Brancourt-Hulmel Maryse, Arnoult Stéphanie, Girones Jordi, Jaffuel Sylvie, Vo Thi To Loan, Gineau Emilie, Mouille Gregory, Dubois S., Navard Patrick. 2025. Bottom and top internodes subjected to interactions with genotype in Miscanthus: impact of biochemical composition and anatomy on stem-based composites mechanical properties. Polymers, 17 (7), n.spéc. Advances in Polymer Composites II:966, 22 p.
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Résumé : Miscanthus (Miscanthus Andersson) is a perennial grass for which biomaterials market has taken growing interest. Our objective was to evaluate the effect of stem internode position in Miscanthus × giganteus and Miscanthus sinensis and the impact of its anatomy and biochemical composition on internode-based composites' mechanical properties. Stems' bottom and top internodes were sampled for two genotypes of each species in two different years and separately added to a polypropylene matrix, and the mechanical properties of the internode-reinforced composites were measured. Before composite production, the internodes were extensively phenotyped for biochemical composition and anatomy. Stems' bottom and top internode-based composites yielded different modulus (3203 and 2988 MPa, respectively), while tensile strength was similar (36.4 and 36.5 MPa, respectively). Significant genotype × internode interactions occurred for most variables, mainly due to differences among species, since both Miscanthus sinensis clones proved to be more stable than both Miscanthus × giganteus clones for modulus (4% and 10.2%, respectively). Regarding tensile strength, the species showed small but opposite differences between internodes. Tensile strength and modulus were rather close only in the top internodes, where good mechanical properties were associated with the lowest values of vascular bundles number and section area and highest parenchyma tissue, while opposite results were obtained in the bottom ones, only for tensile strength. Miscanthus sinensis species proved to be interesting for the stability improvement of composite mechanical properties. It appears essential for experimental purposes to stratify the sampling by internode in order to be representative of the whole stem.
Mots-clés Agrovoc : propriété mécanique, génotype, Miscanthus sinensis, anatomie végétale, Miscanthus, composition biochimique, propriété technologique, tige, résistance à la traction, entre noeud, phénotype
Mots-clés géographiques Agrovoc : France
Mots-clés libres : Miscanthus × giganteus, Miscanthus sinensis, Biomaterial, Composites, Mechanical properties, Internode
Agences de financement hors UE : Agence Nationale de la Recherche
Projets sur financement : (FRA) Biomasse pour le futur, (FRA) Saclay Plant Sciences
Auteurs et affiliations
- Brancourt-Hulmel Maryse, INRAE (FRA) - auteur correspondant
- Arnoult Stéphanie, INRAE (FRA)
- Girones Jordi, CEMEF (FRA)
- Jaffuel Sylvie, CIRAD-BIOS-UMR AGAP (FRA)
- Vo Thi To Loan, CEMEF (FRA)
- Gineau Emilie, INRAE (FRA)
- Mouille Gregory, Institut Jean-Pierre Bourgin (FRA)
- Dubois S., ARVALIS Institut du végétal (FRA)
- Navard Patrick, CEMEF (FRA)
Source : Cirad-Agritrop (https://agritrop.cirad.fr/613986/)
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