With the CPT being a specialist in the processing of waste and by-products, notably of mineral origin, it has naturally decided to branch out into their valorisation, in particular in the domain of BPW (Buildings and Public Works).
Circular Materials
The materials whose particle size enables them to be classified in the form of gravels or sands contribute to the granular skeleton of materials whilst the fines, after having been subjected to chemical, thermal or mechanical processing, have the potential to be used to partially replace hydraulic binders (cement, lime, etc.)
To do so, the CTP has acquired a series of equipment in order to:
- Activate fine materials to confer on them a pozzolanic or a latent hydraulic character (Siebtechnik eccentric vibrating mill, ZOZ attritor mill, etc.
- Employ materials containing the different secondary materials (mixers, hydraulic press, gravity table, vibrating table, etc.);
- Characterize the physical parameters (VICAT setting-meter, appliances to measure consistency, the rheology, etc.) and mechanical parameters (appliances to measure the longitudinal modulus of elasticity and the shear modulus, the resistance to compression and to bending, the load-bearing capacity by means of establishing the values of CBR/IPI parameters, etc.).
Because it is a question of recycling secondary materials, the CTP is also equipped to be able to carry out leaching tests, either on monolithic blocks or on materials which have been subjected to particle-size reduction.
Generally speaking, the CTP is capable of developing numerous types of materials (inert, of a binding or structural nature) with specific properties and which are constituted of, or which incorporate waste (or by-products) to be recycled. This expertise is developed around the following aspects:
- The characterisation and the processing of different ‘ingredients’ (the production of powders, agglomerates or homogenous mixes, optimisation of the granular skeleton, the sequencing of additives, etc.);
- The understanding of the mechanisms brought into play to ensure cohesion within the material (the effect of natural or accelerated hardening, stabilisation/solidification, inerting/encapsulation, the monitoring of the reactions by calorimetry, ATG, etc.).
- The forming (pouring, pressing, pelletization, etc.) to obtain materials and their final characterisation (compression strength, leaching behaviour, etc.).
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Puisqu’il s’agit de valoriser des matières secondaires, le CTP s’est également équipé de sorte à pouvoir réaliser des tests de lixiviation, à la fois sur blocs monolithiques et sur matière ayant subi une réduction granulométrique.
De manière générale, le CTP est capable de mettre au point de nombreux type de matériaux (inertes, à caractère liant ou structurels) ayant des propriétés spécifiques et qui sont constitués ou incorporent des déchets (ou sous-produits) à valoriser. Cette expertise est développée autour des éléments suivants :
- la caractérisation et le traitement des différents ‘ingrédients’ (réalisation de poudres, agglomérat ou mélanges homogènes, optimisation du squelette granulaire, séquençage des additifs…);
- la compréhension des mécanismes mis en jeu pour assurer la cohésion au sein de la matière (effet de prise naturelle ou accélérée, stabilisation/solidification, inertage/encapsulage, suivi des réactions par calorimétrie, ATG…);
- la mise en forme (coulage, pressage, pelletisation…) pour l’obtention de matériaux et leur caractérisation finales (résistance à la compression, comportement en lixiviation, …).
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