microfluidics
/ Organic Chemistry
/ Original Paper
/ Physical Chemistry
/ Polymer Sciences
/ Soft and Granular Matter
2024
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Effect of particle sizes on physical, thermal and mechanical behavior of a hybrid composite with polymer matrix with raffia vinifera cork and Bambusa vulgaris
by
Njeugna, Ebenezer
, Damfeu, Claude
, Mbou Tiaya, Elvis
, Meukam, Pierre
, Huisken Mejouyo, Paul William
, Ndema Ewane, Phillipe Arnaud
in
Characterization and Evaluation of Materials
/ Chemistry
/ Chemistry and Materials Science
/ Complex Fluids and Microfluidics
/ Organic Chemistry
/ Original Paper
/ Physical Chemistry
/ Polymer Sciences
/ Soft and Granular Matter
2024
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Effect of particle sizes on physical, thermal and mechanical behavior of a hybrid composite with polymer matrix with raffia vinifera cork and Bambusa vulgaris
by
Njeugna, Ebenezer
, Damfeu, Claude
, Mbou Tiaya, Elvis
, Meukam, Pierre
, Huisken Mejouyo, Paul William
, Ndema Ewane, Phillipe Arnaud
in
Characterization and Evaluation of Materials
/ Chemistry
/ Chemistry and Materials Science
/ Complex Fluids and Microfluidics
/ Organic Chemistry
/ Original Paper
/ Physical Chemistry
/ Polymer Sciences
/ Soft and Granular Matter
2024
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Effect of particle sizes on physical, thermal and mechanical behavior of a hybrid composite with polymer matrix with raffia vinifera cork and Bambusa vulgaris
Journal Article
Effect of particle sizes on physical, thermal and mechanical behavior of a hybrid composite with polymer matrix with raffia vinifera cork and Bambusa vulgaris
2024
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Overview
The objective of this work is to realize and characterize physically, thermally and mechanically hybrid particleboard made of raffia
vinifera
and
Bambusa vulgaris
. This realization used urea formaldehyde as a binder. Particles are obtained by grounding row materials by hammer mills and sieved to obtain three particle sizes. Two reinforcement rates were used to make particleboard by contact molding. Samples obtained are dried at room temperature for a week before submitted to tests. Apparent density and absorption rate were determined by gravimetric method. Value of density allows the particleboards obtained to be classified as light materials. Values of water absorption rate show that the particleboards do not absorb as much water as each material taken separately. Asymmetric hot plane method was used to determine the thermal effusivity and conductivity of the particleboards. Values obtained allow to say that the composite obtained can be classified among the insulating materials with a thermal conductivity lower than the unit. Young’s modulus of particleboards was determined by three-point bending test. Results show that the particleboards obtained are less rigid than the
Bambusa vulgaris
in its raw state. According to results, these materials can be used as insulation materials in the building and interior vehicles.
Publisher
Springer Berlin Heidelberg
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