A historical overview of the activities of the Research Workgroup on Explosive Techniques, Łukasiewicz Research Network – Institute of Industrial Organic Chemistry in Krupski Młyn

• Autorzy: Wilk Zenon , Ball Sławomir

Identyfikatory

DOI

10.22211/matwys/0243

Warianty tytułu

PL

Rys historyczny działalności Grupy Badawczej Technik Wybuchowych Sieć Badawcza Łukasiewicz – Instytutu Przemysłu Organicznego w Krupskim Młynie

• Języki publikacji: EN

Abstrakty

EN

The article presents the history of activity of the Łukasiewicz Research Network ‒ Institute of Organic Industry - Explosive Techniques Research Group in Krupski Młyn, formerly known as the Institute of Organic Industry ‒ Branch in Krupski Młyn. It describes the development of its research potential and infrastructure, scientific and research efficacy, and experimental production of explosive materials for civilian and special purposes.

PL

Przedstawiono historię działalności Sieć Badawcza Łukasiewicz ‒ Instytut Przemysłu Organicznego ‒ Grupa Badawcza Technik Wybuchowych w Krupskim Młynie, wcześniej Instytut Przemysłu Organicznego – Oddział w Krupskim Młynie. Opisano rozwój jej potencjału badawczego i infrastruktury, efektywność naukowo-badawczą, produkcję doświadczalną środków zawierających materiały wybuchowe dla celów cywilnych i specjalnych.

Słowa kluczowe

EN

Łukasiewicz Research Network – Institute of Organic Industry; Explosive Techniques Research Group in Krupski Młyn; materials incorporating explosives

PL

Sieć Badawcza Łukasiewicz – Instytut Przemysłu Organicznego; Grupa Badawcza Technik Wybuchowych w Krupskim Młynie; środki zawierające materiały wybuchowe

• Wydawca: Sieć Badawcza Łukasiewicz - Instytut Przemysłu Organicznego
• Czasopismo: Materiały Wysokoenergetyczne
• Rocznik: 2023
• Tom: T. 15
• Strony: 86--96
• Opis fizyczny: Bibliogr. 37 poz., rys.

Twórcy

autor

Wilk Zenon

• Łukasiewicz Research Group – Institute of Industrial Organic Chemistry, Workgroup of Explosive Techniques, 1 Zawadzkiego St., 42-693 Krupski Młyn, Poland

• https://orcid.org/0000-0001-7657-5562

autor

Ball Sławomir

• Łukasiewicz Research Group – Institute of Industrial Organic Chemistry, Workgroup of Explosive Techniques, 1 Zawadzkiego St., 42-693 Krupski Młyn, Poland

• https://orcid.org/0009-0001-9697-7072

Bibliografia

• [1] Buchalik K., Legocki J., Przybylik R., Wilk Z. Scientific and Research Activities of the Branch of the Institute of Organic Industry in Krupski Młyn in the Past Fifty Years. (in Polish) Proc. 3rd Int. Conf. IPOEX 2006, Ustroń Jaszowiec, 2006, p. 17.
• [2] Wilk Z. 60 years of Activity of the Krupski Młyn Branch of the Organic Industry Institute in the Field of High-energy Materials and Blasting Agents. (in Polish) Przem. Chem. 2016, 95(12): 2480-2483.
• [3] Staś J., Zakrzewski A., Wilk Z. Branch of the Institute of Organic Industry in Krupski Młyn. Research and Production-experimental Activities in the Field of Explosives. (in Polish) Prace Naukowe GIG, Górnictwo i Środowisko (Mining and Environment), Proc. Conf. Safety of Blasting Works in Mining, Ustroń, 2006, pp. 277-287.
• [4] Staś J., Wilk Z., Zakrzewski A. Research and Production Facilities of the Institute of Organic Industry, Krupski Młyn Branch, in the Field of High-energy Materials and Blasting Agents. (In Polish) CHEMIK 2007, 60(5): 269-274.
• [5] Griesgraber K., Wilk Z. New Components in Targeted Explosive for Blasting Operations in Boreholes. (in Polish) Proc. Conf. GEOPETROL 2002, Scientific Research and Development Problems in the Exploration and Exploitation of Natural Gas and Petroleum Deposits, Zakopane, 2002, pp. 397-400.
• [6] Griesgraber K., Wilk Z., Zakrzewski A. Cumulative Perforation of Oil Wells Combined with Additional Reservoir Stimulation. (in Polish) Prace Instytutu Nafty i Gazu 2004, 130: 463-470.
• [7] Frodyma A., Wilk Z. Cumulative Perforation Methods in Accessing Hydrocarbon Deposits. (In Polish) Wiertnictwo, Nafta, Gaz 2007, 24(2): 733-755.
• [8] Jach K., Trębiński R., Wilk Z., Zygmunt B. Studies of Cumulative Charges with Powder Inserts for Oil Well Perforation. (in Polish) Proc. 4th Int. Armament Conf., Waplewo, 2002, 103-104.
• [9] Jach K., Świerczyński R., Wilk Z. Modelling of Perforation Process of Wellbore Pipes of Geological Wells Using Shaped Charges. J. Tech. Phys. 2004, 45(1): 31-54.
• [10] Wilk Z., Zygmunt B. Application of Cumulative Charges to Perforate Geological Boreholes. (In Polish) Prace Naukowe GIG, Górnictwo i Środowisko (Mining and Environment), Proc. Conf. Safety of Blasting Works in Mining, Ustroń, 2006, pp. 221-238.
• [11] Zygmunt B., Wilk Z. The Research of Shaped Charges with Powder Liners for Geological Borehole Perforation. Arch. Mining Sci. 2007, 52(1): 121-133.
• [12] Zygmunt B., Wilk Z. Formation of Jets by Shaped Charges with Metal Powders Liners. Propellants Explos. Pyrotech. 2008, 33(6): 482-487.
• [13] PN-EN 13753-15. Explosives for Civilian Use. Igniters and Relays. Determining the Initiating Capabilities Equivalent. (in Polish), 2004.
• [14] Koślik P., Staś J., Wilk Z., Zakrzewski A. Research of High Explosives Based on RDX, HMX and CL-20 in the Small Scale Underwater Test Examination. Cent. Eur. J. Energ. Mater. 2007, 4(3): 3-13.
• [15] Wilk Z., Staś J., Jodłowski J., Margas M. Comparative Studies of the Equivalent Initiating Capability for Reinforced Detonators ‒ Underwater Explosion Test. (in Polish) Prace Naukowe GIG, Górnictwo i Środowisko (Mining and Environment), Proc. Conf. Safety of Blasting Works in Mining, Ustroń, 2008, pp. 67-76.
• [16] Wojewódka A., Bełzowski J., Wilk Z., Staś J. Energetic Characteristics of Transition Metal Complexes. J. Hazard. Mater. 2009, 171: 1175-1177.
• [17] Maranda A., Cieślicka K., Koślik P., Wilk Z. Momentum Method Blast Wave Test for LWC Emulsion Explosives. Proc. 12th Semin. NTREM2009, Part 2. Pardubice, Czechy, 2009, pp. 729-740.
• [18] Maranda A., Paszula J., Zawadzka-Małota I., Kuczyńska B., Witkowski W., Nikolczuk K., Wilk Z. Aluminum Powder Influence on ANFO Detonation Parameters. Cent. Eur. J. Energ. Mater. 2011, 8(4): 279-292.
• [19] Koslik P., Wilk Z., Cieślicka K., Maranda A. The Research of the Explosive Charge Detonation in the Air Using numerical modelling methods. Proc. 14th Semin. NTREM2011, Part 2. Pardubice, Czechy, 2011, pp. 768-780.
• [20] Wilk Z., Koślik P., Sobala J. Computer Simulations of the Course of Explosive Detonation in Long Blast Holes ‒ 2D Model. (in Polish) Proc. Conf. Safety of Blasting Works in Mining, Ustroń, 2012, pp. 187-202.
• [21] Wilk Z., Hadzik J., Koślik P., Gierlotka L. Investigations of the Tripping Time of Non-electric Surface Fuses. (in Polish) Proc. Conf. Safety of Blasting Works in Mining, Ustroń, 2012, pp. 179-185.
• [22] Nikolczuk K., Hadzik J., Wilk Z. Electrostatic Discharge Measuremens of High Energetic Materials. (in Polish) Proc. 9th Int. Conf. IPOEX2012, Ustroń Zawodzie, 2012, p. 39.
• [23] Zygmunt B., Machowski B., Makowski M., Wilk Z., Koślik P. Use of Computer Techniques In Theoretical and Experimental Testing of EFP-type Penetrating Munitions. (in Polish) Mechanik 2013, 7: 863-872.
• [24] Koślik P., Wilk Z., Machowski B., Makowski M., Zygmunt B. Polygonal Research Using Fast Camera of Explosively Formed Projectile (EFP) with Liners Made of Powder Metallurgy. (in Polish) Proc. 10th Int. Conf. IPOEX2013, Ustroń Zawodzie, 2013, p. 57.
• [25] Koślik P., Hadzik J., Wilk Z., Gałka A. Electromagnetic Method in Determination of the Detonation Parameters of Ammonium Nitrate Explosives. Proc. 18th Semin. NTREM2015, Part 2, Pardubice, Czechy, 2015, pp. 646-651.
• [26] Recommendations of the Transport of Dangerous Goods, Tests and Criteria. New York/ Geneva: United Nations, 2009.
• [27] Frodyma A., Habera Ł., Wilk Z., Koślik P. Autonomous Pressure Recorder – Construction and Performance Testing. (in Polish) Mater. Wysokoenerg. / High Energ. Mater. 2011, 3: 32-39.
• [28] Wilk Z., Koślik P. Optimization Studies of Annular Cumulative Load Structures. (in Polish) Proc. Conf. Blasting Technology in Mining and Construction, Ustroń, 2013, pp. 303-313.
• [29] Koślik P., Wilk Z. Research in the Field of Assessing the Ability of Safety Protectoin Systems Glaring Effects of Explosion. (in Polish) Mater. Wysokoenerg. / High Energ. Mater. 2015, 7: 53-62.
• [30] Hadzik J., Koślik P., Wilk Z., Frodyma A., Habera Ł. Tubing Side Cutter – Simulation and Performance Testing of New Equipment for Restoring Circulation in Borehole. Proc. 18th Semin. NTREM2015, Part 2, Pardubice, Czechy, 2015, pp. 652-658.
• [31] Nikolczuk K., Hadzik J., Wilk Z., Witkowski W. Study of the Influence of Selected Polymeric Additives on the Performance Parameters of Explosives. (in Polish) Proc. 8th Int. Conf. IPOEX2011, Ustroń Zawodzie, 2011, p. 32.
• [32] Maranda A., Paszula J., Nikolczuk K., Wilk Z. Emulsion Explosives Containing Sodium Chloride Sensitised with Microballoons. (in Polish) Przem. Chem. 2011, 90(6): 1254-1259.
• [33] Hadzik J., Koślik P., Wilk Z., Romanowski M., Kosno J., Wojtala A. Investigating the Influence of Glycerine-based Polymer Additive on the Performance Parameters of Explosives. (in Polish) Proc.11th Int. Conf. IPOEX2014, Ustroń Zawodzie, 2014, p. 37.
• [34] Nikolczuk K., Hadzik J., Wilk Z. New Cumulative Charges with Elastic Properties as an Example of Application of Silicone Polymers in Explosives Technology. CHEMIK 2013, 67(1): 37-40.
• [35] Wilk Z., Koślik P., Frodyma A., Habera Ł. Investigations of Cumulative Charges with Reactive Inserts in a Pressure Vessel. (in Polish) Proc. Conf. Safety of Blasting Works in Mining. Ustroń, 2010, pp. 149-160.
• [36] Habera Ł., Frodyma A., Koslik P., Wilk Z. Field Testing of Ignition of Powder Fuels used In Perfogenerators. (in Polish) Nafta-Gaz 2012, 3: 180-183.
• [37] Koślik P., Wilk Z., Hadzik J., Habera Ł, Frodyma A. New Concepts for Solutions of Perforating and Fracturing Systems in the Aspect of Intensification of Oil and Gas Production. (in Polish) Proc. 11th Int. Conf. IPOEX2014, Ustroń Zawodzie, 2014, p. 41.