Search Results

1 - 10 of 820 items :

Clear All

References [1] Neville AM. Concrete properties. Krakow: Polish Cement Association; 2000. [2] Kaplan MF. Concrete radiation shielding. New York: John Willey & Sons; 1989. [3] Knoll GF. Radiation Detection and Measurement. New York: John Wiley & Sons; 2000. [4] Shultis J, Faw R. Handbook of Nuclear Engineering. in: Radiation Shielding and Radiological Protection. Springer, p. 1313-1448. 2010 [5] ICRP. 1990 Recommendations of the International Commission on Radiological Protection. ICRP Publication 60. Ann ICRP. 1991;21(1-3):1-201. [6] Zielczyński M, Golnik N

References Aguilar E., Auer I., Brunet M., Peterson T. C., Wieringa J., 2003: WCDMP-53 WMO/ TD-No. 1186 Guidelines On Climate Metadata and Homogenization. http://www.wmo.int/datastat/documents/WCDMP-531.pdf. Aoshima T., Nakashima K., Kawamura H., Kumamoto M., Sakai T., Kawano S., Joko M., 2010: RIC-Tsukuba (Japan) Intercomparison of Thermometer Screens/Shields in 2009 - 2010. TECO-2010 - WMO Technical Conference on Meteorological and Environmental Instruments and Methods of Observation, Helsinki, Finland, 30 August - 1 September 2010, http

badania odporności balistycznej materiałów, zwłaszcza okrętowych, konstrukcyjno-osłonowych i pancernych, patent P313233, WUP03/1996 [Unified stand for testing ballistic materials, particularly marine, construction and shielding and armor - available in Polish]. [12] Fila J., Zatorski Z., Zaczek Z., Własności technologiczno użytkowe i balistyczne okrętowej SSWW gatunku 10GHMBA-E620T, Mat. Conf. ‘Nowoczesne materiały w okrętownictwie’ [‘Modern materials in shipbuilding’], 25.09.1995, Politechnika Gdańska, Gdańsk 1995, pp. 47-57 [The properties of technological utility and

, and the Law of the Mother . New York: Colombia University Press. Kristeva, Julia. 1980. Desire in Language: A Semiotic Approach to Literature and Art . Leon S. Roudiez. (Ed.). New York: Columbia University Press. Ritzer, George (Ed.). 2004. Encyclopedia of Social Theory . Sage Publications. Shields, Carol. 2003. Unless . London and New York: Fourth Estate. Walker, Michelle Boulous. 1998. Philosophy and the Maternal Body: Reading Silence . London and New York: Routledge. Whitford, Margaret. 1991. Luce Irigaray: Philosophy in the Feminine . London and New York

The Need for Unified Understanding of ‘Military Objective’ in the Context of Human Shields and Passive Precautions Concepts1 Tuomas Heikkinen & Martin Faix Faculty of Law, Palacký University Olomouc, Czech Republic tuomas.a.heikkinen@gmail.com; martin.faix@upol.cz HEIKKINEN, Tuomas & FAIX, Martin. The Need for Unified Understanding of ‘Military Objective’ in the Context of Human Shields and Passive Precautions Concepts. International and Comparative Law Review, 2016, vol. 16, no. 2, pp. 49–66. DOI: 10.1515/iclr-2016-0014. Summary: Belligerent party being the

References [1] KADEN, H: Die elektromagnetische Schirmung in der Fernmelde- und Hochfrequenztechnik, Springer Verlag, Berlin, 1950. [2] RIKITAKE, T: Magnetic and Electromagnetic Shielding, D. Reidel Publ. Co., Tokyo, 1987. [3] WOLFSPERGER, H. A: Elektromagnetische Schirmung, Springer-Verlag, Berlin, 2007. [4] MAYER, D.-ULRYCH, B: Shielding of Magnetic Field in MAGLEV Vehicle Train with Superconducting Coils, Proceedings of the XIII International Symposium on Theoretical Electrical Engineering (ISTET05), Lvov July 4-7, 2005, pp. 55-58. [5] MAYER, D: Aplikovaný

References IEEE EMC Society. (2007). IEEE Standard Method for Measuring the Effectiveness of Electromagnetic Shielding Enclosures. Std. 299-2006. Svačina, J. (2001). Electromagnetic Compatibility, Principles and Methods . Volume 2. Brno: Brno University of Technology. (published in Czech) Haga, A., Kamo, Y., Kawamata, K., Minegishi, S. (1998). A new measurement method of shielding effectiveness. In International Symposium on Electromagnetic Compatibility , 14-18 September 1998. Roma, Italy, 254-257. Černohoský, D., Nováček, Z., Raida, Z. (1999

References [1] Baklezos, A.T., Nikolopoulos, C.D., Katsouris, A.G., Koutantos, G.I., Capsalis, C.N. (2016). Electromagnetic emission modeling in case of shielded cabling with respect to the ground dielectric properties. IEEE Transactions on Electromagnetic Compatibility , 58 (6), 1694–1700. [2] Yousaf, J., Amin, M., Iqbal, S. (2013). Investigation of low frequency emissions due to interfacing cables in RE 102. In International Conference on Space Science and Communication (IconSpace) , Melaka, Malaysia: IEEE, 65–69. [3] Du, Y.L., Lu, Y.H., Zhang, J.L. (2013

References 1. ZHU Wei, CHEN Renjun. Technical Problems and Construction Management of Shield Tunneling [J]. Geotechnical Engineering World, 2001(12): 18-20. 2. LIN Jian, ZHU Wei, ZHONG Xiaochun. 358. Study on the Effect of Foam Stability on Muck Improvement in Shield Tunneling [J]. Geotechnical Engineering World, 2005, 8(12): 38-41. 3. QIN Jianshe, ZHE Wei, LIN Jinye. Assessment of the Foam Application in EPB Shield Tunneling [J]. Underground Space, 2004, 24(3): 350-358. 4. ZHAO Guangzi, JIA Lu, WEN Faqing, CHEN Runshui, XU Xiuting. Study on Muck Improvement

, Naylor E, eds. Clark’s positioning in radiography. 11th edition. London (etc.): Butterworth Heinemann; 1996. p. 166-73. 5. Lipovec V. Rentgenske slikovne metode in protokoli. Ljubljana: Visoka šola za zdravstvo; 2005. p. 257-80. 6. Frank ED, Long BW, Smith BJ. Merrill’s atlas of radiographic positioning & procedures. 11th edition . St. Louis: Mosby/Elsevier; 2007. p. 373-87, 424-35. 7. Fordham LA, Brown ED, Washburn D, Clark RL. Efficacy and feasibility of breast shielding during abdominal fluoroscopic examinations. Acad Radiol 1997; 4: 639-43. 8