1 / 13

NU-ROOF WP 2 Compatibility of Arginotec (NOTT) with Nanophos products

NU-ROOF WP 2 Compatibility of Arginotec (NOTT) with Nanophos products. Characterization of products:. Arginotec NX Nanopowder: Nanoscaled layer silicate Dry powder without any chemicals Particle size in average: D50 < 150 nm

aislin
Download Presentation

NU-ROOF WP 2 Compatibility of Arginotec (NOTT) with Nanophos products

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. NU-ROOF WP 2 Compatibility of Arginotec (NOTT) with Nanophos products

  2. Characterization of products: • Arginotec NX Nanopowder: • Nanoscaled layer silicate • Dry powder without any chemicals • Particle size in average: D50 < 150 nm • Easy to disperse (excellent compatibility to water, for best nanoscaled distribution jet mixer or dissolver is • recommended)

  3. Characterization of products: • SurfaPore Thermodry: • Macroscopic hollow spheric glass bubbles • Distributed in organic solvent (reference to Formaldehyd) • Estimated particle size: 20 - 50 µm Nanophos Thermodry 100-fold

  4. Characterization of products: • Paint + Additives?: • Macroscopic hollow spheric glass bubbles • Distributed in unknown organic solvent (reference to Formaldehyd) • Estimated particle size: 20 - 50 µm • Similar to Thermodry, further unidentified additives suspected Paint+additives (light trough the sample) 100-fold Paint+additives after 2 d (additional top light) 100-fold

  5. Characterization of products: • SurfaPore C: (Primer; not relevant for NU-ROOF!?) • Macroscopic milled glass • Silicone resin (reference to Formaldehyd) • Estimated particle size: < 10 - more than 100 µm • (Silicone resin reacts to Polysiloxan. This is an organomodified Quartz what has a very distinctive affinity to silicate building materials. Information from technical description of Wacker Silicones.) SurfaPore C (light trough the sample) 100-fold SurfaPore C (top light) 100-fold

  6. Testing the compatibility: With SurfaPore Thermodry: 20 % SurfaPore Thermodry was diluted in water (only by stirring) no problem (20 weight-% relative to 100 weight-% water) Thermodry 20 % diluted in water (light through sample) 100-fold Thermodry 20 % diluted in water (additional top light) 100-fold

  7. Testing the compatibility: With SurfaPore Thermodry: 20 % SurfaPore Thermodry was diluted in water (only by stirring) no problem pH 9,6 5 % Arginotec added (only by stirring) no problem pH 9,3 (20 weight-%, respectively 5 weight-% relative to 100 weight-% water) Thermodry 20 % + Arginotec 5 % diluted in water (light through sample) 100-fold Thermodry 20 % + Arginotec 5 % diluted in water (additional top light) 100-fold

  8. Testing the compatibility: With SurfaPore Thermodry: 20 % SurfaPore Thermodry was diluted in water (only by stirring) no problem 5 % Arginotec added (only by stirring) no problem Result: There is no incompatibility between Arginotec and SurfaPore Thermodry to see. But! As a problem of Thermodry the hollow spheric glass bubbles what are very lightweight begin to segregate out of the suspension after a few minutes. This problem is depending on the viscosity of the solution and has to be solved by accomodation (Nanophos). Segregation of Thermodry out of the suspension

  9. Testing the compatibility: With SurfaPore Thermodry: 20 % SurfaPore Thermodry was diluted in water (only by stirring) no problem 5 % Arginotec added (only by stirring) no problem After segregation: Thermodry segregated from the suspension 100-fold After segregation: Suspension with Arginotec 100-fold

  10. Testing the compatibility: With Paint + Additives: 5 % Arginotec added (only by stirring) no problem (5 weight-% relative to 100 weight-%) Paint + Additives + 5 % Arginotec 100-fold (top light) Paint + Additives + 5 % Arginotec after 2d, 100-fold (top light, additional light through the sample)

  11. Testing the compatibility: With Paint + Additives: 5 % Arginotec added (only by stirring) no problem (5 weight-% relative to 100 weight-%) Result: There is no incompatibility between Paint + Additives and Arginotec to see. The colour and the texture of the mixture has not really changed. Paint + Additives + 5 % Arginotec in comparison with the original

  12. Testing the compatibility: With Surfapore C: (Primer; not relevant for NU-ROOF!?)(Only for completeness!) 10 % Arginotec added (only by stirring) no problem (10 weight-% relative to 100 weight-%) Result: There is to see a typical and absolutely expected reaction of a silicon resin with a mineral. The result is an expected Polysiloxan (by emision of volatile ingredients). SurfaPore C + 10 % Arginotec, reaction was started SurfaPore C + 10 % Arginotec, after a few days

  13. Conclusion: • There are no critical effects to see between Nanophos products and Arginotec. So there is no problem relative to compatibility. • Arginotec is not modified. If really needed Arginotec is able to get modified.

More Related