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保护层开采爆破技术数值模拟研究与应用()

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《爆破器材》[ISSN:1001-8352/CN:32-1163/TJ]

卷:: 51
期数:: 2022年03

页码:: 57-64

栏目:: 爆破技术

出版日期:: 2022-06-06

文章信息/Info

Title:: Numerical Simulation and Application of Blasting Technology for Protective Layer Excavation

文章编号:: 5660

作者:: 张紫晗; 胡光球; 郑建礼; 余晖; 李庆松; 张兆阳; 汪啸林; 广东锡源爆破科技股份有限公司（广东惠州，516007）

Author(s):: ZHANG Zihan; HU Guangqiu; ZHENG Jianli; YU Hui; LI Qingsong; ZHANG Zhaoyang; WANG Xiaolin; Guangdong Xiyuan Blasting Technology Co., Ltd. (Guangdong Huizhou, 516007)

关键词:: 保护层爆破; 开采爆破高度; 数值模拟; 复合垫层

Keywords:: protective layer blasting; excavation blasting height; numerical simulation; composite cushion

分类号:: TU746.5

DOI:: 10.3969/j.issn.1001-8352.2022.03.010

文献标志码:: A

摘要:: 为保证保护层开采的爆破效果，提高施工效率并降低爆破成本，采用垂直炮孔底部填充波阻抗差异较大的垫层材料的技术进行保护层开采爆破。在分析爆炸应力波的特点、作用范围、反射与透射原理后，选取泡沫混凝土加松砂作为复合垫层材料。使用LSDYNA对不同保护层开采爆破高度和不同泡沫混凝土高度的保护层开采爆破进行模拟分析，探索保护层开采爆破的合理高度。分析认为，采用25 cm泡沫混凝土加10 cm松砂复合垫层时，保护层开采爆破高度宜为4 m。研究结果在广东太平岭核电站建设中得到运用，建基面岩体得到良好的保护。

Abstract:: In order to ensure the blasting effect of protective layer, improve the construction efficiency and reduce the blasting cost, the technology of filling cushion material with large difference in wave impedance at the bottom of vertical blast hole was used in protective layer excavation blasting. After analyzing the characteristics, scope of action, reflection and transmission principles of explosive stress wave, the foam concrete and loose sand were selected as composite cushion materials. LSDYNA was used to simulate and analyze the excavation blasting of protective layer with different blasting height of protective layer and different blasting height of foam concrete, to explore the reasonable height of protective layer excavation blasting. Analysis shows that when the 25 cm foam concrete and 10 cm loose sand composite cushion are used, the blasting height of the protective layer excavation is 4 m. This technology has been applied in the construction of Guangdong Taipingling Nuclear Power Station, and the foundation surface rock mass has been well protected.

参考文献/References:

［1］许华.垂直孔水平聚能药包爆破保护层开挖施工技术研究［D］.武汉:武汉理工大学,2004.

XU H.The Research of techniques for accumulative charge to excavate foundation protected level［D］.Wuhan: Wuhan University of Technology,2004.

［2］吴新霞,赵根,张正宇,等.复合垫层理论研究及计算机优化设计［J］.爆破器材,2000,19(4):8-11.

WU X X, ZHAO G, ZHANG Z Y, et al. A Study of the theory of duplicate cushion and its optimized design by comupter［J］.Explosive Materials,2000,19(4):8-11.

［3］黄霖.大坝基岩保护层开挖中柔性垫层爆破方法及爆破效果研究［D］.武汉:武汉理工大学,2003.

HUANG L.Study on the pliability cushion explosion method and effectively of the protected level of dam foundation rock’s excavating［D］.Wuhan: Wuhan University of Technology,2003.

［4］黄庆明.聚能爆破技术在水电站建基面水平预裂爆破中的应用研究［D］.昆明:昆明理工大学,2010.

HUANG Q M.Application of shaped charge blasting technology in horizontal presplitting blasting of foundation plane of hydropower station［D］.Kunming:Kunming University of Science and Technology,2010.

［5］胡浩然,卢文波,席浩,等.聚消能复合垫层保护下的水平建基面开挖方法研究［J］.岩石力学与工程学报,2016,35(增刊2):4129-4138.

HU H R，LU W B，XI H，et al.Horizontal foundation surface excavation method under the protection of energy shaped and dissipation composite cushion［J］.Chinese Journal of Rock Mechanics and Engineering，2016,35(Suppl.2):4129-4138.

［6］于亚伦.工程爆破理论与技术［M］.北京:冶金工业出版社,2004:181-184.

YU Y L.Theory and technology of engineering blasting［M］.Beijing:Metallurgical Industry Press,2004:181-184.

［7］水工建筑物岩石基础开挖工程施工技术规范:SL47—1994［S］.北京：水利电力出版社，1995.

［8］陈育权,刘广鑫,柯昌佳,等.南公1水电站溢洪道保护层开挖孔底消能-聚能结构优选研究［J］.爆破,2020,37(4):10-17.

CHEN Y Q，LIU G X，KE C J，et al.Study on optimization of dissipation-accumulation energy structure at bottom of borehole during protective layer excavation of Namkong 1 Hydropower Station［J］. Blasting,2020,37(4):10-17.

［9］陈德志.贵港航运枢纽工程船闸开挖爆破技术［J］.工程爆破,2000,6(3):59-61.

CHEN D Z.Blasting techniques for excavation of the shiplock in Guigang Water Conservancy Project［J］.Engineering Blasting,2000,6(3):59-61.

［10］常民生,刘宏刚.基岩保护层一次开挖爆破技术在汾河二库的应用［J］.爆破,2000,17(增刊1):198-202.

CHANG M S,LIU H G.Application of one-through excavation blasting technique of foundation protective layer in Fenhe River［J］.Blasting,2000,17(Suppl.1):198-202.

［11］蒋雷龙,曾小平,汪胜金,等.台山核电厂安全控制爆破技术研究［J］.铁道科学与工程学报,2010,7(5):122-125.

JIANG L L,ZENG X P,WANG S J,et al.Safety blasting construction plan of Taishan Nuclear Power Plant［J］.Journal of Railway Science and Engineering,2010,7(5):122-125.

［12］王代华,刘殿书,杜玉兰,等.含泡沫吸能层防护结构爆炸能量分布的数值模拟研究［J］.爆炸与冲击,2006,26(6):562-567.

WANG D H,LIU D S,DU Y L,et al.Numerical simulation of antiblasting mechanism and energy distribution of composite protective structure with foam concrete［J］.Explosion and Shock Waves,2006,26(6):562-567.

［13］田志敏,钱七虎,吴步旭.大压力爆炸动载作用下地下复合圆形结构研究［J］.特种结构,1997,14(3):40-43.

［14］杨国梁,杨仁树,佟强.切缝药包掏槽爆破研究与应用［J］.煤炭学报,2012,37(3):385-388.

YANG G L,YANG R S,TONG Q.Research and application of cut blasting with slotted charge［J］.Journal of China Coal Society,2012,37(3):385-388.

［15］胡英国，卢文波，金旭浩，等.岩石高边坡开挖爆破动力损伤的数值仿真［J］.岩石力学与工程学报，2012，31(11)：2204-2213.

HU Y G，LU W B，JIN X H，et al.Numerical simulation for excavation blasting dynamic damage of rock high slope［J］.Chinese Journal of Rock Mechanics and Engineering，2012，31(11)：2204-2213.

备注/Memo

备注/Memo:: 收稿日期：2021-07-14
基金项目：广东省爆破工程技术研究中心建设项目（191119075799737）
第一作者：张紫晗（1991-），男，硕士研究生，工程师，从事爆破技术与施工方面的研究。E-mail：826745798@qq.com
通信作者：胡光球（1990-），男，硕士，从事爆破技术与施工方面的研究。E-mail：597715410@qq.com

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