Nature des échantillons pour essais
Publié le
05 décembre 2018
PARTAGER SUR :
La nature du prélèvement à transmettre au laboratoire est un critère essentiel pour la réalisation des essais. Les techniques analytiques ne permettent que, dans très peu de cas, d’employer des matrices différentes de celles précisées.
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
bBVxrHqeUmALV1A5