Add to ORKGA high G-ton centrifuge, able to take a 2700 kg (6000 lb) payload up to 300 G, is described. The stability of dams and embankments, the bearing capacity of soil foundations, and the dynamic behavior of foundations due to vibration of machinery are examples of applications. A power rating of 6,000 kW (9,000 hp) was established for the motor. An acceptable maximum speed of 70 rpm was determined. A speed increase with a ratio of 1:3 is discussed. The isolated tension straps, the anti-spreader bar and the flexwall bucket, and safety precautions are also discussed
The Center for Geotechnical Modeling at UC Davis operates a 9.1-m radius geotechnical centrifuge eq...
This State-of-the-Art paper focuses primarily on aspects of dynamic centrifuge modeling related to...
Soil liquefaction following earthquake events causes severe damage to Civil Engineering Infrastructu...
The design of a prototype piezoelectric shaker and its development to date is described. Although ce...
The method of physical modeling in the centrifuge is growing in acceptance in the U.S.A. following m...
The geotechnical centrifuge has been shown to be a very valuable experimental technique in the inves...
The field of dynamic centrifuge modelling has developed rapidly over the past decade, with internati...
This state of art review discusses scaling principles for dynamic and earthquake geotechnical centri...
According to this brief history of its development, the centrifuge is a uniquely useful tool
The shaking table system for geotechnical centrifuge, which can simulate sinusoidal and real seismic...
The 9-m and 1-m radius geotechnical centrifuges at the Natural Hazards Engineering Research Infrastr...
This research investigation deals with the development and evaluation of an instrumentation system f...
This article describes the eqipment in use to simulate earthquake loading in materials at the Geotec...
The University of Sheffield is establishing a 50 g-ton 2m radius beam centrifuge that can accelerate...
An experimental program was conducted to investigate the influence of geogrid as a reinforcement lay...
The Center for Geotechnical Modeling at UC Davis operates a 9.1-m radius geotechnical centrifuge eq...
This State-of-the-Art paper focuses primarily on aspects of dynamic centrifuge modeling related to...
Soil liquefaction following earthquake events causes severe damage to Civil Engineering Infrastructu...
The design of a prototype piezoelectric shaker and its development to date is described. Although ce...
The method of physical modeling in the centrifuge is growing in acceptance in the U.S.A. following m...
The geotechnical centrifuge has been shown to be a very valuable experimental technique in the inves...
The field of dynamic centrifuge modelling has developed rapidly over the past decade, with internati...
This state of art review discusses scaling principles for dynamic and earthquake geotechnical centri...
According to this brief history of its development, the centrifuge is a uniquely useful tool
The shaking table system for geotechnical centrifuge, which can simulate sinusoidal and real seismic...
The 9-m and 1-m radius geotechnical centrifuges at the Natural Hazards Engineering Research Infrastr...
This research investigation deals with the development and evaluation of an instrumentation system f...
This article describes the eqipment in use to simulate earthquake loading in materials at the Geotec...
The University of Sheffield is establishing a 50 g-ton 2m radius beam centrifuge that can accelerate...
An experimental program was conducted to investigate the influence of geogrid as a reinforcement lay...
The Center for Geotechnical Modeling at UC Davis operates a 9.1-m radius geotechnical centrifuge eq...
This State-of-the-Art paper focuses primarily on aspects of dynamic centrifuge modeling related to...
Soil liquefaction following earthquake events causes severe damage to Civil Engineering Infrastructu...