References
- Aptukov, V. N. (1985). Optimal structure of inhomogeneous plate with continuous distribution of properties over the thickness. Mechanics of Solids 20(3):148–151.
- Backman, M. E., Goldsmith, W. (1978). The mechanics of penetration of projectiles into targets. International Journal of Engineering Science 16(1):1–99. doi:10.1016/0020-7225(78)90002-2
- Banichuk, N. V., Ivanova, S. Yu. (2007). Shape optimization of rigid penetrating into continuous medium. Problems of Strength and Plasticity 69:47–58. (in Russian).
- Banichuk, N. V., Ivanova, S. Yu. (2008). Shape optimization of rigid 3-D high-speed impactors penetrating into concrete shields. Mechanics Based Design of Structures and Machines 36(3):249–259. doi:10.1080/15397730802275454
- Banichuk, N. V., Ivanova, S. Yu., Makeev, E. V. (2008). On the penetration of nonaxi- symmetric bodies into a deformable solid medium and their shape optimization. Mechanics of Solids 43(4):671–677. doi:10.3103/s0025654408040158
- Banichuk, N. V., Ivanova, S. Yu., Makeev, E. V. (2012). Penetration of rigid impactors into layered plates and some problems of global multipurpose structural optimization. Problems of Strength and Plasticity 74:1–9. (in Russian).
- Banichuk, N. V., Ivanova, S. Yu., Ragnedda, F., Serra, M. (2011). On shape of rigid axisymmetric shell moving in deformed medium and having minimum mass and smallest resistance force. Problems of Strength and Plasticity 73:36–44. (in Russian).
- Banichuk, N. V., Ragnedda, F., Serra, M. (2009). On body shapes providing maximum depth of penetration. Structural and Multidisciplinary Optimization 38(5):491–498. doi:10.1007/s00158-008-0302-z
- Ben-Dor, G., Dubinsky, A., Elperin, T. (2003). Numerical solution for shape optimization of an impactor penetrating into a semi-infinite target. Computers and Structures 81(1):9–14. doi:10.1016/s0045-7949(02)00391-7
- Ben-Dor, G., Dubinsky, A., Elperin, T. (2006a). Applied High-speed Penetration Dynamics. Dordrecht, The Netherlands: Springer.
- Ben-Dor, G., Dubinsky, A., Elperin, T. (2006b). Modeling of high-speed penetration into concrete shields and shape optimization of impactors. Mechanics Based Design of Structures and Machines 34(2):139–156. doi:10.1080/15397730600663398
- Ben-Dor, G., Dubinsky, A., Elperin, T. (2007a). Modification of the method of local variations for shape optimization of penetrating impactors using the localized impactor/shield interaction models. Mechanics Based Design of Structures and Machines 35(1):1–14. doi:10.1080/15397730601120570
- Ben-Dor, G., Dubinsky, A., Elperin, T. (2007b). Shape optimization of impactors against a finite width shield using a modified method of local variations. Mechanics Based Design of Structures and Machines 35(2):113–125. doi:10.1080/15397730701196629
- Ben-Dor, G., Dubinsky, A., Elperin, T. (2009). High-speed penetration modeling and shape optimization of the projectile penetrating into concrete shields. Mechanics Based Design of Structures and Machines 37(4):538–549.
- Bivin, Y. C. (2012). Penetration, Perforation, Ricochet. Saarbrücken, Germany: Lap Lambert (in Russian).
- Bivin, Y. C., Kolesnikov, V. A., Flitman, L. M. (1982). Determination of mechanical characteristics of the medium by the method of dynamical penetration. Mechanics of Solids 17(5):181–185.
- Forrestal, M. J., Tzou, D. Y. (1997). A spherical cavity-expansion penetration model for concrete targets. International Journal of Solids and Structures 34(31–32):4127–4146. doi:10.1016/s0020-7683(97)00017-6
- Goldberg, D. E. (1989). Genetyic Algorithm in Search, Optimization and Machine Learning. Boston, MA: Addison-Westley Publ. Comp., Inc.
- Goldsmith, W. (1999). Non-ideal projectile impact on targets. International Journal of Impact Engineering 22(2–3):95–395.
- Khromov, I. V. (2004). Dynamics of penetration of rigid rotating penetrator into soil (Dinamika Pronikanija Zhjostkogo vraschajuschegosja Indentora v Grunt). Ph. D. Thesis, Tula State University, Tula (in Russian).
- Poncelet, J. V. (1838). Rapport sur un Memoire de MM Piobert et Morin, concernant les experiences faites a Metz en 1834, sur la penetration des projectiles dans divers milieux resistauts et sur la rupture de corps par le choc, 1835. Mem. Acad. Sci. Paris 15:55–91.
- Simonov, I. V. (2006). Qualitative features of the motion of a rotating rigid body in an elastoplastic medium. Doklady Physics 51(12):671–675. doi:10.1134/s1028335806120093
- Yakunina, G. E. (2001). On body shapes providing maximum penetration depth in dense media. Doklady Physics 46(2):140–143. doi:10.1134/1.1355393
- Yakunina, G. E. (2005). On the optimal shapes of bodies moving in dense media. Doklady Physics 50(12):650–654. doi:10.1134/1.2158014