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.
eNrNXFtv47YSft9fERg4fbNl2fLtHGcXbbZpA2zRdHeDnrcFbdE2E1nUklTs9NeXuliXmLJm6LgosMjK4vAbUuQM+c1Qmn/Yb4OrZyok4+F1x+31O1c0XHKfhevrzsPX2+608+H9u/kjeSZVsWmv/81zB52rZUCkvO4k5b0FJaHs/f+3Tx+pRqCi8/7d1ZwvHulS1eRixYLer0RufiNRInM1f+bMv9pSteH+dSeKVXr3ai6V0O14v+PiSUZkSedOfqdaGgnf/Taaud5kWC2fOwkoAD2WVHwi4doIvhJWmMtYCBqqG6LomouX5naPXW88tms3k5+p5LFY0nuiNveCPzOf+uZekEBSKyWrnf+FiueAqkSJEdx5XG6lFTh5JPvP9PududE/6tIbtVfdfteduJPhbOgOvOFkZKVKVB6VUVvSCacYksnEKW8kc2s6cOoSo1ldYtTXElL/0/P0iYqevrAc1XsuFAkuNJ5M3tSn5oX0CPq9dd74TEYBeTnnURFBdDEV2pFcriNJD74K7doC/cxe4YdxEDjIVj/kDudCLU782Q2PQ9Xgd24/2z6IGx4qum8eUTtXqfb5XGRUvh3sXzw0Lxf38SJgS1tnqN1VTKV6+HzX7Av/HW7kJyLpg7icH/mThT7fybf3T9X5cKHWR6mLPbmbGA0ndtAVl1RXANkINcJXFqr6I9cFRAjyUsMNtHfpfUmFOlcBDddqc92ZDA5QuRI9gHR/3ekXtyvbF6n4NpmIUpHQJ8LvHamtPJIjSPcYUmMtNyQMaYCDGhihHknAuEbkgubX3WQz0RV0pVf6DU7FEKwiVnzJt5Fe1Wh3ueFcphaKUOVZqdqxJ4bTM7LRg1MxhqpYCO0msA9qAkVfamf+RBYBsvVTMD4PAhJJJPwMDr/d8hBpXX0wutpvaRgj4V0ovE8USYb3CTu67gClQvH1GjvALtiqmTvFDgDYjBmdIqHBlrvlPkH6UhdssxGPGPahgE020l5aIsGncHCuuHqJtIPm4Uo7B4XUBDZdqTcmC4Kc+YM+HD7Uk74r48WWIfswAFuwDHQnungfMQAbsEy2Wto9d7M9F1LNEK1mx/w1xT4vD6sGiQ82aqvRBlu1bjoSeoKA1g8/8dZIDWDDVpwHikVI+BkcPkIb8xBszEpQ+szoDokPtuNs1tvtSYcDnBYk+kkTTgkQDu+krcb7YutDfP8FCW0204AtnAXnSt8hUTLFqWJbGrGEnzcWIDWPAZpDrtgK26UJAFjbri840rKGUwiyXofJhhLfdA+pb9auzyEBFcj56fUBuItYKewu3XMBwHbswhsAoJMh9fkO2+ohANpi6+l5AFy96+TPaEoNsFoHvfJ5YwiqzZLkTSDISbiZKYaedM1WSQOq93nqj5gKpBPxmk1vw6TiKV5xSXwSqWQQv+M1jfoYTTjoZnNkW7Km8hMnPvXzH0H6oxc9rZFuatRsmtkD6casvOq6PXfQc7tZvA2padiiqZdExPRwx0jvMvLagDWzkhy7CR6N2mH5E8OijttQma83psnCjPQro0kL8mEY0zH0kOBTIPiK7ZHIMyDylq2F3rLo5ns9Fxn6azbTR8nDARLNPYkmoiUSr9kEt8mphJD9Jcqrno3tjYcnVCReNv8PidpseEVUA4nYbHNyt8oSEkhEs73ZMIOxwcCiIF6zUDo3H0ezu1AvIyFVSRpiS8T3WDvmT4yGyNDReHpCzS+j2c2GCEUTJdrvJyvuLQ+RTn88O63iqx64JKfnhOSZrQl+WZ/0Tyt4kCykP35hWT9KLd/iogCp0G1W+PGnG75NZvd9eiPR6C+W2a02LXMnTVblqa5KSWvai/mWaS8XnPWqpG2tOjF3MouyOV9wF674uScLVjvfDHVITv8L8tLpYSu+1ESt4bjVN8vjCUz+eTgldrGU9+XS6VmBEfSXn7/antdI9/qZPRihmX/dMOfhpzcucSRET+S2pj/K62zh/s/g9lHqP5VE9Q9kG/1PC6T3y6Rz7XYWJUrKuaDF79dJZFAVc1IYXTVP8mLrAauUSViIdDWpCpIvwxgw8TzpCRIucpgQ6XpKElyjyDBCauQJQ5Bomv+DSB5iKhDZQ3YOJJsn22CyhtwZpGKZCoNJ1zNboDrVRBWowlHeCVWr2NBiakHFMR3PIldAyTIFA6pQhK9g0hF8iCv5Doj4UfoCXqlROE8tNBTuKw4mzxTUJDVF0n+bovsnitqAiij+SakyJH9a7BBLN99tqa6vDwHzFrEi/t0i17QOHEtWotMtkkbHeCxWxo5bBA0GZRAym4ZBsBqoNci+iroaJMpoZuXHURAVWtEoWQ1wFj/rIU5DrSJKWb0+ilg2VqyFH5ulyljiKZk8MNgsUovyNYqVPSmCdgDZLAYHEHwdUjNVyeNjDUVZsMtQWMSrqte9U6OQRaCKC7NQNa5kKK4GiWrFR743Dw7oomro5rA5fx2+MdQqIjGHOvVojLlGGlg5VKgFV8zyZZzkuFI9VnJc/1XY4wDQFPpAnkVuf1MofcPJsyPdwnzWeaNUJP/rOAFZcD1xORPUp1EyCEmHtNcNaMg1pVqJS5xr/9DK4U7wOEsudyafO4fTWfI6PLez4XcWHA/N8/Bcz47v2XE+JO/DcT8s/8NyQCwPPIsL4vmgLSe04oX23NCeH1pwRDRPxHFFK76I54xo3mjBHa35I5pDtvJIHJd8Uz4J55QIXvkG3BLBLzEcE8czcVwTwTdRnBPMO1HcE8s/YRz0LB6K46L2fPQsTgrnpVBuCuSnCI6K5akormrJV1s4aytvteOuYP4K4LAAHtvMZe35rB2nteG1b8Ft/zF+y2TltfHLfaXiIu+mL7J3qM8lz7b527aXzc/9gEJeP/9Qg1GHErF1trxI9V8sIX/389vn+MuvJ1ys2fe1kM/l1KRfOkgdwKXeo48Xpz9tY3mqQI9seCu0Rf++WrGGz/40zszyGM7cSY4FvX/3N0oM1do=
CjCkPisafku3dswq