An engineering investigation on the Bronze Age crossbar wheel of Mercurago

Abstract The Bronze Age crossbar wheel found in the XIX century in Mercurago (Italy) is an amazing example of the technical innovations stimulated by the diffusion of horse draught war chariots in Europe across the third and second millennium B.C. It is a tripartite wheel, with two felloes attached to a diametric crossbar by means of internal dowels, and four thinner rods departing from the crossbar near the hub and ending into the felloes. A separate nave is inserted into the crossbar hub. Many question are still open about this wheel, concerning in particular its constructive concept, the materials and the role of each member. In this paper the tools of modern engineering, in particular the laser-scanner acquisition technology and the finite element method, were used to study the structural issues concerning the crossbar Mercurago wheel under the hypothesized operating conditions. Verisimilar explanations of some technical choices, such as the shape and the materials of the members, were obtained; furthermore, the presence of a leather tire was hypothesized on the basis of the rim-soil contact analysis. Finally, the role of the inserted nave was investigated. It was hypothesized that it could have a role similar to modern bushings, thus being a very innovative device for that time.

[1]  Richard W. Bulliet,et al.  The Earliest Wheeled Transport: From the Atlantic Coast to the Caspian Sea by Stuart Piggott (review) , 1984 .

[2]  Bela I. Sandor Tutankhamun's chariots: secret treasures of engineering mechanics , 2004 .

[3]  Giovanna Sansoni,et al.  3-D optical measurements in the field of cultural heritage: the case of the Vittoria Alata of Brescia , 2005, IEEE Transactions on Instrumentation and Measurement.

[4]  M. Littauer,et al.  The origin and diffusion of the cross-bar wheel? , 1977, Antiquity.

[5]  Michael A. Ritter,et al.  Timber Bridges: Design, Construction, Inspection, and Maintenance , 1990 .

[6]  M. C. A. Macdonald Wheels in a land of camels: another look at the chariot in Arabia , 2009 .

[7]  Bela I. Sandor The genesis and performance characteristics of Roman chariots , 2012 .

[8]  Cesare Rossi,et al.  Ancient road transport devices: Developments from the Bronze Age to the Roman Empire , 2016 .

[9]  Alberto Rovetta,et al.  The chariots of the Egyptian Pharaoh Tut Ankh Amun in 1337 B.C.: kinematics and dynamics , 2000 .

[10]  Giovanna Sansoni,et al.  Scene-of-Crime Analysis by a 3-Dimensional Optical Digitizer: A Useful Perspective for Forensic Science , 2011, The American journal of forensic medicine and pathology.

[11]  Giovanna Sansoni,et al.  Virtual and physical prototyping by means of a 3D optical digitizer: Application to facial prosthetic reconstruction , 2009 .

[12]  P. G. The Mechanical Properties of Wood , 1915, Nature.

[13]  Bela I. Sandor THE RISE AND DECLINE OF THE TUTANKHAMUN-CLASS CHARIOT , 2004 .

[14]  József Szalai,et al.  Comparison of anisotropic strength criteria in the biaxial stress state. , 2010 .

[15]  Jason C. Brown,et al.  Motor Vehicle Structures: Concepts and Fundamentals , 2001 .

[16]  Paul J. Besl,et al.  A Method for Registration of 3-D Shapes , 1992, IEEE Trans. Pattern Anal. Mach. Intell..

[17]  Wenge Yu The mechanical properties of leather in relation to softness , 1999 .