Perfeziona i miei risultati
Document type
Institution
Collection spécifique
Lingua
- Inglese (13)
Autore
-
Zhao, J. (13)
- Albers, R. (3)
- Bourdet-Sicard, R. (3)
- Antoine, J.-M (2)
- Barla, G. (2)
- Blum, S. (2)
- Calder, P.C. (2)
- Folkerts, G. (2)
- Guarner, F. (2)
- Kazerani, T. (2)
- Li, J. C. (2)
- Løvik, M. (2)
- M'Rabet, L. (2)
- Ma, G. W. (2)
- Macfarlane, S. (2)
- Perino, A. (2)
- Serafini, M. (2)
- Vidry, S. (2)
- Wu, W. (2)
- Zhang, Q. (2)
- Zhu, J. (2)
- Zhu, J. B. (2)
- van Eden, W. (2)
- van Loo, J. (2)
- Ahluwalia, N. (1)
- Bosco, N. (1)
- Calder, P. C. (1)
- Chen, S. (1)
- Deng, X. (1)
- Ferns, G. A. (1) Di più Meno
Domaine
Parola chiave
- Wave propagation (5)
- Body waves (3)
- Seismic attenuation (3)
- Dynamic loading (2)
- Fractures and faults (2)
- Inflammation (2)
- Rock joints (2)
- $$A_\mathrm{B}$$ A B : The cross-sectional area of the bar (1)
- $$A_\mathrm{I} (v)$$ A I ( v ) : The function of dynamic fracture (1)
- $$A_\mathrm{S}$$ A S : The cross-sectional area of fracture surface (1)
- $$C_\mathrm{B}$$ C B : Longitudinal wave speed of the bar (1)
- $$C_\mathrm{L}$$ C L : Longitudinal wave speed (1)
- $$C_\mathrm{R}$$ C R : Rayleigh wave speed (1)
- $$C_\mathrm{S}$$ C S : Shear wave speed (1)
- $$D$$ D : Fractal dimensions (1)
- $$E$$ E : Elastic modulus (1)
- $$E_\mathrm{B}$$ E B : Young's modulus of the bar (1)
- $$G_\mathrm{C}$$ G C : Quasi-static fracture energy (1)
- $$G_\mathrm{d} (t,v)$$ G d ( t , v ) : Dynamic energy release rate (1)
- $$G_{\mathrm{dC}}$$ G dC : Dynamic fracture energy (1)
- $$I$$ I : The moment of inertia (1)
- $$K_\mathrm{I}, \, K_\mathrm{I}^{\mathrm{dyn}} (t,v)$$ K I , K I dyn ( t , v ) : Quasi-static, dynamic stress intensity factor (1)
- $$K_{\mathrm{IC}}$$ K IC : Fracture toughness (1)
- $$K_{\mathrm{IIC}}, K_{\mathrm{IId}}$$ K IIC , K IId : Mode II quasi-static, dynamic fracture toughness (1)
- $$K_{\mathrm{Id}}, K_{\mathrm{ID}}$$ K Id , K ID : Mode I dynamic crack initiation, growth toughness (1)
- $$N(\xi )$$ N ( ξ ) : The total number of covering box (1)
- $$P$$ P : The load applied on the specimen (1)
- $$P_{\max }$$ P max : The peak applied load (1)
- $$T,\, T_{\mathrm{Rot.}},\, T_{\mathrm{Tra.}}$$ T , T Rot . , T Tra . : The total, rotational and translational kinetic energies (1)
- $$V_{\mathrm{Str.}}$$ V Str . : The striking impact speed (1) Di più Meno