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Fungilab LCP Low-Viscosity Adapter for Fungilab Viscometers

Used with rotational viscometers to perform measurements on low-viscosity materials. Fungilab LCP Low-Viscosity Adapter allows you to perform accurate and reproducible measurements on low viscosity materials, from 1cP (mPas), as well as shear rate and shear stress determinations.

$1,691.62 - $2,407.51

Specifications

For Use With (Equipment) L and R rotational viscometer models
For Use With (Application) Used to perform accurate and reproducible readings on materials
Viscosity L: 1 to 2.000 and R: 5 to 21.333 cP
View More Specs
Products
Catalog Number Mfr. No. Product Type Price Quantity    

06-815-033

 
fungilab
V12013N
Low Viscosity Adapter with Flow Jacket Each for $2,407.51

06-815-034

 
fungilab
V12013BN
Low Viscosity Adapter (without Flow Jacket) Each for $1,691.62
Description & Specifications

Specifications

For Use With (Equipment) L and R rotational viscometer models
For Use With (Application) Used to perform accurate and reproducible readings on materials
Viscosity L: 1 to 2.000 and R: 5 to 21.333 cP

  • Sample volume: 16mL
  • Removable stainless steel sample container is easily cleaned
  • Optional: PT100 probe to determine the sample temperature with accuracy
  • Available with flow jacket that allows thermostatting of the sample from -10 to +150°C
  • For higher temperature applications, above also available with high temperature resistant materials for up to 300°C
  • Available with or without circulation jacket (request before placing order)
Technical Specifications
  • Measurements range: Sample L: 0.9‡ until 2000 mPa.s or cP; Sample R: 3.2‡ until 21333 mPa.s or cP
  • Shear rate factor for the LCP spindle: 1.2236 x RPM™™™
  • Temperature range of the circulation jacket & thermo station conditions: -10 to +150°C (14 to 212°F)
  • Recommended flow: 15 l/min.
  • Use a thermostatic bath with demineralized water or special refrigeration liquid
  • Change thermostat liquid regularly

†Limited by turbulences
‡For the measurements that represent 10% of the base scale
™™™Shear rate is calculated based on the features of Newtonian liquids