深孔爆破法 的英文怎麼說

中文拼音 [shēnkǒngbào]
深孔爆破法 英文
long-hole method
  • : Ⅰ形容詞1 (從上到下或從外到里的距離大) deep 2 (深奧) difficult; profound 3 (深刻; 深入) thor...
  • : 動詞1. (猛然破裂或迸出) explode; burst 2. (放在滾油里快炒) quick-fry
  • : Ⅰ動詞1 (完整的東西受到損傷) be broken; be damaged 2 (使損壞) break; break down; damage 3 (使...
  • : Ⅰ名詞1 (由國家制定或認可的行為規則的總稱) law 2 (方法; 方式) way; method; mode; means 3 (標...
  • 爆破 : blow up; blast; burst; demolish (by explosives); detonate; explode; dynamite
  1. The method of strengthening the charging at the bottom of the blasting - hole is usually described in traditional teaching - books and blasting engineering, which is used to overcome resistance at the bottom

    傳統的教科書和工程中通常是採取底超加強裝藥或底部採用猛炸藥的方,用以克服底部阻力,消除根底。
  2. In order to break through the traditional technology and the conception of equipment design, suggest to use bunchy phase deep hole or big diameter deep hole in laneway to realize the exploding of high step on opencast working ; digging with big contain forklift to realize the continuous transportation of dragline - mobile convolution crusher - belt transportation machine, therefore form a new technology system that be propitious to increase collectivity technique and economic benefit

    為突基於常規工藝和設備配套的設計理念,推薦採用束狀階段或在巷道中採用大直徑的方實現露天開採的高臺階穿作業;採用大斗容索鏟下挖作業實現自工作面開始的索斗鏟移動式旋迴碎機帶式輸送機的連續運輸工藝,從而形成有利於提高露天開采設計總體技術經濟效果的新的工藝技術系統。
  3. The influence of specific charge, hole arrangement, charge structure, stem length, millisecond interval and ignition mode on the yield of the blasted boulder is analyzed some measures to lower boulder yield in deep hole blasting of underground mine are presented through the optimization of blasting operation parameters as follows : lowering deep hole blasting effect of geology structure, rationally determining specific charge, using technique of wide - space small burden blasting, technique of manifold charge structure and technique of millisecond compression blasting, strengthening the management of boring construction and blasting construction

    該優化技術措施主要有:減少地質構造對落礦的影響,合理確定炸藥單耗的方,使用大距小抵抗線落礦技術,採用多種裝藥結構技術,採用多排微差起技術,加強的施工管理和加強施工的現場管理。
  4. Abstract to evaluate the effect of the deep hole blast on the villages 200 m away from malanzhuang iron mine, the observation of the blast vibration in malanzhuang iron mine was made , the propagation law of the blast - caused seismic wave, the seismic wave superimposition of short - delay blasting and the affect of blast vibration on the residents psychology are analyzed. the method and measures for reducing the blast vibration are suggested

    為評價馬蘭莊鐵礦對采場200m外村莊的影響,對馬蘭莊鐵礦震動進行了觀測,分析了地震波傳播規律,微差地震波疊加情況及震動對居民心理的影響等,提出了減少震動的方和措施。
  5. The main factors have been determined to be the depth and width of hole, the strength of surrounding rock, the types of detonator, the decoupling coefficient, burden and unit consumption form what has been discussed, the author make use of those major factors as standard of affection and studied bp neural networks " work principle, structure and defectiveness. a model of modified bp neural networks has been used to built model in order to identify selection and optimize of blasting in rock anchor beam. triumphant parameter design of blasting were selected as a example, in order to perform network of parameter design

    確定以炸藥類型、最小抵抗線、、炮眼間距、不耦合系數、線裝藥量、巖石強度和巖體完整度為主要影響因素;把改進的bp演算應用在參數優化設計中,建立以炸藥類型、最小抵抗線、炮度、炮眼間距、線裝藥量、不耦合系數、巖石強度和巖體完整度為主要影響指標,選擇45例國內外成功的參數設計實例為樣本,利用bp神經網路進行參數優化設計,並通過現場保護層和巖臺修面試驗以及對其松動圈范圍進行聲波測試,其測試結果最優的方案其松動圈最小,這與神經網路進行參數優化設計的方案相吻合。
  6. Through analyzing a lot of tested data of seismic waves from deep - hole blastings at a different angle, the changing rules and influence factors of such main parameters as frequency, amplitude and lasting - time of blasting seismic waves propagating in a rock medium are obtained, and the empiral formulas for calculating the amplitude of blasting seismic wave acceleration are fitted out by binary regression

    通過從不同角度對大量的地震動測試數據的分析,得到了巖石中地震波傳播的頻率、幅值和持續時間等主要參數的變化規律以及它們的影響因素,並通過二元回歸,擬合出計算地震波加速度幅值的經驗公式。
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