NAT FLOW

Brand Owner Address Description
NATFLOW Axxin Pty Ltd 582 Heidelberg Fairfield VIC 3078 Australia NAT FLOW;Analytical instruments for medical use in the areas of infectious disease, cardiac disease, cancer, endocrinology, fertility and toxicology; detecting instruments for medical use for detecting infectious disease, cardiac disease, cancer, endocrinology, fertility and toxicology; detecting instruments for veterinary use; diagnostic instruments for medical use, namely, in the areas of infectious disease, cardiac disease, cancer, endocrinology, fertility and toxicology; medical diagnostic testing instruments for use in immunoassay procedure; electro-medical diagnostic instruments for in the areas of infectious disease, cardiac disease, cancer, endocrinology, fertility and toxicology; electronic medical instruments for use in the areas of infectious disease, cardiac disease, cancer, endocrinology, fertility and toxicology; medical analysis instruments in the areas of infectious disease, cardiac disease, cancer, endocrinology, fertility and toxicology; medical apparatus and instruments in the areas of infectious disease, cardiac disease, cancer, endocrinology, fertility and toxicology; medical diagnostic instruments in the areas of infectious disease, cardiac disease, cancer, endocrinology, fertility and toxicology; medical instruments for animals; photometric instruments for medical use in the areas of infectious disease, cardiac disease, cancer, endocrinology, fertility and toxicology; research instruments for medical diagnosis in the field of infectious disease, cardiac disease, cancer, endocrinology, fertility and toxicology; testing instruments for medical diagnostic purposes in the areas of infectious disease, cardiac disease, cancer, endocrinology, fertility and toxicology;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. A method and apparatus for monitoring and controlling the nano-scale flow rate of fluid in the operating flow path of a HPLC system. A first flow sensor is disposed in a first flow path between a first flow-divider and a fluidic tee. A second flow sensor is disposed in a second flow path between a second flow-divider and the fluidic tee. A first recycle flow restrictor is disposed in the first recycle flow path in fluid communication with the first flow-divider. A second recycle flow restrictor is disposed in the second The permeability of each recycle flow restrictor can be selected to produce a desired flow rate with each respective flow path. The output signals of the first and second flow sensors to control output of a pump within each flow path.