层理倾角与锚固方式耦合作用下砂岩的动态力学特性OA
Experimental study on dynamic mechanical properties of sandstone under coupled effects of bedding dip angle and anchoring methods
为研究冲击荷载下锚固方式与层理倾角对岩体强度的影响规律,对无锚、端锚、半锚及全锚层理砂岩进行动态冲击试验研究,分析了不同锚固方式对层状砂岩动态力学特性、能量耗散规律及破裂分形特征的影响.研究结果表明:无锚试样强度随层理倾角增大先减小后增大,曲线呈V形特征,试样在锚固后,强度得到明显提高,随锚固长度增大,曲线向倒V形特征转化;从能量方面来看,4 类试样的透射能变化规律均与强度变化规律相似,随层理倾角增大,透射能逐渐减小,反射能曲线呈倒V形特征,耗散能则逐渐增大,锚固方式仅影响了曲线整体水平;试样破坏后的碎屑具有明显的分形特征,分形维数随层理倾角的变化,曲线均呈为倒V形特征,全锚试样的破碎程度最小,无锚试样最剧烈;在此基础上计算了单位耗散能指数,曲线随层理倾角的变化则呈现V形特征,全锚试样的单位耗散能指数最高,表明其抗破坏能力最强.研究成果可为层状岩体工程锚固支护提供参考.
Layered rock masses were prone to bedding plane cracking or even large-scale collapse under impact loads such as blasting.In engineering practices,bolts or cables were commonly employed for anchoring support.To investigate the dynamic mechanical response of layered rock masses under impact loading and the effectiveness of bolt support,sandstone specimens with different bedding dip angles(0°,15°,30°,45°,60°,75°,90°)and bolt support methods(no-anchor,end-anchor,semi-anchor,full-anchor)were prepared.Dynamic impact tests were conducted using a split Hopkinson pressure bar(SHPB)system to analyze the coupling effects of bedding dip angle and bolt support method on the dynamic strength,energy evolution,and failure modes of the rock mass.Additionally,fractal theory was employed to quantitatively characterize the fracture characteristics of the specimens.The results indicate that the strength of unanchored specimens initially decreases and then increases with increasing bedding plane angle,exhibiting a V-shaped curve.After anchoring,the strength of specimens improves significantly,and as the anchor length increases,the curve transitions to an inverted V-shape.From an energy perspective,the transmitted energy trends of all four specimen types are similar to their strength trends.As the bedding plane angle increases,the reflected energy curve shows an inverted V-shape,the transmitted energy gradually decreases,while the dissipated energy increases.The anchoring method primarily affects the overall level of the curves.The fragments of the specimens after failure exhibit distinct fractal characteristics,with the fractal dimension curves showing an inverted V-shape influenced by the bedding plane angle.Full-anchor specimens display the least fragmentation,while no-anchor specimens experience the most severe damage.Based on this,the unit dissipated energy index was calculated,revealing a V-shaped curve.Full-anchor specimens exhibit the highest overall unit dissipated energy index,indicating their superior resistance to damage.The findings of this study can provide a reference for anchor support design in layered rock mass engineering.
卢毓崟;于洋;丰光亮;耿大新;金鹏;曾建军;熊涛;李晓培
华东交通大学山区土木工程安全与韧性全国重点实验室,江西 南昌 330013华东交通大学山区土木工程安全与韧性全国重点实验室,江西 南昌 330013中国科学院武汉岩土力学研究所岩土力学与工程安全全国重点实验室,湖北 武汉 430071华东交通大学山区土木工程安全与韧性全国重点实验室,江西 南昌 330013华东交通大学山区土木工程安全与韧性全国重点实验室,江西 南昌 330013华东交通大学山区土木工程安全与韧性全国重点实验室,江西 南昌 330013华东交通大学山区土木工程安全与韧性全国重点实验室,江西 南昌 330013江西畅行高速公路服务区开发经营有限公司南昌分公司,江西 南昌 330103
数理科学
冲击荷载锚固方式层理倾角力学响应
impact loadanchoring methodbedding plane anglemechanical response
《爆炸与冲击》 2026 (6)
82-97,16
国家自然科学基金(42177156)江西省自然科学基金(20243BBG71034,20224ACB204021)岩土力学与工程安全全国重点实验室开放基金(HJGZ2023201)
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