• Title/Summary/Keyword: detonator volume

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A Study on the Estimation of Total Amounts of Blasted Rock by Detonator Volume used in the Blasting (뇌관당 파쇄암량을 고려한 발파작업수량 산정 연구)

  • 김민규;안명석
    • Explosives and Blasting
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    • v.21 no.1
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    • pp.41-47
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    • 2003
  • A large scale blasting is necessary for the construction or road, harbor or ground foundation of building and it is common that the blasting work is performed by a specialist subcontracted from the construction company who is originally responsible for the project. Sometimes the latter do not agree with the former in total amount of blasted rock. They try to find out real work amount as precisely as possible. The estimation is sometimes carried out by an entrusted person when it is impossible to come to an agreement with each other. There are several methods in estimating the blasted rock volume; a calculation by prescribed equivalents of explosive before construction, a calculation by specific charge per unit volume of rock, and a calculation by rock volume per detonator. In this study, the last method is reviewed and recommended as most reliable one.

A Case Study on Multiple-deck-charge Blasting with Electronic Detonators (전자뇌관과 다단장약을 이용한 발파 사례 연구)

  • Ko, Tae Young;Shin, Chang Oh;Lee, Hyo;Lee, Seung Cheol
    • Explosives and Blasting
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    • v.30 no.2
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    • pp.52-58
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    • 2012
  • A TBM launching shaft in DTL2 Contract 915 site is located in a typical hard Bukit Timah granite formation and lots of blasting work is required for shaft sinking. The original blast design used the electric detonator and ANFO blasts consisting of 30 holes per one blast with 1.5 m depth of drilling hole. However, significant delay of work and poor progress were expected due to the limitation of the number of blasting hole and strict vibration regulation on retaining systems. To overcome such constraints, an efficient new blasting method which can improve productivity and satisfy vibration limit was required. The revised blast design, using triple-deck blasts with electronic detonators and cartridge emulsion explosives, gives better construction performance and can reduce construction time. Such a new blasting technique can be effectively used for similar underground projects in the future where the volume of rock blasting is significant.

Proposal of Vertical Direction Deck Delay Time for Efficient Formation of Free Surface of Bottom Deck (효율적 하부데크의 자유면 형성을 위한 수직방향 데크 단차 제안)

  • Seung-Won Jung;Seung-Joong Lee;Jin-Hyuk Song;Young-Ho Kim;Young-Suk Song;Nam-Sun Hwang
    • Explosives and Blasting
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    • v.41 no.4
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    • pp.41-50
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    • 2023
  • This study, a vertical double-deck method using an electronic detonator was applied to increase excavation volume and reduce blast pollution. In the double deck method, there is a possibility that blasting efficiency may be reduced if bottom deck blasting is carried out without the free surface being completely formed after upper deck blasting. And for this reason, the blasting efficiency of the double deck method varies depending on the deck delay time. Therefore, in this study, we proposed four deck delay times applying 1 to 5 times the hole delay time. And blasting efficiency was evaluated according to fragmentation analysis. As a result of the fragmentation evaluation, the fragmentation of pattern 4 (deck delay time = hole delay time×5) was the best, but it was confirmed that fragmentation efficiency increased significantly from pattern 3 (deck delay time = hole delay time×3). Accordingly, it is analyzed that when blasting a vertical double deck, the deck delay time must be at least three times the hole delay time to obtain an efficient blasting effect.

Miniaturized Setback Generators Using Ring-Shaped Magnet for Power Supply of Small-Caliber Electronic Fuze (원환형 영구자석을 이용한 관성력 발전장치 소형화 설계)

  • Yoon, Sang-Hee
    • Journal of the Korea Institute of Military Science and Technology
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    • v.8 no.2 s.21
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    • pp.58-66
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    • 2005
  • This paper presents miniaturized setback generators based on the conversion of mechanical energy into electrical energy for military applications, especially power supply for electronic fuzes. In order to minimize the volume of setback generators, a ring-shaped magnet enclosing a coil assembly is adopted. A mechanical safety system, shear plate, is used as a release mechanism of the setback generators to prevent the generators from operating accidentally. The setback generators are intended not to ignite an electrical detonator but to charge a capacitor which is capable of driving electronic circuit of fuze. We design the setback generators using the simulation results of an electromagnetic analysis tool, $Maxwell^{(R)}$ 2D. In experimental study, we perform safety tests of the shear plate and firing tests of the fabricated setback generators. The present setback generators show that the voltage of 14.2V is charged at the capacitor of $30{\mu}F$ within the charging time of 0.68msec and the critical acceleration for safety is 5,000G, thus verifying that the setback generators with a ring-shaped permanent magnet can be applicable to the power supply of small-caliber electronic fuze.

Tunnel Cost Estimating Model Based on Standard Section and Cost Variance Index (I) - Analysis Of Critical Cost Factors - (표준단면을 이용한 터널 공사비 예측모델 개발 (I) - 공사비 영향요인 분석 -)

  • Cho, Jeongyeon;Kim, Kyong Ju;Kim, Kyoungmin;Kim, Sang Kwi
    • KSCE Journal of Civil and Environmental Engineering Research
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    • v.28 no.5D
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    • pp.665-675
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    • 2008
  • The objective of this paper is to provide an approximate cost estimating model for tunnel that can be utilized both in quick construction cost estimating for design alternatives, and in evaluating efficiently the cost effects according to the environmental changes during design and construction stage. To meet this requirement, this study analyzes critical cost factors influencing tunnel construction costs. The cost factors include 7 elements such as rock drilling method, advancing method, type of detonator, loader capacity, unit weight and soil volume change factor, length of tunnel. This paper investigates the cost variance according to the change of the cost factors. The result is expected to be used in formulating approximate tunnel cost estimating model.