水(shui)壓(ya)光面(mian)(mian)爆(bao)(bao)破(po)(po)(po)較水(shui)壓(ya)光面(mian)(mian)爆(bao)(bao)破(po)(po)(po),在周(zhou)(zhou)邊(bian)(bian)眼單循環(huan)(huan)火工品使(shi)用(yong)(yong)量(liang)上節(jie)(jie)(jie)約(yue)(yue)費用(yong)(yong)8.3%,周(zhou)(zhou)邊(bian)(bian)眼鉆孔數(shu)量(liang)從39個下(xia)降為23個費用(yong)(yong)節(jie)(jie)(jie)約(yue)(yue)41%,混凝土噴射每(mei)延米節(jie)(jie)(jie)約(yue)(yue)1.37立方米。水(shui)壓(ya)光面(mian)(mian)爆(bao)(bao)破(po)(po)(po)比水(shui)壓(ya)光面(mian)(mian)爆(bao)(bao)破(po)(po)(po)每(mei)循環(huan)(huan)節(jie)(jie)(jie)約(yue)(yue)費用(yong)(yong)258.4元,即(ji)每(mei)延米節(jie)(jie)(jie)約(yue)(yue)76較元,節(jie)(jie)(jie)約(yue)(yue)費用(yong)(yong)比例達32%。此(ci)外(wai),聚能管(guan)(guan)水(shui)壓(ya)光面(mian)(mian)爆(bao)(bao)破(po)(po)(po)能有(you)(you)效降低(di)隧道內石渣塊度(du)和粉塵含量(liang),還可使(shi)通風時間(jian)有(you)(you)效縮短33%。聚能管(guan)(guan)光面(mian)(mian)爆(bao)(bao)破(po)(po)(po)工藝(yi)技(ji)(ji)術很(hen)成熟(shu)、可操作性(xing)很(hen)強、材料成本很(hen)低(di)、施工速度(du)很(hen)快(kuai)、節(jie)(jie)(jie)能環(huan)(huan)保效果(guo)很(hen)顯著、經(jing)濟效益(yi)社會效益(yi)很(hen)高。聚能管(guan)(guan)定(ding)向(xiang)爆(bao)(bao)破(po)(po)(po)技(ji)(ji)術是(shi)近幾年發(fa)展起(qi)來(lai)的一(yi)項掘進新技(ji)(ji)術,這種(zhong)爆(bao)(bao)破(po)(po)(po)技(ji)(ji)術與傳統(tong)的光面(mian)(mian)爆(bao)(bao)破(po)(po)(po)技(ji)(ji)術有(you)(you)一(yi)����定(ding)的差別(bie),聚能管(guan)(guan)定(ding)向(xiang)爆(bao)(bao)破(po)(po)(po)原(yuan)理(li)是(shi)在巷道周(zhou)(zhou)邊(bian)(bian)眼中(zhong),將炸裝在聚能管(guan)(guan)中(zhong)起(qi)爆(bao)(bao),爆(bao)(bao)破(po)(po)(po)時利用(yong)(yong)聚能管(guan)(guan)的聚能作用(yong)(yong),以減少裂隙的數(shu)量(liang)和控制優勢裂隙的發(fa)展方向(xiang)。
給大家介紹(shao)下爆(bao)破聚能(neng)(neng)管(guan)的(de)技術(shu)原理∶炸藥爆(bao)炸產(chan)生(sheng)的(de)爆(bao)轟(hong)波通(tong)過聚能(neng)(neng)管(guan)的(de)聚能(neng)(neng)槽,將炸藥的(de)動(dong)能(neng)(neng)、勢能(neng)(neng)轉換成(cheng)高(gao)壓(ya)、高(gao)速、高(gao)能(neng)(neng)的(de)射流,切割演示成(cheng������)縫(feng)。射流在孔壁產(chan)生(sheng)射流壓(ya)力(li)達7000MPa,巖(yan)石(shi)動(dong)載抗(kang)(kang)壓(ya)強(qiang)度(du)為(wei)200MPa,抗(kang)(kang)拉為(wei)1/8~1/10的(de)抗(kang)(kang)壓(ya)強(qiang)度(du),相鄰兩炮(pao)孔互為(wei)鄰空面(mian),疊加后(hou)的(de)壓(ya)縮波變為(wei)稀疏波,在兩炮(pao)眼連(lian)線上使(shi)巖(yan)石(shi)結構斷裂(lie),形成(cheng)裂(lie)紋。準靜態氣(qi)體膨脹(zhang),靜態壓(ya)力(li)在兩炮(pao)孔最短連(lian)線兩側產(chan)生(sheng)拉力(li)使(shi)巖(yan)石(shi)裂(lie)縫(feng)進一步擴展。根據爆(bao)破應(ying)力(li)集中氣(qi)刃作用原則,爆(bao)破氣(qi�������)體沿裂(lie)縫(feng)進一步擴大貫通(tong),拋落巖(yan)石(shi)。
預(yu)裂(lie)與(yu)光(guang)面(mian)(mian)爆(bao)(bao)(bao)(bao)(bao)(bao)破(po)(po)(po)(po)技術的歷(li)史與(yu)現狀(zhuang):預(yu)裂(lie)爆(bao)(bao)(bao)(bao)(bao)(bao)破(po)(po)(po)(po)是(shi)沿設(she)計開(kai)挖(wa)邊(bian)界(jie)(jie)布置密集(ji)(ji)炮孔,采取不耦合裝藥(yao)或裝填(tian)低威力炸(zha)藥(yao),在(zai)主爆(bao)(bao)(bao)(bao)(bao)(bao)區之(zhi)前起爆(bao)(bao)(bao)(bao)(bao)(bao),從而在(zai)爆(bao)(bao)(bao)(bao)(bao)(bao)區與(yu)保留(liu)區之(zhi)間(jian)形(xing)(xing)成(cheng)預(yu)裂(lie)縫,以減弱(ruo)主爆(bao)(bao)(bao)(bao)(bao)(bao)破(po)(po)(po)(po)對保留(liu)巖(yan)體的破(po)(po)(po)(po)壞并(bing)形(xing)(xing)成(cheng)平(ping)整輪(lun)廓面(mian)(mian)的爆(bao)(bao)(bao)(bao)(bao)(bao)破(po)(po)(po)(po)作業(ye)。光(guang)面(mian)(mian)爆(bao)(bao)(bao)(bao)(bao)(bao)破(po)(po)(po)(po)是(shi)沿設(she)計開(kai)挖(wa)邊(bian)界(jie)(jie)布設(she)密集(ji)(ji)炮孔,采用不耦合裝藥(yao)或裝填(tian)低威力炸(zha)藥(yao),在(zai)主爆(bao)(bao)(bao)(bao)(bao)(bao)區爆(bao)(bao)(bao)(bao)(bao)(bao)破(po)(po)(po)(po)之(zhi)后(hou)起爆(bao)(bao)(bao)(bao)(bao)(bao)的以形(xing)(xing)成(cheng)平(ping)整的開(kai)挖(wa)輪(lun)廓面(mian)(mian)的爆(bao)(bao)(bao)(bao)(bao)(bao)破(po)(po)(po)(po)作業(ye)。爆(bao)(bao)(bao)(bao)(bao)(bao)破(po)(po)(po)(po)技術的發展(zhan)是(shi)先(xian)出現光(guang)面(mian)(mian)爆(bao)(bao)(bao)(bao)(bao)(bao)破(po)(po)(po)(po),然后(hou)衍生發展(zhan)為預(yu)裂(lie)爆(bao)(bao)(bao)(bao)(bao)(bao)破(po)(po)(po)(po)。聚能(neng)管(guan)國內歷(li)史與(yu)現狀(zhuang),我國于1964~1965年(nian)在(zai)湖(hu)北陸水(shui)水(shui)電站施(shi)工中做過淺孔預(yu)裂(lie)爆(bao)(bao)(bao)(bao)(bao)(bao)破(po)(po)(po)(po)試驗,1965年(nian)鐵(tie)道部門在(zai)成(cheng)昆鐵(tie)路建設(she)中開(kai)始試驗光(guang)面(mian)(mian)爆(bao)(bao)(bao)(bao)(bao)(bao)破(po)(po)(po)(po),1977年(nian)在(zai)西延線張家船工點(dian),全(quan)長近200m的2000m2路塹邊(bian)坡(po)全(quan)部采用光(guang)面(mian)(mian)爆(bao)(bao)(bao)(bao)(bao)(bao)破(po)(po)(p�����o)(po),爆(bao)(bao)(bao)(bao)(bao)(bao)破(po)(po)(po)(po)后(hou)邊(bian)坡(po)平(ping)整穩定,殘(can)留(liu)的半(ban)孔清(qing)晰可見,是(shi)鐵(tie)路建設(she)中采用路塹光(guang)面(mian)(mian)爆(bao)(bao)(bao)(bao)(bao)(bao)破(po)(po)(po)(po)。
我國于1983年制定了《水工建筑物巖行基礎開挖工程施工技術規范》(sD 121l一1983)。自此,o型聚能管公司在水利水電建設中預裂爆破與光面爆破已成為必須進行的保護邊坡質量的爆破開挖技術措施。此后在此基礎上修訂的《水工建筑物巖石基礎開挖工程施工技術規范》(SL 47一1994)以及在《水電水利爆破工程施工技術規范》(DL/T 5135—2001)和《水工建筑物巖石基礎開挖工程施工技術規范》(DL/T 5389~2007)中預裂爆破與光面爆破均被編入并有所改進,DL/T 5135—2001正在修編為DL/T 5135—2012。鐵道部也不僅規定了凡是Ⅲ級以上的巖石邊坡,設計邊坡坡度為1:0.1~1:0.75,專用o型聚能管在邊坡部位的(de)爆破(po)設(she)計和(he)施(shi)(shi)工(gong)都應采用光(guang)面爆破(po)或預裂爆破(po),并闡述了(le)光(guang)面(預裂)爆破(po)施(shi)(shi)工(gong)技(ji)術(shu)設(she)計的(de)原則和(he)參數(shu)、安全措(cuo)施(shi)(shi),而且還明確了(le)路(lu)������塹邊坡光(guang)面(預裂)爆破(po)項目質量(liang)驗收檢(jian)測(ce)數(shu)量(liang)和(he)檢(jian)測(ce)方法。無疑該規程的(de)實(shi)施(shi)(shi),有(you)力地推動和(he)促進了(le)光(guang)面(預裂)爆破(po)技(ji)術(shu)在鐵路(lu)建設(she)中的(de)應用�������與發(fa)展(zhan)。
