当投射物穿入组织时,其侧冲力可使弹道周围组织受到创伤。本实验使用自己研制的新型高频高压传感器,测试了弹道周围肌肉组织所受枪弹冲击波的压力。实验结果证实,弹道周围肌肉组织,与弹道距离不同,所承受压力亦不同。随着与弹道距离的接近,冲击波压力递增。冲击波为双向波,组织在枪弹穿过时,受挤压与牵拉两种力的作用。所研制的新型传感器,可用于研究各种枪弹冲击波在穿入组织时对组织的作用力。 When the projectile penetrates the tissue, its side impact can cause trauma to the surrounding tissue of the trajectory. In this experiment, a new type of high-frequency and high-pressure sensor developed by ourselves was used to test the pressure of bullet shock wave on the muscle tissue around the ballistic trajectory. The experimental results show that the muscle tissue around the trajectory is different from the ballistic distance and under different pressures. As the ballistic distance approaches, shockwave pressure increases. Shock wave is a two-way wave, the organization in the bullet through, by the role of both compression and traction. Developed a new type of sensor can be used to study a variety of bullet shock waves penetrate the tissue when the force on the organization.