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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
dRlaUOhsShDtSijV