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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
fSextGxjr6kmwxg6