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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
vKoRmiBebIwCbSgQ