Abstract
High-speed water jet technology is commonly used for removing degraded concrete surface layers selectively in the process of repair of concrete structures. This technology offers number of advantages (such as reduced noise, dust and vibrations, preservation of intact material and thus more delicate intervention into the structure), but it still requires further improvement in terms of productivity and cost effectiveness to be even more competitive to traditional methods of concrete surface layers removal. The impact of a high-velocity liquid drop or bunch of water on a rigid surface generates extremely short high-pressure transients that can cause substantially serious damage to the surface and interior of the solid material. Therefore, the use of pulsating water jets, that are able to generate repeatedly above mentioned high-pressure transients, can lead to higher performance of pulsating high-speed water jets compared to continuous ones under the same operating conditions. A special method of the generation of the high-speed pulsating water jet was developed recently and tested extensively under laboratory conditions. The method is based on the generation of acoustic waves by the action of the acoustic transducer on the pressure liquid and their transmission via pressure system to the nozzle. A series of laboratory experiments was performed to compare effects of pulsating and continuous jets (both rotating and flat fan) acting on concrete surface. A rate of concrete removal was used to evaluate the jet. Results of the study of effects of pulsating and continuous high-speed water jets on concrete surfaces using methods of optical microscopy and image analysis are also discussed in this paper.
Highlights
High-speed water jet represents a technology that is able to disintegrate even the hardest materials
It is evident from experimental set of slots created in tested specimens that pulsating jet always disintegrates larger volume of concrete under the same operating conditions compared to the continuous one
New knowledge gained in research on disintegration of hard concrete by high-speed flat water jets and rotating water jets can be summarized into following points: 1. Pulsating jet achieved higher efficiency in comparison with corresponding continuous one in every configuration tested
Summary
High-speed water jet represents a technology that is able to disintegrate even the hardest materials. Transport of the Czech Republic for construction of roads, TP 120 – Maintenance, Repairs and Renovation of Concrete Bridges, recommend high-speed water jet as a suitable method for removing of damaged layer of concrete. The action of pulsating jet induces fatigue and shear stresses in the target material due to the cyclic loading of the target surface and tangential high speed flow across the surface, respectively. This further improves the efficiency of the pulsating liquid jet in comparison with the continuous one (Foldyna et al 2004). From concrete repair point of view it is difficult to maintain the short distance from the nozzle exit in most cases
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