Water jet

Launching the AquaMAV: bioinspired design for aerial–aquatic robotic platforms

Robert Siddall, Mirko Kovač

Citations: 179 • 2014

Consecutive aquatic jump-gliding with water-reactive fuel

Raphael Zufferey, Alejandro Ortega Ancel, André Farinha, Robert Siddall, Sophie F. Armanini, Maya Nasr, R. V. Brahmal, Grant Kennedy, Mirko Kovač

Citations: 119 • 2019

Aerial Hose Type Robot by Water Jet for Fire Fighting

Hisato Ando, Yuichi Ambe, Akihiro Ishii, Masashi Konyo, Kenjiro Tadakuma, Shigenao Maruyama, Satoshı Tadokoro

Citations: 96 • 2018

Fast Aquatic Escape With a Jet Thruster

Robert Siddall, Mirko Kovač

Citations: 90 • 2016

Combinatorial materials research applied to the development of new surface coatings VI: An automated spinning water jet apparatus for the high-throughput characterization of fouling-release marine coatings

Shane J. Stafslien, James Bahr, Justin Daniels, Lyndsi Vander Wal, Jonathan Nevins, Jeremy Smith, Kris Schiele, Bret J. Chisholm

Citations: 46 • 2007

Acoustic chamber length performance analysis in ultrasonic pulsating water jet erosion of ductile material

Akash Nag, Sergej Hloch, Dominik Čuha, Amit Rai Dixit, Hakan Tozan, Jana Petrů, Monika Hromasová, Miroslav Müller

Citations: 43 • 2019

A water jet thruster for an aquatic micro air vehicle

Robert Siddall, Mirko Kovač

Citations: 36 • 2015

Underwater experiments of a water-jet-based spherical underwater robot

Xichuan Lin, Shuxiang Guo, Koujirou Tanaka, Seji Hata

Citations: 31 • 2011

Development of an actuation system based on water jet propulsion for a slim long-reach robot

Jose A. Silva Rico, Gen Endo, Shigeo Hirose, Hiroya Yamada

Citations: 30 • 2017

Comparison of the disintegration abilities of modulated and continuous water jets

Zdeněk Říha, Michal Zeleňák, Tomáš Kruml, Jakub Poloprudský

Citations: 28 • 2021

Analysis and improvement of the water-jet propulsion system of a spherical underwater robot

Chunfeng Yue, Shuxiang Guo, Xichuan Lin, Juan Du

Citations: 27 • 2012

Water Jet Cutting zur Bearbeitung von Knochen und Knochenzement – Parameterstudie zu Möglichkeiten und Grenzen einer neuen Methode - Water Jet Cutting of Bone and Bone Cement. A Study of the Possibilities and Limitations of a New Technique

M. Honl, Reemt Rentzsch, Fiona Lampe, Veronika Müller, Oliver Dierk, E. Hille, H. Louis, Michael M. Morlock

Citations: 24 • 2000

High-Pressure Water-Jet Technology as a Method of Improving the Quality of Post-Harvest Processing

René Carreño-Olejua, Werner Hofacker, Oliver Hensel

Citations: 22 • 2010

Influence of Processing Parameters on Coating Removal for High Pressure Water Jet Technology Based on Wall-Climbing Robot

Feifei Zhang, Xuerong Sun, Zhanpeng Li, Imran Mohsin, Yanan Wei, Kai He

Citations: 14 • 2020

Design of a Bionic Scallop Robot Based on Jet Propulsion

Yumo Wang, S. S. Sun, Min Xu, Weihua Li, Shiwu Zhang

Citations: 13 • 2018

ROBOTIC HIGH PRESSURE WATER JET CUTTING of CHUCK SLICES¹

W. Heiland, R. P. KONSTANCE, James C. Craig

Citations: 13 • 1990

Climbing robot for underwater cutting

H. Haferkamp, Fr.‐W. Bach, Yuko Ogawa, M. Rachkov

Citations: 8 • 2002

A STUDY ON ULTRA-HIGH PRESSURE WATER JET WALL CLIMBING ROBOT FOR REMOVAL RUST IN VESSELS

Xingru Wang, Yongjun Gong, Zhengyao Yi, Zuwen Wang

Citations: 7 • 2008

Evaluation of Influencing Factors in Cleaning Performance for Bio-Fouling Removal Based on High-Pressure Water Jets

Jaehyeon Ahn, Kaicheng Yan, Salim Abdullah Bazher, Jungkeun Oh, Dae-Won Seo, Su‐gil Cho, Hyungwoo Kim

Citations: 6 • 2024

Design Consideration of Bio-Inspired Contractible Water-Jet Propulsor for Mini Autonomous Underwater Robot

Muhammad Farid Shaari, Zahurin Samad, Mohd Elmi Abu Bakar, M. Mariatti

Citations: 6 • 2012