• 터널과지하공간
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• 제6권1호
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• pp.39-47
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• 1996

The results of the regression analysis and comparative study between 120 vibration events by dynamite blasting and 68 vibration events by finecker blasting which were monitored in the test blasting are as follows: The ground vibration velocity of dynamite blasting of 0.12 kg charge weight per delay at 7.4 m above the explosive is higher than that of finecker blasting of 0.96 kg charge weight per delay. In the case of 0.12 kg charge weight per delay, the ground vibration velocity of finecker blasting is equal to 5.5% of that of dynamite blasting at the 10 m distance from explosive. The decrement of ground vibration velocity of dynamite blasting of above 0.12 kg charge weight per delay is larger than that of finecker blasting of below 0.96 kg charge weight per delay. The rate of ground vibration velocity of the finecker blasting to that of dynamite blasting decreases with the distance from explosives, but increases with the decrease of charge weight per delay. The increment of ground vibration velocity of finecker blasting is less than that of dynamite blasting with the increase of charge weight per delay at the same distance from explosives. Under the condition of the constant critical ground vibration velocity or use the same charge weight per delay, the blasting working by finecker rather than by dynamite is able to be performed at the nearer place to structures.

• 기술사
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• 제13권2호
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• pp.21-23
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• 1980

Gunpowder was invented as a result of discovering the fact that potassium nitrate acts as an oxygen carrier in the process of manufacturing traditional medicine by heating the mixture of potassium nitrate and sulfur. Rapid progress was made in dynamite manufactring technology as a result of development of basic chemistry in Europe. However, recently the demand for dynamite has decreased in favor of the ANFO explosive which is improved production technology. This study was attempted to clear the historical facts concerned with the developing process of European eaplosive technology, and intended to submitt the reference materials for researchers.

• 산업기술연구
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• 제5권
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• pp.9-14
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• 1985

The blast-induced ground vibrations is one of the most important factors which is considered to design blasting patterns in urban excavation. To compare with vibration level of different explosives, peak particle velocity of each explosive was measured. The results are summerized as follows. 1. Among the three kinds of explosives, the largest vibration was obtained from the gelatine dynamite, while the smallest was blasting of ammonium nitrate. 2. The vibration levels of ammonium nitrate and slurry explosive were smaller about 35%, 20% respectively than that of gelatine dynamite.

• 한국토양비료학회지
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• 제11권2호
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• pp.61-66
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• 1979

토양(土壤)의 물리성(物理性)이 심근성작물(深根性作物) 재배(栽培)에 극(極)히 불량(不良)한 토양(土壤)의 물리성(物理性)을 개량(改良)하여 우량과원(優良果園)으로 조성(造成)할 수 있는 손쉽고도 경제적(經濟的)인 방법(方法)을 찾기 위하여 저구릉지(低丘陵地)에 많이 분포(分布)되어 있는 전남식양토(全南埴壤土)에 대하여 1m 깊이에서 폭파처리하여 토양물리(土壤物理) 성화(性化)를 조사(調査)한 결과(結果)를 요약(要約)하면 아래와 같다. 1. 무처리구의 물리성(物理性)은 가비중(假比重), 경도(硬度)가 과도(過度)하게 크고 공극률(孔隙率) 및 기상이 근신장(根伸張)에 상당한 저해를 줄 정도로 낮았다. 이런 현상(現象)은 표토(表土)보다 심토(深土)에서 더욱 심(甚)하였다. 2. 화약폭파는 토양(土壤)을 파쇄시키고 균열을 만들어 줌으로서 가비중(假比重)과 경도(硬度)를 낮추고 공극량(孔隙量) 특히 대공극(大孔隙)을 늘려주는 효과가 크다고 인정(認定)되었다. 3. 물리성(物理性)을 적정수준(適正水準)으로 개량(改良)하는 효과범위는 폭약 두개를 사용(使用)한 경우 60cm 깊이에서 1m 반경이고 80cm 깊이에서는 30cm 반경이었다. 그러나 폭약 3개를 사용(使用)할 경우는 80cm 깊이에서도 1m 반경까지도 적정수준(適正水準)으로 물리성(物理性)이 개량(改良)되었다. 4. 파쇄 및 균열된 정도는 두개 사용시(使用時)는 불균일(不均一) 하였으나 3개 사용시(使用時)는 효과범위내에서 균일(均一)한 물리성(物理性) 분포(分布)를 나타내어 더욱 효과적이라고 볼 수 있다. 5. 폭약 2개를 사용(使用)하였을 경우 폭속(爆速)이 4,000m/sec, 폭발위력(爆發威力)이 50%인 초안폭약의 효과가 폭속(爆速)과 위력(威力)이 각각 5,000m/sec, 60%인 Gelatin 폭약보다 좋은 효과를 나타내었다.

• 화약ㆍ발파
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• 제23권3호
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• pp.57-74
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• 2005

옛날에는 거대한 바위를 제거하기 위해서는 다이나마이트 등의 폭약을 사용하여 폭파개념의 발파를 해왔다. 그러나 도심지에서 지하철굴착, 건물기초굴착, 택지조성 등을 위해서는 폭파개념의 굴착은 곤란하다. 건설교통부 암발파설계 및 시험발파 잠정지침(안)에서는 0.3cm/sec(센티세크)를 진동안전기준치로 하였을 때 $25\~120m$ 이격거리에서는 TYPE I의 암파쇄굴착공법에서 TYPE IV의 진동제어중규모 발파공법을 권장하고 있다. 본 논문은 25m이내 지역의 최근접 암파쇄굴착공법(TYPE I)적용 최적공법인 나노프라즈마 공법을 소개하고자 한다. 나노프라즈마 공법을 적용하여 도심지 바위를 파쇄할 때 15m거리에서 기존의 미진동발파공법의 절반 진동수준인 0.1cm/sec가 예상되는 획기적인 공법이다.

• 화약ㆍ발파
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• 제23권1호
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• pp.55-64
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• 2005

근래 건설$\cdot$토목 현장에서는 인가절감 덴 안전사고를 방지하기 위하여 보다 안전하고 저렴한 폭약인 Emulsion 폭약이 기존의 CD계열의 폭약을 상당부분 대체해 가고 있는 실정이다. 그러나 현실적으로 경암 이상의 암반에 건설되는 터널에서는 Emulsion폭약 적용시 발파위력 면에서 그 한계에 봉착하고 있다. 따라서 본 연구에서는 고성능 Emulsion 폭약인 MegaMEX를 국내 경암 이상의 암반에 적용하여 발파효율 및 시공성 등을 검증해 보고자 하였다. 적용결과 굴진율, 파쇄도 등 발파효율 면에서 기존 Emulsion 폭약의 한계를 뛰어넘어, GD(Gelatin dynamite)계 열의 폭약인 MegaMITE와 근접한 수준의 발파효율을 나타내었으며, 환경적인 측면에서도 유리한 것으로 나타났다.

• 기술사
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• 제15권2호
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• pp.3-15
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• 1982

The study on prevention measures for vibration and excavation of tunnel for the #3, #4, Seoul Subway. In the Seoul subway tunnel blasting, the drilling pattern and prevention method to seismic vibration are as follows as well as for adaptions of NATM, the supportings of roof and wall holes are arranged with control blasting. 1. The blasting is executed basically using the low velocity explosive such as slurry, Nitrate ammonium explosive, and F-I and F-II explosive for control blasting substituting of existing dynamite. 2. The cut holes are arranged with burn cut pattern and also must be arranged with M/S electrical delay caps substituting of ordinary do]ay caps. 3. Jack leg drills are used in Five Job sites and a jumbo drill in one job site. 4. In performance of safety work and in maintenance of building safety. The drilling length for blasting will not exceed 1.20 meter for round so that the vibration value shall carry below 0.3cm/sec. The harmonizing of better powder, better drilling machine and better technique is only the way of improving tunnelling efficiency and less vibration will help the dereasing of accidence.

• 한국군사과학기술학회지
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• 제15권5호
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• pp.712-719
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• 2012

Penetrator with enhanced lateral effect(PELE) is a newconcept projectile, without dynamite and fuze. It consists of high-density jacket, closed at its rear end and filled with a low-density filling material. To study the explosion characteristics of PELE, by AUTODYN-3D code, the calculation models of projectile body and bullet target are established and the process of penetrating aluminum-2024 alloy target of PELE is simulated, and the scattering characteristics after penetrating aluminum-2024 alloy target of PELE are studied by different initial velocity. The explicit finite element analysis of PELE fragmentation was implemented with stochastic failure criterion in AUTODYN-3D code. As expansion of filling, the fragments were obtained velocities and dispersed laterally and further more enhancing the damage area largely. The number and shape of the PELE fragments were different depend on impact velocity and incidence angle of filling which fragment generated during penetration and lateral dispersion process.

• 화약ㆍ발파
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• 제22권1호
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• pp.1-4
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• 2004

우리나라에서 전통적으로 사용해 왔던 제2세대의 젤라틴 다이너마이트 폭약은 경제구조와 안전의식 및 생활환경의 급변으로 제5세대의 에멀젼폭약으로 급변, 대체되고 있다. 이제 대량생산 및 발파기술의 도입으로 벌크에멀젼폭약의 상용화가 눈앞에 다가왔다. 그러나 에멀젼 폭약 제조기술의 중요한 요소인 계면활성제에 대한 연구발표가 부족하고 특히 그라스마이크로볼륨(GMB)의 사용기술은 전무한 실정이다. 실험실연구를 통하여 에멀젼 폭약 제조시 최적의 계면활성제를 알고 그의 효율적 사용법(최적반응온도 변화도)과 GMB의 혼합적정온도와 시점을 연구하여 제조공정에서의 경제성과 안전성을 향상시켰다.

• 기술사
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• 제14권3호
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• pp.9-21
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• 1981

The rationalization for Tunnel Drifting is based on the high productivity which is achievable due to Continuous work with a Jumbo Drill, resulting in a much higher efficiency them the Conventional method of blasting, mucking and supporting services. Large projects of over 4,000m Tunnel Drifting are condidated to justify the use of a Jumbo Drill with a combination of superior explosives, machinery and techniques. During a Tunnel Drifting test, Gulita, Nabit and slurry made by Nitro Nobel were employed with following results. 1, Conditions: a. Granite Rock with Two free face b. Burden (W), 2m c. Diameter of hole, 42mm d. Depth of hole 3.5m e. Hole pitch 0.6m f. Charged Explosive per hole Gelatin Dynamite 4 pieces (112.5${\times}$4ea)+Guuita 5 pieces(110g${\times}$5ea) g. Simal-taneous Detonation h. After the blasting resultant rock size was Less 40% of the 0.3m Lumps. 2. Calculation results W=q/Wn=100cm‥‥‥Burden in simultaneous blasting 0.865kg(7.7ea)/hole ‥‥‥Amount of charge but hole pitch is 1.5W-2W The estimated cost of using a Jumbo Drill for the Construction of a 3,000,000 bbL sub-surface oil storage would be as follows: This calculation is based on the Jumbo Drill advancing 3.6m per blasting cycle. Unit cost/bbL Excavation $3.13 The attached sheet shows ideal Drilling pattern with Burn Cut & Smooth blasting method. In conclusion, it is my opinion that this method will assure safety and save cost and improve our technical know-how.