516-0931/02 – Interaction Processes of Liquid Jets (IPKP)
Gurantor department | Institute of Physics | Credits | 10 |
Subject guarantor | prof. Ing. Libor Hlaváč, Ph.D. | Subject version guarantor | prof. Ing. Libor Hlaváč, Ph.D. |
Study level | postgraduate | Requirement | Optional |
Year | | Semester | winter |
| | Study language | Czech |
Year of introduction | 2010/2011 | Year of cancellation | 2015/2016 |
Intended for the faculties | FBI, HGF, FAST, FS, FMT | Intended for study types | Doctoral |
Subject aims expressed by acquired skills and competences
Analyze the interaction of various types of liquid jets with various kinds of materials
Evaluate the potential of physical description of interaction processes
Set the limits of various procedures used for description of interactions
Combine various kinds of description of interactions
Apply the proper types of liquid jets for solution of problems in practice
Teaching methods
Lectures
Individual consultations
Summary
The subject is aimed at transfer of knowledge of physical processes taking place during interaction of liquid jet with matter, according to its state. The main emphasis is put on understanding of different interaction effects of liquid jet according to its actual character (pure liquid, liquid with liquid additives – polymers, liquid with solid state admixtures – abrasives, liquid in unusual thermodynamic states – supercooled or overheated) on matter in a solid state. Particular emphasis is put on differences in physical processes regarding the structure of the solid state matter and its thermodynamic state. The subject is based on extensive experimental background of own laboratories and practical experience.
Compulsory literature:
Annoni, M., Monno, M., Ravaiso, C., Strano, M., 2007. Abrasive waterjet: A flexible technology. Polipress, 240 p.
Momber, A.W., Kovacevic, R., 1998. Principles of Abrasive Waterjet Machining. Springer-Verlag Ber, 420 p.
Momber, A., 2005. Hydrodemolition of Concrete Surfaces and Reinforced Concrete. Elsevier Science, 278 p.
Chen, F.L., Wang, J., Lemma, E., Siores, E., 2003. Striation formation mechanisms on the jet cutting surface. Journal of Materials Processing Technology, 141(2), 213-218
Deam, R.T., Lemma E., Ahmed, D.H., 2004. Modelling of the abrasive water jet cutting process. Wear, 257(9-10), 877-891
Hashish, M., 1989. A Model for Abrasive - Waterjet (AWJ) Machining. Transactions of the ASME, 111(2), 154-162
Hlaváč, L.M., 2009. Investigation of the Abrasive Water Jet Trajectory Curvature inside the Kerf. Journal of Materials Processing Technology, (doi:10.1016/j.jmatprotec.2008.10. 009) 209(8), 4154-4161
Zeng, J., Kim, T.J., 1996. An erosion model of polycrystalline ceramics in abrasive waterjet cutting. Wear, 193, 207-217
Recommended literature:
Articles in proceedings of conference series of BHRGroup, WJTA and ISWJT, articles in journals International Journal of Machine Tools & Manufacture, Journal of Materials Processing Technology, Wear, International Journal of Advanced Manufacturing Technology a Transactions of the ASME.
Hlaváč, L.M., Hlaváčová, I.M., Jandačka, P., Zegzulka, J., Viliamsová, J., Vašek, J., Mádr, V.: Comminution of Material Particles by Water Jets – Influence of the Inner Shape of the Mixing Chamber. International Journal of Mineral Processing, 95(1-4), 2010, p. 25-29.
Vikram, G., Babu, N.R., 2002. Modelling and Analysis of Abrasive Water Jet Cut Surface Topography. Intenational Journal of Machine Tools and Technology, 42(12), 1345-1354
Additional study materials
Way of continuous check of knowledge in the course of semester
E-learning
Other requirements
To study 5-10 articles related to the theme of the doctoral theses from journals or conference proceedings (according to the one’s own choice or suggestion of the supervisor) and to evaluate their benefits for doctoral student’s work. According to theme possibilities to prepare a short study comparing results of different authors.
Prerequisities
Subject has no prerequisities.
Co-requisities
Subject has no co-requisities.
Subject syllabus:
Classification of liquid jets according to their generation and admixtures
Sorting of solid state matter regarding its reaction to the high-concentration of mechanical energy
Physical description of the liquid flow impact on the particle in the solid state and the ways of its disintegration
Physical description of collision between different types of liquid jets and homogeneous continuum
Physical description of liquid stream interaction with non-homogeneous continuum
Physical analysis of specific effects of liquid jet on laminated, honeycomb and sandwich structures
Generalized physical approach to the description of interaction between liquid and solid-state continuum
Peculiarity of uncommon physical states of environment and material in interactions – very high or low temperature, overpressure, vacuum, liquid medium instead of gas one between the nozzle and material
Application of physical description of interaction between liquid jet and solid state material in practice
Conditions for subject completion
Occurrence in study plans
Occurrence in special blocks
Assessment of instruction
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