Startseite Mechanical properties of rope-reinforced aluminium extrusions under quasistatic loading conditions
Artikel
Lizenziert
Nicht lizenziert Erfordert eine Authentifizierung

Mechanical properties of rope-reinforced aluminium extrusions under quasistatic loading conditions

  • Kay André Weidenmann , Claudia Fleck , Volker Schulze und Detlef Löhe
Veröffentlicht/Copyright: 23. Mai 2013
Veröffentlichen auch Sie bei De Gruyter Brill
Informationen für Autor*innen
International Journal of Materials Research
Aus der Zeitschrift International Journal of Materials Research Band 98 Heft 1

Abstract

Compound-extruded unidirectionally reinforced lightweight profiles are a novel class of materials for the construction of load-bearing structures. In this paper, investigations of the reinforcing effect of ropes in compound-extruded aluminium profiles tested under quasistatic loading conditions are presented. In particular, the investigations lead to a characterisation of the interface between matrix and reinforcing element, as the compound's internal load transfer is a crucial factor in the overall mechanical properties. It could be shown that – in addition to a form fit – a diffusional bond evolves. Both Young's modulus and tensile strength could be increased by using a rope reinforcement. Furthermore, the results attained are compared to a theoretical model which was adapted to the deformation behaviour of compounds containing a single reinforcement.

Keywords: Compound extrusion; Structural materials; Mechanical properties; Deformation behaviour; Fractography
* Correspondence address, Dipl.-Ing. Kay A. Weidenmann Abt. Gefüge und Eigenschaften Universität Karlsruhe (TH) Institut für Werkstoffkunde I Kaiserstrasse 12, D-76131 Karlsruhe, Germany Tel.: +49 721 608 4165 Fax: +49 721 608 8044 E-mail:

References

[1] M.Kleiner, M.Schomäcker, M.Schikorra, A.Klaus: Materialwiss. Werkst.35 (2004) 431.10.1002/mawe.200400762Suche in Google Scholar

[2] A.Wagner, U.Hodel, in: R.Kopp (Ed.), Neue Verfahren der Massivumformung, Symp. der DGM, Bad Nauheim (1983).Suche in Google Scholar

[3] P.Furrer, R.Gitter, J.Maier, in: Verbundwerkstoffe, DGM-Verlag, Oberursel (1981).Suche in Google Scholar

[4] J.J.Theler, A.Wagner, A.Ames: Metall30 (1997) 223.Suche in Google Scholar

[5] K.A.Weidenmann, C.Fleck, V.Schulze, D.Löhe: Adv. Eng. Mat. (accepted for publication).Suche in Google Scholar

[6] A.Kelly: Metal. Rev.10 (1965) 1.10.1179/095066065790138357Suche in Google Scholar

[7] T.H.Courtney: Mechanical Behavior of Materials, McGraw-Hill, New York (1990).Suche in Google Scholar

[8] K.E.Saeger: Aluminium46 (1970) 681.Suche in Google Scholar

[9] E.Ignatowitz: Aluminium50 (1974) 334.10.1111/j.1751-0813.1974.tb14099.xSuche in Google Scholar

[10] Y.Zhou, Y.Xia: J. Mat. Sci. Letters21 (2002) 743.10.1023/A:1015753509637Suche in Google Scholar

[11] F.Ostermann: Anwendungstechnologie Aluminium, Springer-Verlag, Heidelberg (1998).10.1007/978-3-662-05788-9Suche in Google Scholar

[12] J.Nixdorf: Z. Werkstofftechnik5 (1974) 84.10.1002/mawe.19740050208Suche in Google Scholar

[13] K.A.Weidenmann, C.Fleck, V.Schulze, D.Löhe: Materialwiss. Werkst.36 (2005) 307.10.1002/mawe.200500878Suche in Google Scholar

[14] A.Martens: Handbuch der Materialkunde für den Maschinenbau, Springer-Verlag, Berlin (1898).Suche in Google Scholar

Published Online: 2013-05-23
Published in Print: 2007-01-01

© 2007, Carl Hanser Verlag, München

Artikel in diesem Heft

  1. Contents
  2. Contents
  3. Editorial
  4. Editorial
  5. Basic
  6. Synthesis and oxidation of Zr3Al3C5 powders
  7. Standard Gibbs energy of formation of Zn17Y2 and Zn12Y determined by solution calorimetry and measurement of heat capacity from near zero Kelvin
  8. Phase equilibria in the Zn–Fe–S system at 450°C
  9. Formation of δ-Al2O3 hollow nanoparticles via a chemical vapor condensation process
  10. Low-cycle fatigue and damage of an uncoated and coated single crystal nickel-base superalloy SCB
  11. Fluidity of Mg–Al–Ca alloys in the high-pressure die casting process
  12. Applied
  13. Mechanical properties of rope-reinforced aluminium extrusions under quasistatic loading conditions
  14. Influence of interfaces on the mechanical properties of ultrahigh carbon steel multilayer laminates
  15. Thermomechanical processing of AA6061 billets for semi-solid forming
  16. Infrared spectroscopy and X-ray diffraction data of In – Se compounds
  17. Synthesis and characterization of MgAlON–BN composites
  18. Neutron diffraction residual stress analysis of steel engineering components: a study of the elastic and plastic anisotropy
  19. Notifications
  20. DGM News
https://doi.org/10.3139/146.101434
Schlagwörter für diesen Artikel
Compound extrusion; Structural materials; Mechanical properties; Deformation behaviour; Fractography

Artikel in diesem Heft

  1. Contents
  2. Contents
  3. Editorial
  4. Editorial
  5. Basic
  6. Synthesis and oxidation of Zr3Al3C5 powders
  7. Standard Gibbs energy of formation of Zn17Y2 and Zn12Y determined by solution calorimetry and measurement of heat capacity from near zero Kelvin
  8. Phase equilibria in the Zn–Fe–S system at 450°C
  9. Formation of δ-Al2O3 hollow nanoparticles via a chemical vapor condensation process
  10. Low-cycle fatigue and damage of an uncoated and coated single crystal nickel-base superalloy SCB
  11. Fluidity of Mg–Al–Ca alloys in the high-pressure die casting process
  12. Applied
  13. Mechanical properties of rope-reinforced aluminium extrusions under quasistatic loading conditions
  14. Influence of interfaces on the mechanical properties of ultrahigh carbon steel multilayer laminates
  15. Thermomechanical processing of AA6061 billets for semi-solid forming
  16. Infrared spectroscopy and X-ray diffraction data of In – Se compounds
  17. Synthesis and characterization of MgAlON–BN composites
  18. Neutron diffraction residual stress analysis of steel engineering components: a study of the elastic and plastic anisotropy
  19. Notifications
  20. DGM News
Jetzt anmelden und 20% sparen
Institutioneller Zugang
Wie funktioniert Authentifizierung?
Haben Sie eine Idee, wie wir unsere Website verbessern können?
Bitte schreiben Sie uns.
© 2025 De Gruyter Brill
Heruntergeladen am 16.11.2025 von https://www.degruyterbrill.com/document/doi/10.3139/146.101434/pdf
Button zum nach oben scrollen