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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
uakhbazPc0hLWObJ