Why are pillars intended for composite walls

Geotechnical construction methods

Geotechnical Handbook pp 397-468 | Cite as

  • Gebhard Dausch
  • Jörg Zimbelmann
  • 1Citations
  • 11k downloads

Summary

Chapter 8 describes the main geotechnical construction methods. In practice they are also referred to as “heavy” special foundation engineering. Difficult doesn't mean difficult to learn. Heavy means working with heavy or large devices and high loads (Fig. 8-1).

This is a preview of subscription content, log in to check access.

Preview

Unable to display preview. Download preview PDF.

literature

  1. Working committee “Ufereinfassungen” of the HTG and DGGT: Recommendations of the working committee “Shore edging” ports and waterways EAU 2004, 10th edition, Ernst & Sohn, 2005Google Scholar
  2. Working group "Excavation pits" of the DGGT: Recommendations of the working group "Excavation pits" EAB, 4th edition, Ernst & Sohn, 2006Google Scholar
  3. Berner, F., Paul, W .: Ramming, pulling, pressing, shaking. In: Witt, K. J .: Grundbau-Taschenbuch - Part 2, pp. 451–484, 7th edition, Berlin, Ernst & Sohn, 2009Google Scholar
  4. Boley, C., Englert, K., Fuchs, B., Schalk, G .: Construction Law-Taschenbuch - Sonderbauverfahren, 1st edition, Berlin, Ernst & Sohn, 2010Google Scholar
  5. Bünker, R .: Diaphragm wall technology. In: VÖBU drilling manual, 2nd edition, self-published by the Association of Austrian Drilling, Well Construction and Special Civil Engineering Companies, 2007Google Scholar
  6. Dausch, G., Kluckert, K.-D: Current status of anchor technology. Tiefbau 06/2001, pp. 397–404Google Scholar
  7. Dielcher, P .: Drilling technology in foundation engineering. In: VÖBU drilling manual, 2nd edition, self-published by the Association of Austrian Drilling, Well Construction and Special Civil Engineering Companies, 2007Google Scholar
  8. DIN 4126 - in-situ concrete diaphragm walls, August 1986Google Scholar
  9. DIN 4150-3: Vibrations in construction - Part 3: Effects on structures, February 1999Google Scholar
  10. DIN EN 1538 - Execution of special geotechnical works (special civil engineering) - Diaphragm walls, January 2001Google Scholar
  11. DIN EN 1993-5: Eurocode 3: Design and construction of steel structures - Part 5: Piles and sheet piling, German version EN 1993-5: 2007, July 2007Google Scholar
  12. DIN EN 10248-1: Hot-rolled sheet piles made of non-alloy steels - Part 1: Technical delivery conditions, German version EN 10248-1: 1995, August 1995Google Scholar
  13. DIN EN 10248-2: Hot-rolled sheet piles made of unalloyed steels - Part 2: Limit dimensions and shape tolerances, German version EN 10248-2: 1995, August 1995Google Scholar
  14. DIN EN 10249-1: Cold-formed sheet piles made of non-alloy steels - Part 1: Technical delivery conditions, German version EN 10249-1: 1995, August 1995Google Scholar
  15. DIN EN 10249-2: Cold-formed sheet piles made of non-alloy steels - Part 2: Limiting dimensions and shape tolerances, German version EN 10249-2: 1995, August 1995Google Scholar
  16. DIN EN 12063: Execution of special geotechnical works (special civil engineering), sheet pile wall constructions, May 1999Google Scholar
  17. Giersch, E .: Bored piles. In: VÖBU drilling manual, 2nd edition, self-published by the Association of Austrian Drilling, Well Construction and Special Civil Engineering Companies, 2007Google Scholar
  18. Haugwitz, H.-G., Pulsfort, M .: pile walls, diaphragm walls, cut-off walls. In: Witt, K. J .: Grundbau-Taschenbuch - Part 3, pp. 579–648, 7th edition, Berlin, Ernst & Sohn, 2009Google Scholar
  19. Heinrich, M .: Peribonka Hydroelectric Development Project, Quebec / Canada. In: Contributions to the 22nd Christian Veder Colloquium, pp. 45–62, Geotechnik Graz group, 2007Google Scholar
  20. Information material from ABI Maschinenfabrik und Vertriebsgesellschaft mbH, Niedernberg: http://www.abi-gmbh.com/, as of July 15, 2010
  21. Information material from DELMAG GmbH + Co. KG, Esslingen: http://www.delmag.com/, as of July 15, 2010
  22. Information material from ThyssenKrupp GfT Bautechnik GmbH, Essen: http://www.tkgftbautechnik.de/home.html, as of July 15, 2010
  23. Kempfert, H.-G .: pile foundations. In: Witt, K. J .: Grundbau-Taschenbuch - Part 3, pp. 73-278, 7th edition, Berlin, Ernst & Sohn, 2009Google Scholar
  24. Knoblauch, H., Schneider, U .: Bauchemie, 6th edition, Düsseldorf, Werner-Verlag, 2006Google Scholar
  25. Lüftinger, E .: anchor technology and drilled micropiles. In: VÖBU drilling manual, 2nd edition, self-published by the Association of Austrian Drilling, Well Construction and Special Civil Engineering Companies, 2007Google Scholar
  26. Maybaum, G., inter alia: Process engineering and construction operations in foundation engineering and special civil engineering, 1st edition. Wiesbaden, Vieweg + Teubner, 2009CrossRefGoogle Scholar
  27. Richwien, W., inter alia: Sheet pile walls. In: Witt, K. J .: Grundbau-Taschenbuch Teil 3, pp. 279–354, 7th edition, Berlin, Ernst & Sohn, 2009Google Scholar
  28. Stocker, M .: A look back at decisive diaphragm wall developments over the past 4 decades. In: Festschrift: 60 Jahre Müller-Kirchenbauer, pp. 305-318, Uni Hannover, Issue 40, 1994Google Scholar
  29. Teschemacher, P., Stötzer, E .: Developments in milling in diaphragm wall technology. In: German Society for Geotechnics e. V .: Lectures on the building site conference in Karlsruhe, pp. 249–266, 1990Google Scholar
  30. ThyssenKrupp GfT Bautechnik: Sheet pile wall calculation, February 2007Google Scholar
  31. Urban, D .: Working aids for well builders, 1st edition, Bonn, Wirtschafts- und Verlagsgesellschaft Gas und Wasser mbH, 2002Google Scholar
  32. Weiss, F .: The development of diaphragm wall construction, 40 years of special civil engineering 1953–1993, technical and legal developments. In: Festschrift for Karlheinz Bauer on his 65th birthday, pp. 97–120, Düsseldorf, Werner Verlag, 1993Google Scholar
  33. Wichter, L., Meiniger, W .: Grout anchor. In: Witt, K. J .: Grundbau-Taschenbuch - Part 2, pp. 303–366, 7th edition, Berlin, Ernst & Sohn, 2009Google Scholar
  34. DIN 1054: 2005-01: Subsoil - proof of safety in earthworks and foundations, including corrections 1 to 4Google Scholar
  35. DIN 4014 - Bored piles - Manufacture, dimensioning and load-bearing behavior, March 1990Google Scholar
  36. DIN 4026 - driven piles - production, dimensioning and permissible loading, August 1975Google Scholar
  37. DIN 4125 - Grout anchors - Temporary anchors and permanent anchors - Dimensioning, execution and testing, November 1990Google Scholar
  38. DIN 4127 - Earthworks and foundations; Diaphragm wall clays for supporting fluids; Requirements, test methods, delivery, quality control, August 1986Google Scholar
  39. DIN 4128 - Injection piles (in-situ concrete and composite piles) with a small diameter; Manufacture, design and permissible loading, April 1983Google Scholar
  40. DIN 18301 - VOB procurement and contract regulations for construction works - Part C: General technical contract conditions for construction works (ATV) - drilling, April 2010Google Scholar
  41. DIN 18304 - VOB procurement and contract regulations for construction works - Part C: General technical contract conditions for construction works (ATV) - Ramming, vibrating and pressing work, April 2010Google Scholar
  42. DIN 18309 - VOB procurement and contract regulations for construction works - Part C: General technical contract conditions for construction works (ATV) - Press-in work, April 2010Google Scholar
  43. DIN 18313 - VOB procurement and contract regulations for construction works - Part C: General technical contract conditions for construction works (ATV) - Diaphragm wall work with supporting fluids, April 2010Google Scholar
  44. DIN EN 206-1 - Concrete - Part 1: Definition, properties, production and conformity; German version EN 206-1: 2000, July 2001; including DIN EN 206-1 / A1: 2004-10, DIN EN 206-1 / A2: 2005-09Google Scholar
  45. DIN EN 206-9 - Concrete - Part 9: Supplementary rules for self-compacting concrete (SCC); German version EN 206-9: 2010, September 2010Google Scholar
  46. DIN EN 447 - Grout for tendons - General requirements; German version EN 447: 2007, January 2008Google Scholar
  47. DIN EN 1536 - Execution of works in special foundation engineering - Bored piles; German version EN 1536: 2010, December 2010Google Scholar
  48. DIN EN 1537 - Execution of special geotechnical works (special civil engineering) - Grouting anchors; German version EN 1537: 1999 + AC: 2000, January 2001Google Scholar
  49. DIN EN 12699 - Execution of special geotechnical works (special civil engineering) - Displacement piles; German version EN 12699: 2000, May 2001; including correction to DIN EN 12699: 2001–05, November 2010Google Scholar
  50. DIN EN 12794 - precast concrete elements - foundation piles; German version EN 12794: 2005 + A1: 2007, August 2007; including correction to DIN EN 12794: 2007-08, April 2009Google Scholar
  51. DIN EN 14199 - Execution of special geotechnical works (special civil engineering) - piles with small diameters (micropiles); German version EN 14199: 2005, May 2005Google Scholar
  52. EA piles: Recommendations of the “piles” working group, German Geotechnical Society, Ernst & Sohn, Berlin, 2007Google Scholar

Copyright information

© Vieweg + Teubner Verlag | Springer Fachmedien Wiesbaden GmbH 2012

Authors and Affiliations

  • Gebhard Dausch
  • Jörg Zimbelmann
  1. 1. Bilfinger Berger Spezialtiefbau GmbH in FrankfurtFrankfurt
  2. 2. Chair of Soil Mechanics and Foundation Engineering, University of the Bundeswehr, Munich-Monchen