首页|期刊导航|固体火箭技术|基于高精度2D-DIC的推进剂应力强度因子测量研究

基于高精度2D-DIC的推进剂应力强度因子测量研究OA

Propellant stress intensity factor measurement using high-accuracy 2D-DIC

中文摘要英文摘要

应力强度因子是含缺陷固体火箭发动机在点火增压工况下结构完整性分析的重要技术指标.然而,现有固体推进剂应力强度因子测量方法主要依赖宏观载荷间接反推,易受非裂尖效应干扰而产生系统误差.基于高精度二维数字图像相关方法获取了固体推进剂试件表面位移场分布,利用裂纹尖端位移场和应力强度因子解析关系,通过外推法计算了固体推进剂裂纹尖端应力强度因子,建立了以Ⅱ型应力强度因子及线性拟合决定系数为双重判据的有效计算扇区筛选策略,测定了HTPB 推进剂的断裂韧性.结果表明,HTPB 推进剂裂尖受载下呈现出典型非线性变形与局部微损伤特征,应力强度因子的外推测量值与裂尖方位角之间存在显著相关性.基于提出的筛选策略,界定了符合裂尖渐近理论解的有效计算域,有效计算域内Ⅰ型应力强度因子值表现出良好的一致性与收敛稳定性.实验测得HTPB 推进剂的临界断裂韧性为1.22 MPa·mm1/2.

The stress intensity factor(SIF)serves as a critical index to evaluate the structural integrity of cracked solid rocket motor propellant grain,particularly under ignition and pressurization loading.However,existing measurement methods for stress intensity factor of solid propellants primarily depend on indirect inference from macroscopic load data.Such methods are strongly affected by off-crack-tip interference and prone to systematic measurement errors.The high-precision two-dimensional digital image correlation(2D-DIC)method was adopted to capture the surface displacement field of the propellant specimens.Based on the analytical relationship between the crack-tip displacement field and the SIF,the crack-tip SIF of the propellant was calculated via the displacement extrapolation method.Furthermore,an effective calculation sector screening strategy was established,which takes the Mode Ⅱ stress intensity factor and the determination coefficient of linear fitting as dual criteria,based on which the fracture toughness of the HTPB propellant was evaluated.The results show that under loading,the propellant crack tip presents evident nonlinear deformation and localized micro-damage,resulting in a strong angular dependence of the extrapolated stress intensity factors.With the proposed screening strategy,an effective computational domain consistent with the crack-tip asymptotic theoretical solution was accurately determined.Within this optimized computational domain,the evaluated Mode Ⅰ stress intensity factors exhibit favorable repeatability and convergence stability.The critical fracture toughness of the tested HTPB propellant was experimentally measured to be 1.22 MPa·mm1/2.

王卓;俞立平;潘兵;崔辉如

北京航空航天大学 航空科学与工程学院,北京 102200北京航空航天大学 航空科学与工程学院,北京 102200北京航空航天大学 航空科学与工程学院,北京 102200陆军工程大学 国防工程学院,南京 210007||香港城市大学 机械工程系,香港 999077

航空航天

HTPB推进剂应力强度因子2D-DIC位移外推法断裂韧性

HTPB propellantstress intensity factor2D-DICdisplacement extrapolation methodfracture toughness

《固体火箭技术》 2026 (3)

399-408,10

国家自然科学基金(12202496,12572204)香江学者计划(XJ2023015)中国博士后科学基金资助项目(2022M723866).

10.7673/j.issn.1006-2793.2026.03.009

评论