撞击坑模拟中FLAG代码的验证与验证

IF 0.5 Q4 ENGINEERING, MECHANICAL Journal of Verification, Validation and Uncertainty Quantification Pub Date : 2018-09-01 DOI:10.1115/1.4042516
W. Caldwell, A. Hunter, C. Plesko, S. Wirkus
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引用次数: 13

摘要

验证和确认(V&V)是确保计算方法准确性的必要过程,用于解决对大量应用和行业至关重要的问题。模拟对于解决撞击坑问题至关重要,因为这些问题往往超出了实验能力。在这里,我们证明了由洛斯阿拉莫斯国家实验室(新墨西哥州洛斯阿拉莫斯)开发的自由拉格朗日(FLAG)水力代码可以用于撞击坑模拟,方法是根据不同撞击速度下铝对铝撞击的两个分析模型验证FLAG,并根据玻璃入水实验室撞击实验验证FLAG。我们的验证结果与理论最大压力吻合良好,相对误差低至1.00%,弹坑半径相对误差低至3.48%,弹坑深度相对误差低达0.79%。我们的网格分辨率研究表明,FLAG在足够低的分辨率下收敛,将所需的计算时间从大约28 h至约25 min。我们预计,与Pierazzo等人测试的其他水力代码相比,FLAG可用于对当前系统中更大的冲击坑问题进行建模,从而提高精度并降低计算成本。(2008年,“冲击和爆炸坑数值代码的验证:对无强度和金属目标的影响”,MAPS,43(12),第1917–1938页)。
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Verification and Validation of the FLAG Hydrocode for Impact Cratering Simulations
Verification and validation (V&V) are necessary processes to ensure accuracy of the computational methods used to solve problems key to vast numbers of applications and industries. Simulations are essential for addressing impact cratering problems, because these problems often exceed experimental capabilities. Here, we show that the free Lagrange (FLAG) hydrocode, developed at Los Alamos National Laboratory (Los Alamos, NM), can be used for impact cratering simulations by verifying FLAG against two analytical models of aluminum-on-aluminum impacts at different impact velocities and validating FLAG against a glass-into-water laboratory impact experiment. Our verification results show good agreement with the theoretical maximum pressures, with relative errors as low in magnitude as 1.00%. Our validation results demonstrate FLAG's ability to model various stages of impact cratering, with crater radius relative errors as low as 3.48% and crater depth relative errors as low as 0.79%. Our mesh resolution study shows that FLAG converges at resolutions low enough to reduce the required computation time from about 28 h to about 25 min. We anticipate that FLAG can be used to model larger impact cratering problems with increased accuracy and decreased computational cost on current systems relative to other hydrocodes tested by Pierazzo et al. (2008, “Validation of Numerical Codes for Impact and Explosion Cratering: Impacts on Strengthless and Metal Targets,” MAPS, 43(12), pp. 1917–1938).
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CiteScore
1.60
自引率
16.70%
发文量
12
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