Cavendish Laboratory, Department of Physics, University of Cambridge, J J Thomson Avenue, Cambridge CB3 0HE, UK
Philos Trans A Math Phys Eng Sci. 2015 Mar 28;373(2038). doi: 10.1098/rsta.2014.0135.
In this article, high-speed photographic investigations of the dynamic crack initiation and propagation in several inorganic glasses by the impact of small spherical and conical projectiles are described. These were carried out at speeds of up to approximately 2×10(6) frames s(-1). The glasses were fused silica, 'Pyrex' (a borosilicate glass), soda lime and B(2)O(3). The projectiles were 0.8-2 mm diameter spheres of steel, glass, sapphire and tungsten carbide, and their velocities were up to 340 m s(-1). In fused silica and Pyrex, spherical projectiles' impact produced Hertzian cone cracks travelling at terminal crack velocities, whereas in soda-lime glass fast splinter cracks were generated. No crack bifurcation was observed, which has been explained by the nature of the stress intensity factor of the particle-impact-generated cracks, which leads to a stable crack growth. Crack bifurcation was, however, observed in thermally tempered glass; this bifurcation has been explained by the tensile residual stress and the associated unstable crack growth. A new explanation has been proposed for the decrease of the included angle of the Hertzian cone cracks with increasing impact velocity. B(2)O(3) glass showed dynamic compaction and plasticity owing to impact with steel spheres. Other observations, such as total contact time, crack lengths and response to oblique impacts, have also been explained.
本文描述了用小的球形和锥形弹丸冲击几种无机玻璃时,高速摄影研究动态裂纹的萌生和扩展。这些实验是在最高约 2×10(6)帧每秒的速度下进行的。玻璃样品包括熔融石英、“Pyrex”(硼硅酸盐玻璃)、钠钙玻璃和 B(2)O(3)。弹丸是直径为 0.8-2 毫米的钢球、玻璃球、蓝宝石球和碳化钨球,它们的速度最高可达 340 米每秒。在熔融石英和 Pyrex 中,球形弹丸的冲击产生了以终端裂纹速度传播的赫兹锥形裂纹,而在钠钙玻璃中则产生了快速的劈裂裂纹。没有观察到裂纹分叉,这可以用颗粒冲击产生的裂纹的应力强度因子的性质来解释,这导致了稳定的裂纹扩展。然而,在热回火玻璃中观察到了裂纹分叉;这种分叉可以用拉伸残余应力和相关的不稳定裂纹扩展来解释。提出了一个新的解释来解释随着冲击速度的增加,赫兹锥形裂纹的夹角减小的原因。由于钢球的冲击,B(2)O(3)玻璃表现出了动态压实和塑性。其他观察结果,如总接触时间、裂纹长度和对斜碰撞的响应,也得到了解释。
