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Future Developments in Explosives and Energetics: 1st International Explosives Conference [Kõva köide]

Edited by (Cranfield University, UK)
  • Formaat: Hardback, 278 pages, kõrgus x laius: 234x156 mm, kaal: 1253 g, No
  • Sari: Special Publications Volume 356
  • Ilmumisaeg: 19-Jul-2023
  • Kirjastus: Royal Society of Chemistry
  • ISBN-10: 1788017854
  • ISBN-13: 9781788017855
Teised raamatud teemal:
Future Developments in Explosives and Energetics: 1st International Explosives ConferenceSuurem pilt
  • Formaat: Hardback, 278 pages, kõrgus x laius: 234x156 mm, kaal: 1253 g, No
  • Sari: Special Publications Volume 356
  • Ilmumisaeg: 19-Jul-2023
  • Kirjastus: Royal Society of Chemistry
  • ISBN-10: 1788017854
  • ISBN-13: 9781788017855
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781788017855.html
Märksõnad:
The International Explosives Conference (IEC-2022) took place in London from 22-24 June 2022 and this publication provides a record of the proceedings for the oral presentations and display posters that were showcased at the event.

The International Explosives Conference (IEC) champions cutting-edge, deep-science research conducted internationally in the energetic materials sector. Designed for professionals, academics and researchers, it is involved in the fundamental science of explosives and other energetic materials. Set firmly in the context of ‘future developments’, IEC-2022 presents and debates the themes of: energetic materials and characterisation; manufacturing and processing; response to stimuli; advances in experimental techniques and diagnostics and theory, modelling and simulation.

IEC-2022 took place in London from 22 to 24 June 2022 and this publication provides a record of the proceedings for the oral presentations and display posters that were showcased at the event.

The International Explosives Conference 2022 (IEC-2022)
Proceedings;Synthesis, structure and reactivity of energetic
nitrobis(pyrazolyl)benzenes;Energetic materials based on nanoporous
carbon;Crystal structure and characterization of the well-known plasticizers
ethylene glycol dinitrate, diethylene glycol dinitrate and triethylene glycol
dinitrate;Impact and friction sensitivities of PETN during
manufacture;Chemistry of aminated 5-azidotetrazoles: how to make sensitive
materials even more sensitive;Natural and renewable resources for new inert
and energetic polymeric binders hazard properties;Small-scale
characterisation of urea hydrogen peroxide explosive performance using
heterodyne velocimetry;Iterative design studies on additively manufactured
energy absorbing structures;Spatially resolved detonation pressure data from
rate sticks;Cookoff reaction violence;Application of continuous velocity of
detonation diagnostics to PE4 cylinder tests;Towards understanding the
detonation properties of additively manufactured RDX: dry powder printed;The
properties of detonating compositions prepared from submicron KClO4 and
TiH2;Investigating XDT in rocket propellants;Estimating an enclosure
temperature during solid propellant fires;Assessment of the constant
shock-velocity assumption used in the analysis of one-dimensional overdriven
detonation plate impact experiments;Experimental observation and modelling of
contained detonations of PE4: what is the influence of
afterburn?;Implementation of HVRB in LS-DYNA and application to detonation in
hemispherical charges in ideal explosives;Models for the pinching of a
confined hollow explosive cylinder containing air;The role of
pressure-dependent viscoplasticity and volumetric dilation in energetic
materials at intermediate strain rates;Maximum likelihood analysis of
critical energy initiation criterion