花岗岩在SHPB冲击破坏实验中最低加载应变率的杆径效应

基于Steverding-Lehnigk脆性断裂准则，分析了半正弦应力波加载条件下SHPB杆径尺寸与导致花岗岩试样单次冲击破坏对应的最低应变率之间的关系。采用杆径分别为22、36、50和75 mm的SHPB实验系统对相应尺寸规格的花岗岩试样进行了应变率从高到低的冲击实验，讨论了花岗岩试样在单次冲击破坏情形下对应的最低应变率与实验杆径的相关性。理论和实验结果表明:岩石试样的最低加载应变率随着SHPB杆径的增大而以乘方关系减小，但当应变率低到100 s-1量级时，Hopkinson杆径已超过100 mm，增大Hopkinson杆径降低加载应变率的效果不再明显。

Bardiametereffectofminimumloadingstrainrate ingraniteimpactingtestsbySHPB

TherelationshipbetweenelasticbardiameterofsplitHopkinsonpressurebar(SHPB)systemsandtheminimumstrainratecausingrockfailureunderonceimpactwithhalf- sinestresswave loads,isanalyzedbasedontheSteverding-Lehnigkfracturecriterionofbrittlematerials.Thetests werecarriedoutatdifferentstrainratesfromhightolowontheSHPBsystemswithdifferentelastic bardiametersof22,36,50and75mm.Granitewasusedinthesetests,anditssizevarieswiththeelasticbardiameter. Thevariationlawoftheloweststrainratewiththeelasticbardiameterwasdiscussed. Thetheoreticalandexperimentalresultsshowthattheloweststrainrateofrockdecreases withtheincreaseoftheelasticbardiameterinpowerrelation.However,thebardiameterhasalready exceeded100mm whenthestrainratedecreasestotheorderof100s-1,andtheeffectofdecreasing strainratebyincreasingbardiameterturnstobelessevident.