Science

My graduated students

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CV

Prof. Igor V. Shishkovsk(ii)y has worked since 1993 at Samara State Technical University (SamGTU) . During this period and until the present, he organized and carried out the courses for students in training for a specialty of 12.07 (now 150206), "Vehicles and Technologies of High-Effective Treatment Processes" in the Physics-Technological Faculty (earlier this specialization was a part of the General and Laser Physics Department):

1. Course specialty for students of the third year of training "Theoretical fundamentals of Material Treatment by Concentrated Flow Of Energy (CFE)", (see the course program in Russian), course duration - 143 hours, which includes lectures - 34 hours, laboratory works, course work, examination. The course has been available since 1993;
2. Course specialty for students of the third year of training "Physical fundamentals of Material Treatment by Concentrated Flow Of Energy (CFE)", (see the course program in Russian), course duration - 108 hours, which includes lectures - 36 hours, laboratory works, examination. The course has been available since 2000;
3. Course specialty for students of the fifth year of training "Lasers in Systems of Diagnostics and Control", (see the course program in Russian), course duration 120 hours, which includes lectures -36 hours & examination. The course has been available since 1998.

Also in other areas of specialization:

• Heat treatment of materials under CFE
• Equipment and the single-purpose equipment for CFE treatment
• Physical fundamentals of CFE generation
• Flow energy & mass, fundamentals of heating engineering
• Synthesis and material modification under CFE

He has also carried out laboratory work with students in the same specialty. Prof. Shishkovsky supervises the diploma, science and industrial practice of students of the 4th and 5th year of a 12.07 specialty, and I also manage their thesis work (see the list of students by years with titles of their theses for bachelors, engineers and masters of specialty 12.07.)

Prof. Shishkovsky prepared and modify annually new requirements for the organization, task decisions and practical commitments for laboratory work: :

1. Shishkovsky I. V. Studying of methods of general formulation of boundary value problem for the decision of the heat equation at materials under CFE treatment. (Russian) The Methodical Instructions for practice work. Samara. State Tech. Univer. Publ.; Samara. 1996.10 pages.
2. Shishkovsky I. V. Decision of the heat equation at material CFE treatment by a method of Fourier integrated transformations. (Russian) The Methodical Instructions for practice work. Samara. State Tech. Univer. Publ.; Samara. 1997.11 p.
3. Shishkovsky I. V. Calculation of the temperature distribution, hardening depth and the speeds of heating-cooling at material CFE processing. (Russian) The Methodical Instructions for course work. Samara. State Tech. Univer. Publ; Samara. 1997.10 p.
4. Shishkovsky I. V. Collection of tasks by the course " Theoretical bases of material treatment by the CFE": The Methodical Instructions for task's decision. Samara State Tech. Univer.Publ.; Samara. 2001.18 p.
5. Shishkovsky I. V. "A technological complex for laser marking KWANT - 60" (Russian): The Methodical Instructions for lab work. Samara. State Tech. Univer. Publ; Samara. Senior lecturer I.V. Shishkovsky. Samara, 2002,
6. Shishkovsky I. V. "Calculation of thermal fields at material processing during CFE treatment in MATHCAD environment": (russian) The Methodical Instructions for lab works. Samara. State Tech. Univer. Publ; Samara. 2003.38 p.

At 2008 it wiil preper to publication:

• Handbook "Theoretical Basis of Material Treatment by Concentrated Flow Of Energy (CFE)". Samara. State Tech. Univer. Publ; Samara. 83 p. Russian contents
• Shishkovsky I.V. Numerical aproaches for solution of parabolic diferencial equitions, appearing at the description of CFE processing in materials, by finite difference method in the MATHCAD enviroment // The Methodical Instructions for lab works. Samara. State Tech. Univer. Publ; Samara.

The collection "Calculation of thermal fields at material processing during CFE treatment in MATHCAD environment" actually are consisted from the 6th laboratory works, each of which is accompanied by a source code written in MathCad environment:

• Laboratory work № 1. Impulse laser treatment still point source. (MathCad2000 file - impulse11.mcd).
• Laboratory work № 2. Laser treatment by the handling Gaussian dot source (a impulse regime, a bi-dimensional task, cylindrical symmetry). (MathCad2000 file - impulse21.mcd)
• Laboratory work № 3. Volume treatment (the laser or an electron beam) by the dot source (a pulse mode, an one-dimensional task). (MathCad2000 file - impulseV.mcd)
• Laboratory work № 4. Laser treatment by a powerful fast-moving source (a two-dimensional task) (MathCad2000 file - cw2d.mcd).
• Laboratory work № 5. Laser treatment by the Gaussian divided source (a impulse mode, a bi-dimensional task, cylindrical symmetry). (MathCad2000 file - impulse2p.mcd).
• Laboratory work № 6. Laser welding by a dot pulse laser source (two sheets in a pile, an one-dimensional task). (MathCad2000 file - welding.mcd).

In 2003 by results of VII All -Russian Competition on the best methodical work for students using mathematical package, this Collection was awarded the First place.

Within the framework of the combined operation of SB LPI & SamGTU under the Federal Program "Integration of higher education" in 1998 Prof. Shishkovsky developed an interactive INTERNET course " Beginning of Rapid Prototyping Technology". The course is recommended for students as well as faculty members for management and professional skill improvement.

2006&2007 (by two mounths) - Invited Professor in Diagnostics and Imaging of Industrial Processes (DIPI) in Ecole nationale d'ingenieurs de Saint Etienne (ENISE). Course specialty for students of the third year of training of ENISE - Introduction in the Modern High Temperature Technologies, course duration 16 hours.