Logo Ernst und Sohn

Preview

Author(s):     
 
Ayoubi, Mazen
 
Title:     
 

 
Abstract:     
 
Zur Beschreibung des Verbundverhaltens und der Kraftübertragung von selbstbohrenden Vollgewindeschrauben bei großen Verbund- und Einbindelängen in Brettschichtholzbauteilen wurden experimentelle, analytische und numerische Untersuchungen am Lehrstuhl für Tragkonstruktionen der RWTH Aachen in Zusammenarbeit mit dem Institut für Bauforschung (ibac) der RWTH Aachen durchgeführt. Die experimentellen Untersuchungen umfassen mehr als 160 Pull-Out-Versuche sowie 84 Lasteinleitungsversuche, darüber hinaus Versuche zum Einfluss eines Längsrisses sowie einer eingebetteten Schraubenspitze auf das Verbundtragverhalten. Die parallel durchgeführten numerischen und analytischen Untersuchungen bilden die Basis zur Erstellung von Modellen zur Beschreibung des Tragverhaltens und der Kraftübertragung zwischen Schraube und Holz. Die gewonnenen Erkenntnisse ermöglichen die Bestimmung eines Bemessungsansatzes unter besonderer Berücksichtigung der Anisotropie des Holzes. In diesem Beitrag werden die Untersuchungsergebnisse, die im Rahmen des von der Deutschen Forschungsgemeinschaft (DFG) geförderten Projekts [1] ermittelt wurden, dargestellt. Teil 1 behandelt die experimentellen Untersuchungen [2], Teil 2 die analytischen und numerischen Betrachtungen sowie die Herleitung eines Verbundmodells zur Berechnung der Verankerungslänge.

Bond behaviour of self-tapping screws being used as reinforcement in glue-laminated timber elements - Part 2: Analytical and numerical investigations as well bond model derivation for the calculation of anchorage length
In favor of the investigation of bond behaviour, force transfer and anchorage length of self-tapping screws, several tests have been realized at the Chair of Structures and Structural Design in cooperation with the Institute for Building Material Research of the RWTH Aachen University. The experimental investigations comprise more than 160 pull-out tests of screws with long embedment length and over 84 load distributions tests. Additionally, several tests displaying the effect of longitudinal cracks in the surrounding wood as well as the effect of the screw tip have been conducted. Through various analyses of the bond behaviour, the experimental investigations form the basis for the calibration and evaluation of the numerical models and allow a prediction of the force transfer of the screws in glue-laminated elements. Design rules that enable the application of the self-tapping screws as reinforcement in timber elements have been derived from the knowledge obtained in the experimental and numerical investigations.
This paper, which results from a research project funded by the German Research Foundation [1], presents the results of investigations on the bond behavior of self-tapping screws in glue-laminated timber elements. Part 1 elaborates on the experimental investigations [2] whereas part 2 illustrates the numerical analyses and presents a bond model, which enables the design of the anchorage length and the safe application of the screws as reinforcement in timber elements.
 
Source:     Bautechnik 93 (2016), No. 11
 
Page/s:     817-827
 
Language of Publication:     German



I would like to buy the article

You can download this article for 25 € as a PDF file (1.09 MB).
The PDF file can be read, printed and saved.
Duplication and forwarding to third parties is not allowed.


To enquire about the cost of the contribution and to order the PDF, please send us an e-mail to marketing@ernst-und-sohn.de. You can also use the following button.

make a request

I am an online subscriber

As an online subscriber of the journal "Bautechnik" you can access this article via Wiley Online Library.

I would like to order "Bautechnik"

This article has been published in the journal "Bautechnik". If you would like to learn more about the journal, you can order a free sample copy or find out more information on our website.


Prices include VAT and postage. Prices for 2017/2018.
€ Prices apply to Germany only. Subject to alterations, errors excepted.