Biuletyn Instytutu Spawalnictwa No. 01/2012

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implementation of necessary modification take into account the variable length of the plasma arc column. Research work funded by the Ministry of Science and Higher Education from science-allocated funds in years 2010-2013 as research project no. N N511 305038. References: 1. Krouchinin A.M., Sawicki A.: A theory of electrical arc heating. The Publishing Office of Technical University of Częstochowa, Częstochowa 2003. 2. King-Jet Tseng, Yaoming Wang, D. Mahinda Vilathgamuwa: An Experimentally Verified Hybrid Cassie-Mayr Electric Arc Model for Power Electronics Simulations. IEEE Transactions on Power Electronics, 1997, vol. 12, nr 3, s. 429-436. 3. Ciok Z.: Modele matematyczne łuku łączeniowego. Politechnika Warszawska, Warszawa 1995. 4. Schőtzau H. J., Kneubühl F. K.: A New Approach to High-Power Arc Dynamics. ETEP 1994, vol. 4, nr. 2, s. 89-99. 5. Finkelburg W., Maecker: Elektrische Bogen und thermisches Plasma. Handbuch der Physik, 1956, Bs. XXII, S. 254-444. 6. Nitu S., Nitu C., Mihalache C., Anghelita P., Pavelescu D.: Comparison between model and experiment in studying the electric arc. Journal of Optoelectronics and Advanced Materials 2008, vol. 10, nr. 5, s. 1192 – 1196. 7. Koshizuka T., Shinkai T., Udagawa K., Kawano H.: Circuit Breaker Model using Serially Connected 3 Arc Models for EMTP Simulation. International Conference on Power Systems Transients (IPST2009) in Kyoto, Japan, June 3-6, 2009. 8. Gustavsson N.: Evaluation and Simulation of Black-box Arc Models for High Voltage Circuit-breakers. LiTH-ISY-EX-3492-2004, Linköping, 19 mars 2004. 9. Smeets, R.P.P. and Kertész, V.: Evaluation of high-voltage circuit-breaker performance with a validated arc model. IEE Proc., Gener. Transm. Distrib. (2000), 10. Sawicki A., Świtoń Ł., Sosiński R.: Evaluation of usability of Cassie and hybrid Cassie-Mayr models to simulate processes in AC arc circuits. Przegląd Elektrotechniczny 2010, nr 1, s. 255-259. 11. Sawicki A., Świtoń Ł., Sosiński R.: Process Simulation in the AC Welding Arc Circuit Using a Cassie-Mayr Hybrid Model. Suplement to the Welding Journal 2011, March, s. 41-44. 12. Sawicki A., Świtoń Ł., Sosiński R.: Próba wykorzystania modeli Cassiego i hybrydowego Cassiego-Mayra do symulowania procesów w obwodach z lampami rtęciowymi. Śląskie Wiadomości Elektryczne 2010, nr 1, s. 4-9. 13. Berger S.: Mathematical approach to model rapidly elongated free-burning arcs in air in electric power circuits. ICEC 2006, 6-9 June 2006, Sendai, Japan, 2006. 14. Berger, S.: Modell zur Berechnung des dynamischen elektrischen Verhaltens rasch verlängerter Lichtbögen. Dissertation ETH, Zürich 2009. 15. Математические методы исследования динамики и проблемы управления низкотемпературной плазмой. Низкотемпературная плазма, том 2. Наука, Новосибирск 1991. 22 BIULETYN INSTYTUTU SPAWALNICTWA NR 01/2012
Eugeniusz Turyk, Agnieszka Żydzik-Białek, Margrit Bormann, Andrzej Jastrzębiowski, Marta Kościelniak, Tadeusz Kuzio, Bogusław Czwórnóg Repair welding of elements of the sign ARBEIT MACHT FREI of the main gate to the former German Nazi concentration and extermination camp Auschwitz I Editor’s note After the end of the Second World War the sign “ARBEIT MACHT FREI” on the gate to the former German Nazi concentration and extermination camp Auschwitz I became one of the most important symbols of German Nazi concentration camps, slave labour, inhumane conditions and mass genocide — the Holocaust. Mieczysław Kościelniak (camp serial number 15261) “Work squads marching out to work”, Poland, 1950, from the collection of the Auschwitz-Birkenau State Museum Fig. 1. Front and back of the sign damaged during the theft. Red colour marks spots where the sign was cut or where its elements were torn off [1] Introduction In the former German Nazi concentration and extermination camp Auschwitz I in 1940, a sign reading “ARBEIT MACHT FREI” (work makes one free) was put up over the main gate. The sign was made in the shop of the camp’s locksmith under the management of Jan Liwacz (camp serial number 1010). At night, on 17/18 December 2009 the sign was stolen from the Auschwitz-Birkenau State Museum in Oświęcim. After recovering it, it turned out that during the theft the sign (5570 mm in length and 360 mm in height) sustained significant damage – it was cut into three parts, bent, the sections of the upper and lower pipes (ϕ 33x3 mm [1]) were twisted and deformed and one of the letters (“I” in the word FREI) fell off (Fig. 1). After the sign had been recovered, its exceptional and symbolic significance helped to reach a decision on correcting the theft-related Mgr Agnieszka Żydzik-Białek, Dipl.-Rest. (FH) Margrit Bormann, mgr Andrzej Jastrzębiowski, mgr inż. Marta Kościelniak – the Auschwitz-Birkenau State Museum in Oświęcim, Conservation Section; dr hab. inż. Eugeniusz Turyk, mgr inż. Tadeusz Kuzio, dr inż. Bogusław Czwórnóg – Instytut Spawalnictwa, Gliwice NR 01/2012 BIULETYN INSTYTUTU SPAWALNICTWA 23
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Page 3 and 4: Summaries of the articles J. Dworak
Page 5 and 6: Jerzy Dworak Research Impact of las
Page 7 and 8: cess being carried out at a specifi
Page 9 and 10: pulses up to several dozen millisec
Page 11 and 12: ectangular pulse, P i max =702 W, p
Page 13 and 14: ectangular pulse, P i max =1752 W s
Page 15 and 16: Antoni Sawicki Modified Habedank an
Page 17 and 18: 1 dr r dt - in the resistance form
Page 19 and 20: The conditions of the selection of
Page 21: Similarly as previously (37), one c
Page 25 and 26: gical weldability, confirmed by the
Page 27 and 28: Damage was also caused to the welde
Page 29 and 30: Initial selection of method for wel
Page 31 and 32: Fig. 19. Assembly table with fixed
Page 33 and 34: Agnieszka Kiszka, Tomasz Pfeifer Va
Page 35 and 36: Fig. 4. Course of changes in curren
Page 37 and 38: extreme, the process was less stabl
Page 39 and 40: Fig. 13. Macrostructure of T-shaped
Page 41 and 42: L=1 mm, I=25 A L=1 mm, I=50 A L=1 m
Page 43 and 44: case of TIG welding (for similar we
Page 45 and 46: Other, equally important research i
Page 47 and 48: tion of a function connected with t
Page 49 and 50: The intensity of arc radiation was
Page 51 and 52: On the basis of calculations (Table
Page 53 and 54: NR 01/2012 BIULETYN INSTYTUTU SPAWA
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