Publication detail

Abrasive Waterjet & Metal Material Interaction Dynamics

URBÁNEK, J.

English title

Abrasive Waterjet & Metal Material Interaction Dynamics

Type

conference paper

Language

en

Original abstract

Special model is based at a shock waves theory. The model requires cutting process presence of arbitrary material and it is situated in cutting kerf. Dynamical removal phenomena initiates shock wave and an echo is consequence at jet interface, at erosion front mainly. The arrangement of the experiments was aimed to catch a phenomena dynamics by means of high-speed camera. Specific setting of Abrasive Waterjet (AWJ) process parameters of the cutting flow at the interface – final workpiece margin /free space – faces to a nose creation. The nose is bounded as a triangle and it is a consequence of overshooting phenomenon. An special test specimen is designed for cutting/machining ability of AWJ processes. It provides job-shop tests according the requirements to quick and cheap, but enough exact and repeatable, operative proofs. The test is founded at nose measurement and obtained dependences serves to fast and exact evaluation of cutting process efficiency. It will be source of new economic savings and contribution of cutting technology of high pressure AWJ.

English abstract

Special model is based at a shock waves theory. The model requires cutting process presence of arbitrary material and it is situated in cutting kerf. Dynamical removal phenomena initiates shock wave and an echo is consequence at jet interface, at erosion front mainly. The arrangement of the experiments was aimed to catch a phenomena dynamics by means of high-speed camera. Specific setting of Abrasive Waterjet (AWJ) process parameters of the cutting flow at the interface – final workpiece margin /free space – faces to a nose creation. The nose is bounded as a triangle and it is a consequence of overshooting phenomenon. An special test specimen is designed for cutting/machining ability of AWJ processes. It provides job-shop tests according the requirements to quick and cheap, but enough exact and repeatable, operative proofs. The test is founded at nose measurement and obtained dependences serves to fast and exact evaluation of cutting process efficiency. It will be source of new economic savings and contribution of cutting technology of high pressure AWJ.

Keywords in English

Abrasive Waterjet, shock wave, cutting flow

RIV year

2001

Released

19.08.2001

Publisher

2001 WJTA, Mineapolis, Minesota, USA

Location

Mineapolis

Book

2001 WJTA

Pages count

1

BIBTEX


@inproceedings{BUT6055,
  author="Jiří {Urbánek},
  title="Abrasive Waterjet & Metal Material Interaction Dynamics",
  booktitle="2001 WJTA",
  year="2001",
  month="August",
  publisher="2001 WJTA, Mineapolis, Minesota, USA",
  address="Mineapolis"
}