[go: up one dir, main page]
More Web Proxy on the site http://driver.im/

Kang et al., 2022 - Google Patents

Experimental investigation on the penetration characteristics of low-frequency impact of pulsed water jet

Kang et al., 2022

View PDF
Document ID
10907273303829818484
Author
Kang Y
Xie F
Shi H
Wu N
Wang Z
Wang X
Hu Y
Li D
et al.
Publication year
Publication venue
Wear

External Links

Snippet

In this paper, experiments were conducted to investigate the penetration characteristics of low-frequency impact of pulsed water jet. The pulsed jet was generated with pulse length of 217 mm at the frequency of 120 Hz, using a round nozzle with diameter of 1 mm within the …
Continue reading at www.researchgate.net (PDF) (other versions)

Similar Documents

Publication Publication Date Title
Kang et al. Experimental investigation on the penetration characteristics of low-frequency impact of pulsed water jet
Raj et al. Investigation of sandstone erosion by continuous and pulsed water jets
Hloch et al. Effect of pressure of pulsating water jet moving along stair trajectory on erosion depth, surface morphology and microhardness
Dehkhoda et al. An experimental study of surface and sub-surface damage in pulsed water-jet breakage of rocks
Tripathi et al. Application of the pulsating and continous water jet for granite erosion
Huang et al. Comparative investigation of the damage of coal subjected to pure water jets, ice abrasive water jets and conventional abrasive water jets
Hloch et al. Hydrodynamic ductile erosion of aluminium by a pulsed water jet moving in an inclined trajectory
Sitek et al. Use of pulsating water jet technology for removal of concrete in repair of concrete structures
Poloprudský et al. Effects of liquid droplet volume and impact frequency on the integrity of Al alloy AW2014 exposed to subsonic speeds of pulsating water jets
Ge et al. Fracture characteristics of coal jointly impacted by multiple jets
Chen et al. An experimental study on the erosion of sandstone by self-excited oscillation cavitation waterjet in submerged environment
Tripathi et al. Monitoring of acoustic emission during the disintegration of rock
Lehocka et al. Comparison of ultrasonically enhanced pulsating water jet erosion efficiency on mechanical surface treatment on the surface of aluminum alloy and stainless steel
Momber et al. On-line analysis of hydro-abrasive erosion of pre-cracked materials by acoustic emission
Kang et al. Effects of modulation position on the impact performance of mechanically modulated pulsed water jet
Ge et al. Investigation of fracture damage and breaking energy consumption of hard rock repeatedly cut by abrasive water jet
Huang et al. Abrasive water jet perforation and multi-stage fracturing
Xiao et al. Theoretical and experimental investigation on fracture response of coal impacted by high-velocity water jet
Fan et al. Rock breaking performance of the newly proposed unsubmerged cavitating abrasive waterjet
Liu et al. Effect of abrasive concentration on impact performance of abrasive water jet crushing concrete
Li et al. Experimental investigation on concrete rock breaking performance of self-excited oscillation pulsed waterjet
Li et al. Simulation of thermal stress effects in submerged continuous water jets on the optimal standoff distance during rock breaking
Bodnárová et al. New potentional of high-speed water jet technology for renovating concrete structures
Bagchi et al. Effect of different parameters on surface roughness and material removal rate in abrasive water jet cutting of Nimonic C263
Xiao et al. On the concrete breakage by pulsed water jet impact: Fracture characteristic, stress and damage evolution laws