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Rock Mechanics and Rock Engineering

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01-07-2013 | Original Paper

Experimental Testing of Rockfall Barriers Designed for the Low Range of Impact Energy

Authors: O. Buzzi, M. Spadari, A. Giacomini, S. Fityus, S. W. Sloan

Published in: Rock Mechanics and Rock Engineering | Issue 4/2013

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Abstract

Most of the recent research on rockfall and the development of protective systems, such as flexible rockfall barriers, have been focused on medium to high levels of impacting energy. However, in many regions of the world, the rockfall hazard involves low levels of energy. This is particularly the case in New South Wales, Australia, because of the nature of the geological environments. The state Road and Traffic Authority (RTA) has designed various types of rockfall barriers, including some of low capacity, i.e. 35 kJ. The latter were tested indoors using a pendulum equipped with an automatic block release mechanism triggered by an optical beam. Another three systems were also tested, including two products designed by rockfall specialised companies and one modification of the initial design of the RTA. The research focused on the influence of the system’s stiffness on the transmission of load to components of the barrier such as posts and cables. Not surprisingly, the more compliant the system, the less loaded the cables and posts. It was also found that removing the intermediate cables and placing the mesh downslope could reduce the stiffness of the system designed by the RTA. The paper concludes with some multi-scale considerations on the capacity of a barrier to absorb the energy based on experimental evidence.

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Anderheggen E, Volkwein A, Grassl H (2002) Numerical simulation of highly flexible rockfall protection systems. In: Proceedings of Fifth World Congress on Computational Mechanics. Vienna, Austria, pp 1–9

Bertolo P, Oggeri C, Peila D (2009) Full-scale testing of draped mesh for rockfall protection. Can Geotech J 46(3):306–317CrossRef

Bigot C, Berger F, Lambert S (2010) Treenet: an innovative type of rockfall protection fence on forested slopes specially designed for low energy events. In: Interpraevent 2010, International Symposium in Pacific Rim. Taipei, TWN, pp 366–371

Chan YC, Chan CF, Au SWC (1986) Design of Boulder Fence in Hong Kong. In: Proceedings of Conference on Rock Engineering in an Urban Environment. IMM, Hong Kong, pp 87–96

Descoeudres F (1997) Aspects geomecaniques des instabilites de falaises rocheuses et des chutes de blocs. Societe Suisse de mecanique des sols et des roches 135:3–11

Dhakal S, Bhandary NP, Yatabe R, Kinoshita N (2011) Experimental, numerical and analytical modelling of a newly developed rockfall protective cable-net structure. Nat Hazards Earth Syst Sci 11:3197–3212CrossRef

Duffy JD (1992a) Field tests of flexible rockfall barriers. Brugg Technical note

Duffy JD (1992b) Flexible wire rope rockfall nets. Transp Res Rec 1343:30–35

Duffy JD, Hoon W (1996) Field tests and evaluation of Hi-tech 50 and 70 foot-ton rockfall fence. Report No. CA/05-96-02, California Department of Transportation, San Luis Obispo, CA

EOTA (2008) Guideline for European technical approval of falling rock protection kits (ETAG 027), February 2008, Brussels. http://www.eota.be/en-gb/content/endorsed-etag-s/9/

Fityus S, Giacomini A, Buzzi O (2012) Rockfall phenomena in Eastern Australia. Submitted to Geomorphology

Grassl H, Volkwein A, Bartelt P (2003) Experimental and numerical modelling of highly flexible rockfall protection barriers. In: Proceedings of 12th Panamerican Conference on Soil Mechanics and Geotechnical Engineering, Cambridge, Massachusetts, USA, pp 2589–2594

Hearn G, Barrett RK, Henson HH (1995) Testing and modeling of two rockfall barriers. Transp Res Rec 1504:1–11

Kane WF, Duffy JD (1993) Brugg low energy wire rope rockfall net field tests. Technical Research Report 93-01 Department of Civil Engineering, The University of the Pacific

Muraishi H, Samizo M, Sugiyama T (2005) Development of a flexible low energy rockfall protection fence. Q Rep RTRI 46(3):161–166CrossRef

Peila D (2011) Ground reinforced embankment for rockfall protection: from real scale test to numerical modeling. In: Lambert S, Nicot F (eds) Rockfall Engineering. Wiley, New York, pp 393–426

Peila D, Ronco C (2009) Design of rockfall net fences and the new ETAG 027 European guideline. Nat Hazards Earth Syst Sci 9(4):1291–1298CrossRef

Peila D, Pelizza S, Sassudelli F (1998) Evaluation of behaviour of rockfall restraining nets by full scale test. Rock Mechanics, vol 31(1). Springer, Berlin, pp 1–24

Peila D, Oggeri C, Baratono P (2006) Barriere paramassi a rete: interventi e dimensionamento. GEAM, Torino. ISBN 8890134291

Peila D, Oggeri C, Castiglia C (2007) Ground reinforced embankments for rockfall protection: design and evaluation of full scale tests. Landslides 4:255–265

Spadari M, Giacomini A, Buzzi O, Hambleton J (2012) Prediction of the bullet effect for rockfall barriers: a scaling approach. Rock Mech Rock Eng 45(2):131–144CrossRef

Trad A, Limam A, Bertrand D, Robit P (2011) Multi-scale analysis of an innovative flexible rockfall barrier. In: Lambert S, Nicot F (eds) Rockfall engineering. Wiley, New York, pp 303–342

Volkwein A, Melis L, Haller B, Pfeifer R (2005) Protection from landslides and high speed rockfall events—reconstruction of Chapman’s peak drive. IABSE Symposium Lisbon 2005. Structures and Extrem Events. IABSE Reports, vol 90, pp 314–315

Yoshida H (1999) Recent experimental studies on rockfall control in Japan. In: Proceedings of the Joint Japan–Swiss Scientific Seminar on impact load by rock fall and design of protection structures, Kanazawa, Japan, pp 69–78

Title: Experimental Testing of Rockfall Barriers Designed for the Low Range of Impact Energy
Authors: O. Buzzi
M. Spadari
A. Giacomini
S. Fityus
S. W. Sloan
Publication date: 01-07-2013
Publisher: Springer Vienna
Published in: Rock Mechanics and Rock Engineering / Issue 4/2013
Print ISSN: 0723-2632
Electronic ISSN: 1434-453X
DOI: https://doi.org/10.1007/s00603-012-0295-1

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