1) two way detonat ion
双路起爆
2) priming circuit
起爆网路
1.
In addition,the setting of coyote and priming circuit is also explicated in the paper.
结合小型采石场设备简单、工艺相对落后的实际,介绍了一种采用硐室爆破替换其小直径钻眼爆破的方法,并对药室的布置及起爆网路作了阐述。
2.
In this paper the design and working of boasting reef under water on dredging project in ZhongShan harbor of Qinzhou are introduces ,especially in complicated conditions, How to choose the safety blasting method, to determind the parametr of drilling and blasting, to design the priming circuit and trial shoteest are discussed here.
文章介绍钦州中山码头港池疏浚工程水下炸礁爆破设计及施工情况 ,着重论述了在特定复杂环境下 ,水下炸礁安全爆破方案选择 ,钻爆参数确定 ,起爆网路等设计以及试验爆破测试 ,进而对爆破效果进行总结和评价。
3.
The reliability of nonel priming circuit used in cutting blasting is analyzed and calculated.
对路堑爆破中应用的一种非电导爆管起爆网路进行分析研究和可靠度计算,并在此基础上对该起爆网路进行改进,设计出可靠度更高的同排(层)炮孔网格式闭合起爆网路。
3) initiation network
起爆网路
1.
The new type T linking block of Nonel tube is mainly used in initiation network composed of detonating cord and nonel tube detonators.
新型导爆管 T型联接卡主要应用于导爆索与导爆管雷管混合起爆网路。
2.
The reasonable blasting height,blasting parameters,and united initiation network of fuse and non-electric were designed in the demolition so as to reach an ideal blasting effect.
通过计算设计了合理的炸高和爆破参数,根据周围环境条件选用了导爆索和导爆管联合起爆网路,爆破拆除达到预想的效果。
3.
In order to prevent the demolition duty defeat caused by the explosive initiation network expired,we used nonel detonator parallel fuses in hole.
因炮孔总数高达53 000个,为防止因起爆网路失效而导致爆破任务失败,根据现场实际情况采用了孔内导爆管雷管簇并联,每层楼由四通联成2个多通路闭合网路,层间8通路的自下而上顺序0。
4) detonating network
起爆网路
1.
Through 35 comparison blasting test for optimizing the blasting parameters and detonating network,the blasting parameters and detonating network suitable for various rock of Dadoushan openair stope have been optimized progressively,better results of the main blasting technical indexes and the blasting materials consumption have been obtained.
笔者通过近几年35次爆破参数及起爆网路优化对比试验,逐步优化了适合大陡山露天采场矿岩性质的各种爆破参数及起爆网路,主要爆破技术指标和爆破器材消耗均取得了较好效果。
2.
The blasting parameters and detonating network of deep-hole controlled blasting in sea were introduced.
对一个海上水下深孔爆破实例的爆破参数、起爆网路进行了介绍,通过爆破振动、水击波观测,爆破没有对周围环境造成任何影响,爆破块度达到预期效果。
6) blasting network
起爆网路
1.
The blasting parameters and blasting network and its implementation were elaborately designed.
根据待拆除砖结构楼房的结构特点和周围环境 ,设计采用基本原地倒塌稍向前倾的爆破方案 ,通过对爆破参数、起爆网路、安全防护等进行精心设计和施工 ,拆除爆破达到了预期的效果。
补充资料:2,2-双氯甲基-三亚甲基-双[双(2-氯乙基)磷酸脂]
CAS:38051-10-4
分子式:C13H24Cl6O8P2
中文名称:2,2-双氯甲基-三亚甲基-双[双(2-氯乙基)磷酸脂]
英文名称:2,2- bis(chloromethyl)-trimethylene bis[bis(2-chloroethyl)phosphate]
phosphoric acid, 2,2-bis(chloromethyl)-1,3-propanediyl tetrakis(2-chloroethyl)
2,2-bis(chloromethyl)trimethylene bis(bis(2-chloroethyl)phosphate)
2,2-bis(chloromethyl)-1,3-propanediyltetrakis(2-chloroethyl)phosphate
分子式:C13H24Cl6O8P2
中文名称:2,2-双氯甲基-三亚甲基-双[双(2-氯乙基)磷酸脂]
英文名称:2,2- bis(chloromethyl)-trimethylene bis[bis(2-chloroethyl)phosphate]
phosphoric acid, 2,2-bis(chloromethyl)-1,3-propanediyl tetrakis(2-chloroethyl)
2,2-bis(chloromethyl)trimethylene bis(bis(2-chloroethyl)phosphate)
2,2-bis(chloromethyl)-1,3-propanediyltetrakis(2-chloroethyl)phosphate
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条