Modular ''building block''-type mixing manifold with one mixing
channel and three connections, two inlet and one outlet. Made from
chemically-resistant plastic. Several of these blocks can be
plugged together easily to create a single unit with enhanced
mixing capabilities. Part of P/N B0507957.
If both NaBH4 and SnCl2 are to be used as
reducing agents with FIAS systems configured for Hg/hydride
determinations. It is strongly recommended that separate mixing
manifolds, gas-liquid separators, quartz cells, and required tubing
and connectors be dedicated for use with each reducing agent. Can
be used with Flow Injection Mercury System.
Modular ''building block''-type gas-liquid separator made from
chemically-resistant plastic. An exchangeable PTFE membrane in the
screw cap of the separator prevents liquid from being carried into
the quartz cell or ICP torch when working with strongly foaming
samples. (Not for use with ICP-MS. Use P/N B0193772).
Tubing Adapters and Connectors provide a means to connect the component shown to the screw fittings of the PTFE tubing assemblies or to connect the tubing components described. Connects to 3mm
Adapter A, 1/4in (6.4 mm) Internal Screw Thread, 1.8mm Outer Diameter Nipple, for FIAS-100, FIAS-400, FIAS-400MS, FIAS-200 and Flow Injection Mercury System. Tubing Adapters and Connectors provide a means to connect the component shown to the screw fittings of the PTFE tubing assemblies or to connect the tubing components described.
Complete modular unit, consisting of two mixing manifolds with tubing adapters, a gas liquid separator with a PTFE membrane, five spare PTFE membranes, one PTFE tube (110 mm long) and one PTFE tube (300 mm long).
In response to requests from our DPA 7 customers, PerkinElmer
developed these pans to allow reproducible isolation of small
quantities of liquid samples (such as uncured resins) so that UV
curing reactions may be more accurately monitored by DSC. Pans are
available alone or with quartz covers. We recommend you use quartz
covers when analyzing samples which will evaporate at the
temperature of interest.