Dynamic Use of High Pressure Water. Progress in Water Jet Technology.

Kiyohashi, Hiroshi

doi:10.4131/jshpreview.2.240

Cited by 3 publications

(1 citation statement)

References 3 publications

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“…4(a) shows the pattern obtained with a distance of 80 mm between the nozzle and the sample, indicating a ring-shaped region of discoloration with a small radius. As observed by Kiyohashi (Kiyohashi, 1993), the pattern indicates a central area of continuous flow near the nozzle surrounded by an area of water droplets, with the droplet area characterized by high impact pressures distributed in a ring shape. Fig.…”

Section: Methods For Evaluating the Rain Erosion Resistance Of Flexib...supporting

confidence: 56%

Method for evaluating flexible protective materials in water jet work and investigation of associated destructive mechanisms

Bao

OSONOE

MURATA

et al. 2022

Mechanical Engineering Journal

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Water jet work is used in a variety of settings, including material processing and washing. Protective clothing currently used in water jet work is made from metal and other rigid materials. Areas near joints, where flexibility is required, remain insufficiently protected. To contribute to the goal of developing flexible protective materials that can be used to produce protective gloves for water jet work, we propose a method for evaluating the protective performance of candidate materials along with a testing apparatus, of which we create a prototype. The effectiveness of the proposed method is verified through testing of rubber and other materials. An investigation of the destructive mechanism at work in flexible materials reveals that the mode of destruction in thin, flexible materials suitable for use in protective gloves differs significantly from that affecting ordinary materials.

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Section: Methods For Evaluating the Rain Erosion Resistance Of Flexib...supporting

confidence: 56%

Method for evaluating flexible protective materials in water jet work and investigation of associated destructive mechanisms

Bao

OSONOE

MURATA

et al. 2022

Mechanical Engineering Journal

View full text Add to dashboard Cite

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Design and Experiment of a Small High-Speed Liquid Jet Apparatus

Shi

Itoh

1996

jjap

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We investigate the unusual magnetic, thermodynamic and transport properties of nearly-critical, weakly-itinerant ferromagnets with the general formula UTX, where T = Rh, Co and X = Ge, Si. As a unique feature of these systems, we show how changes in the V df hybridization, which controls their proximity to a ferromagnetic instability, determine the evolution of the ground state magnetization, M 0 , the Curie temperature, T C , the density of states at the Fermi level, N(E F ), the T 2 resistivity coefficient, A, and the specific heat coefficient, γ . The universal aspect of our findings comes from the dependence on only two parameters: the transition metal T d bandwidth, W d , and the distance between the T d and U f band centers, C T d

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