Abstract
The explosives industry products are a very fast-growing and extremely dangerous manufacture. The entire expanding product range and its multifunctional use is now unquestionable. In parallel with the renewal of explosives products and the application of modern production technology, new hazards and risks are emerging. The harmful effects of explosives of the modern age, even in small quantities, can many times exceed the damaging effects of conventional and well-known materials.
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References
Daruka, N.: Robbanótestek I. – Amit a bombákról tudni érdemes; Műszaki Katonai Közlöny XXIV, ISSN 2063-4986, 68-82 (2014)
Lukács, L.: Katonai robbantástechnika és környezetvédelem. Jegyzet a Zrínyi Miklós Nemzetvédelmi Egyetem műszaki hallgatói számára, Budapest (1997)
Ember, I.: Alternatíva a tűzszerész szakfeladatok során alkalmazható kumulatív töltetekre, Seregszemle XIV. évfolyam, 3–4. szám. ISSN 2060-3924, 50–63. (2016)
Horváth, T., Ember, I.: Characteristics of homemade explosive materials and the possibilities of their identification. Revista. XXVI(2) ISSN 2247-840X, 100–107 (2021)
Hungarian Law Homepage, Magyarország Alaptörvénye. https://net.jogtar.hu/jogszabaly?docid=a1100425.atv. 20 Mar 2021
Hungarian Law Homepage, 1993. évi XCIII. törvény a munkavédelemről. https://net.jogtar.hu/jogszabaly?docid=99300093.tv. 20 Mar 2021
Hungarian Law Homepage, 3/2002. (II. 8.) SzCsM-EüM együttes rendelet a munkahelyek munkavédelmi követelményeinek minimális szintjéről, https://net.jogtar.hu/jogszabaly?docid=a0200003.scm. 21 Mar 2021
Daruka, N., Kovács, T.A., Nyikes, Z.: Critical Infrastructure Protection in the Historical Urban Regions of Eastern European Countries. Security and Russian Threats; Piotrków Trybunalski, ISBN 978-83-7133-795-6, 151–159 (2019)
Hungarian Law Homepage, 13/2010. (III.4) KHEM rendelet az Általános Robbantási Biztonsági Szabályzatról, https://net.jogtar.hu/jogszabaly?docid=a1000013.khe 2021/03/20
Kovács, Z.: Physical perimeter security of military facilities. Bolyai Szemle 25. évf. 1. szám 79–89 (2016)
Hungarian Law Homepage, 54/2014. (XII. 5.) BM rendelet az Országos Tűzvédelmi Szabályzatról, https://net.jogtar.hu/jogszabaly?docid=a1400054.bm, 21 Mar 2021
Daruka, N.: Robbantástechnika a katasztrófaelhárításban. Trhacia Technika 2018, Slovak Republik, Kongresové centrum ACADEMIA Stará Lesná 23–25. május, ISBN 978-80-89914-02-9, 58–70 (2018)
Kovács, Z.: Explosion of improvised explosive device on structures. Hadmérnök 11. évf. 1. szám 56–63. (2016)
Kovács, Z: Barriers for physical protection of military facilities against vehicle born improvised explosive devices. Vojenské Reflexie 11. évf. 1. sz. 86–99 (2016)
Bitay, E., Tóth L., Kovács T.A., Nyikes Z., Gergely A. L.: Experimental study on the influence of TiN/AlTiN PVD layer on the surface characteristics of hot work tool steel. Appl. Sci. Basel (2076–3417), 11–19 (2021). https://doi.org/10.3390/app11199309
Tóth, L., Kovács, T.A., Nyikes, Z., Ghica, V.-G.: Increasing the H13 tool steel wear resistance by plasma nitriding and multilayer PVD coating. UPB Sci. Bull. Ser. B Chem. Mater. Sci. (1454–2331). 83(2), 273–282 (2021)
Kovács, T.A., Mhatre, U., Nyikes, Z., Bitay, E.: Surface modification innovation for wear resistance increasing. IOP Conf. Ser. Mater. Sci. Eng. (1757–8981 1757-899X). 613, 012039 (2019). https://doi.org/10.1088/1757-899X/613/1/012039
Kovács, T.A., Tóth, L., Nyikes, Z., Ghica, V.-G.: The analysis of microstructural changes depending on the electro-acoustic effect under the ultrasonic welding process of Aluminum foils. UPB Sci. Bull. Ser. B Chem. Mater. Sci. (1454–2331). 82(4), 213–222 (2020)
Nyikes, Z., Kovács, T.A., Tokody, D.: In situ testing of rail damages in accordance with Industry 4.0. J. Phys. Conf. Ser. (1742-6588 1742-6596). 1045, 1–6 (2018). https://doi.org/10.1088/1742-6596/1045/1/012032
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Daruka, N. (2022). Critical Infrastructure Protection in the Production and Use of Explosives Industry Products. In: Kovács, T.A., Nyikes, Z., Fürstner, I. (eds) Security-Related Advanced Technologies in Critical Infrastructure Protection. NATO Science for Peace and Security Series C: Environmental Security. Springer, Dordrecht. https://doi.org/10.1007/978-94-024-2174-3_26
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DOI: https://doi.org/10.1007/978-94-024-2174-3_26
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