Bachir Salhi scite author profile

In order to save natural resources, recycling necessarily becomes a top priority for all of us, to save exhaustible resources, produce green energy and preserve the environment.In this perspective, we are trying to valorize a waste of animal origin, largely neglected by the actors of materials, through an industrial transformation into a biological charge to make new sustainable bio-composite materials.Using a tensile test bench, we try to mechanically characterize this biomaterial of renewable resources that, unlike eco-composites, has been neglected by the material actors.Obtained from waste, with a high recycling potential and from renewable resources, the bio-charge to be analyzed will be injected, later in different polymer materials in order to support the evolution of their physicochemical properties: resistance to elongation, wear, heat, corrosion, etc.Consequently, we will be able to contribute to an eco-design of sustainable materials with safeguarding exhaustible resources and preserving our environment

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From the promotion of biodiversity to the Recovery of organic waste

Jammoukh

Mansouri

Salhi

2018

E3S Web Conf.

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Abstract. This article presents an empirical research to classify a new renewable resource material, as opposed to eco-composites, it has been neglected by the materials specialist. This classification is based on the typology of elastic behavior demonstrated by tensile tests. In addition, some identifying criterions of the usefulness of this material were examined. To justify the relevance of this classification, curves from the extension of tests focusing on the virgin material, illustrate significant results of the review. Obtained from waste, having a significant recycling possibilities and potential from renewable resources, bio-mechanically characterized loads will be injected into polymeric materials of different categories. All in the perspective of promoting changes in thermomechanical properties, whether static or dynamic; such as resistance to corrosion, heat, wear... They result in functional changes such as security, relief, coatings and stability...

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Fatigue strength analysis of welded joints using an experimental approach based on static characterization tests

Yeznasni¹,

Mansouri²,

Salhi³

et al. 2016

ces

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Bachir Salhi

Numerical and Experimental Study of the Behavior of PVC Material Subjected to Aging

Industrial and ecological effect of a bio-load on polymers

Bio-charge Elastic Characterization for A Qualitative Perspective of Innovative Bio-Composite Materials

From the promotion of biodiversity to the Recovery of organic waste

Fatigue strength analysis of welded joints using an experimental approach based on static characterization tests

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