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Impact Testing of Polymer‐filled Auxetics Using Split Hopkinson Pressure Bar - Fíla - 2017 - Advanced Engineering Materials - Wiley Online Library
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Marcel ADORNA | Ing | Czech Technical University in Prague, Prague | ČVUT | Faculty of Transportation Sciences (FD) | Research profile
ON THE MODELLING OF COMPRESSIVE RESPONSE OF CLOSED-CELL ALUMINIUM FOAMS UNDER HIGH-STRAIN RATE LOADING
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PDF) SEMI–AUTOMATED ASSESSMENT OF MICROMECHANICAL PROPERTIES OF THE METAL FOAMS ON THE CELL-WALL LEVEL
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Impact Testing of Polymer‐filled Auxetics Using Split Hopkinson Pressure Bar - Fíla - 2017 - Advanced Engineering Materials - Wiley Online Library
![Impact Testing of Polymer‐filled Auxetics Using Split Hopkinson Pressure Bar - Fíla - 2017 - Advanced Engineering Materials - Wiley Online Library Impact Testing of Polymer‐filled Auxetics Using Split Hopkinson Pressure Bar - Fíla - 2017 - Advanced Engineering Materials - Wiley Online Library](https://onlinelibrary.wiley.com/cms/asset/3f562ead-dfa8-44b8-baf0-fcdc54bb87a6/adem201700076-fig-0001-m.jpg)
Impact Testing of Polymer‐filled Auxetics Using Split Hopkinson Pressure Bar - Fíla - 2017 - Advanced Engineering Materials - Wiley Online Library
EVALUATION OF IMPACT DAMAGE EFFECT ON FATIGUE LIFE OF CARBON FIBRE COMPOSITES 1. Introduction The material research in the field
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Impact Testing of Polymer‐filled Auxetics Using Split Hopkinson Pressure Bar - Fíla - 2017 - Advanced Engineering Materials - Wiley Online Library
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Tomáš FÍLA | Czech Technical University in Prague, Prague | ČVUT | Faculty of Transportation Sciences (FD) | Research profile
Compressive Behaviour of Additively Manufactured Periodical Re-Entrant Tetrakaidecahedral Lattices at Low and High Strain-Rates
Strain Rate-Dependent Compressive Properties of Bulk Cylindrical 3D-Printed Samples from 316L Stainless Steel
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