伴随着社会的发展,世界上重要目标建设越来越多,防护等级也越来越高。各国高价值的目标都实现了地下化/半地下化,防护的强度也有很大的提高,具体表现在防护的厚度和防护结构的复杂程度。使用反深层硬目标战斗部即钻地弹可以对地下/半地下目标实施有效的打击,钻地弹亦成为重要的战略战术武器。因此,钻地弹对地下/半地下目标打击的规律成为武器开发和军事研究的重点之一。当前,关于侵彻的研究一般将钢筋混凝土看作一个均质靶体,很少考虑钢筋对弹体运动的影响。为了加深对侵彻问题的深入研究,得到更加准确的侵彻规律。算法建立基于弹体与钢筋作用的等效单自由度模型,并进行编程实现,通过商业软件计算初步验证了弹筋接触程序计算的合理性。开展钻地弹深/斜侵彻混凝土靶过程中弹体同钢筋作用规律的研究,无论是对于推进侵彻理论的发展,还是提高武器装备的打击能力都具有重要的意义。 With the development of society, more and more important goals are being built in the world and the protection level is getting higher and higher. All countries have achieved the goal of high-value underground / semi-underground, the intensity of protection has also been greatly improved, specifically in the protection of the thickness and complexity of protective structures. The use of anti-deep hard target warheads, that is, earth-boring bombs, can effectively strike underground and semi-underground targets and drilling earth bombs have also become an important tactical and tactical weapon. Therefore, the law of earth-bound bombs on underground / semi-underground targets has become one of the focuses of weapons development and military research. At present, the research on penetration usually regards reinforced concrete as a homogeneous target, and seldom considers the influence of reinforcing bars on projectile motion. In order to deepen the study on the issue of penetration and get more accurate law of penetration. Based on the algorithm, an equivalent one-degree-of-freedom model based on the effect of projectile and reinforcing bar is established and programmed. The calculation of the contact of projectile is validated by commercial software. The research on the law of the interaction between the projectile body and the steel bar in the process of drilling deep ground / obliquely penetrating the concrete target is of great significance both for promoting the development of the penetration theory and for improving the combat capability of the weaponry.