Skip to content

reportCoatings
4.3.9 References and Literature

  1. http://www.tececo.com/files/publicity/ZKGCementLimeGypsumFeb07Part1Orig.pdf
  2. "Mechanical activation of granulated blast furnace slag and its effect on the proper-ties and structure of portland slag cement", D. Touil, S. Belaadi and C. Frances, Cement and Concrete Research, Volume 36, Issue 3, March 2006, 416-421.
  3. Gaia nanosilica, http://www.cognoscibletechnologies.com/en/concrete-additives.php
  4. Nanotechnology of Concrete, Konstantin Sobolev, Miguel Ferrada-Gutierrez, http://nano-cement.50webs.com/
  5. SIKA Technology AG, Switzerland
  6. "The European Guidelines for Self Compacting Concrete", http://www.efnarc.org/pdf/SCCGuidelinesMay2005.pdf
  7. "Bringing new life to your mix: researches around the world are bringing concrete to life with new admixture polymers", Rick Felton, Concrete Producer, 2004
  8. http://www.cement.org/tech/cct_con_design_uhpc.asp
  9. UHCP "Ductal", Larfarge, http://www.ductal.com/
  10. Dyckerhoff "Nanodur", "nanotechnolgie aktuell", 1/2008, ISSN 1866-4997
  11. Makar, J.M.; Beaudoin, J.J. "Carbon nanotubes and their application in the con-struction industry," 1st International Symposium on Nanotechnology in Construction (Paisley, Scotland, June 22, 2003), pp. 331-341 (NRCC-46618)
  12. Makar, J.M.; Margeson, J.C.; Luh, J. "Carbon nanotube/cement composites - early results and potential applications," 3rd International Conference on Construction Mate-rials: Performance, Innovation and Structural Implications (Vancouver, B.C. August 21, 2005), pp. 1-10 (NRCC-47643)
  13. CNT reinforced canoe, http://www.uni-siegen.de/fb8/bwc/aktuelles/kanu.html
  14. TU Delft, "Application of Ultra High Performance Concrete (UHPC) in LNG Ter-minals", http://www.citg.tudelft.nl/live/pagina.jsp?id=e656fd6f-d425-416a-bb4d-ffdcdc45e9a6&lang=nl&binary=/doc/MSc%20Projecten%20-%20UHPV%20V05.doc
  15. "NanoByg - a survey of nanoinnovation in Danish construction" http://www.nanet.nu/upload/centre/nanet/nanobyg/nanobyg_a%20survey%20of%20nanoinnovation%20in%20danish%20construction.pdf
  16. Press release "Fraunhofer Institute for Solar Energy Systems ISE", 2001; http://idw-online.de/pages/de/news36477
  17. Fachinformationszentrum (FIZ) Karlsruhe, http://www.bine.info
  18. Pilkington http://www.pilkingtonselfcleaningglass.co.uk/
  19. Erlus Lotus, http://www.erlus.de/index.php?lg=en
  20. http://www.lotusan.de
  21. http://www.col9.de/portal/basf/ien/dt.jsp?setCursor=1_314889
  22. http://www.techradar.com/news/world-of-tech/anti-reflective-solar-cells-gain-efficiency-481604
  23. Bioinspired Self-Cleaning Antireflection Coatings, Wei-Lun Min, Bin Jiang, Peng Jiang, Advanced Materials, Volume 20 Issue 20, Pages 3914 - 3918

Further Readings:

  1. "Nanotechnology in Construction", Bartos P. J. M., W. Zhu, P.J.M. Bartos, J.J. Hughes, P. Trtik, Royal Society of Chemistry, July 2004
    http://search.barnesandnoble.com/Nanotechnology-in-Construction/Bartos-P-J-M/e/9780854046232
  2. Materials in Construction: "Application of nanotechnology in construction", W.Zhu, P. J. M. Bartos and A. Porro, http://www.springerlink.com/content/p7646pj4610072l6/
  3. Nanotechnology and Construction, Nanoforum Report, Surinder Mann, Nanofo-rum 2006, www.nanoforum.org
  4. CEMENT AND CONCRETE RESEARCH, Elsevier, ISSN: 0008-8846
    http://www.elsevier.com/wps/find/journaldescription.cws_home/352/description#description
  5. New Building Materials & Construction World Magazine" (NBW &CW), Sri Lanka
    http://www.buildsrilanka.com/Cdc/nbmcw.htm
  6. Cement International, Verlag Bau + Technik, (engl/german) http://www.verlagbt.de/verlag/ci/index.en.php?navid=56
  7. Advances in Cement Research, ISSN (printed): 0951-7197
    http://www.thomastelford.com/journals/JournalContentPage.asp?JournalTitle=Advances%20in%20Cement%20Research&JournalID=2&JournalMenu=true&OriginalTitle=Advances%20in%20Cement%20Research&homepage=True

Document details:

Visits: 58, Published on: November, 11th 2008, 03:04 PM, Size: 4 KByte

Other documents in this catalogue entry:

IconFig. 3: Many of today´s non-residential buildings are virtually made of glass.

Architectural glass is a frequently used material in different parts of modern buildings. Especially the use of sheet glass as facade cladding is widespread in non-residential buildings (Fig...

Show document info370 KByte
IconFig. 4: Schematic view of a low-E coating, left and double-glazing with low-e coating in between, right.

A simple low-e coating is shown in fig. 4. It is based on a thin silver nanocoating surrounded by dielectric layers. The insulating properties can be even enhanced by repeating the layer stack of fig 4. The typical thickness of each individual layer is in the range of several 10 nm or less. Silver looses its metallic appearance when going to ultra-thin...

Show document info77 KByte
IconFig. 5: Gaschromic window

This invisible film takes on a deep blue colour when it comes into contact with smallest amounts of hydrogen. The colour is bleached away if oxygen is introduced (Fig...

Show document info337 KByte
IconFig. 6: Self Cleaning glass roof based on TiO2-Nanoparticles.

Since 2001 self-cleaning windows based on TiO2 are on the European market (Pilkington Active) Fig...

Show document info173 KByte
IconFig. 7: Self-cleaning roof tiles.

Photocatalytic principle has also been applied to clay roof tiles (Fig...

Show document info291 KByte
IconFig. 8: Silica nanoparticles embedded in an organic polymer matrix.

Show document info369 KByte
IconFig. 9: Comparison between a motheye structured surface (left) and an antireflective coating (right).

Both methods reduce the reflection...

Show document info46 KByte
IconGaschromic window

Show document info81 KByte

Jump back to top