無震區 的英文怎麼說
中文拼音 [wúzhènqū]
無震區
英文
aseismatic region-
Winter or summer, you will be amazed at this region ' s foaming waterfalls and stunning fjord scenery
無論是在?天還是在夏天,你都會被這一地區泡沫橫飛的瀑布和驚人的峽灣風光所震撼。Occurrences of silent earthquakes are also being reported in areas where flank failure is not an issue
在一些未有邊坡崩坍問題的地區,也有無聲地震的發生。Nine days before the most recent silent earthquake on kilauea, a torrential rainstorm dropped nearly a meter of water on the volcano in less than 36 hours
就在奇勞亞火山最近一次發生無聲地震的九天前,一陣猛烈的暴風雨在36小時之內讓火山地區累積了將近一公尺的雨量。Since last week the situation has become more desperate because of an earthquake on thursday that has left thousands homeless in subzero temperatures and has killed more than 5, 000 persons. the earthquake area is neighboring the famine area
上個禮拜,由於星期四地震的關系,阿富汗的情況變得更糟,震區有五千多人死亡,成千成萬的人在零度以下的低溫無家可歸,地震災區和饑荒地區相鄰。This article provides the reference for the application of partially prestressed concrete frames with unbonded tendons in earthquake area
本文的研究為無粘結部分預應力混凝土框架在地震設防區域的應用提供參考。In earthquake area, many engineers used concrete structure with unbonded tendons. but people still has lots of different opinions about its seismic behaviors
無粘結預應力混凝土結構在地震設防區域的應用越來越廣泛,但對其抗震性能的認識存在較大的分歧。The basic technologic scheme on microwave transmission, currently maturate and advanced microwave transfer technology and equipment, efficiency slot gap antenna, character quality filter, mixer, exact crystalloid concussion apparatus, power backspacing technology, pre - distortion adjustment. furthermore, the technologic schemes practicing using multilevel microwave transfer technology in some areas such as lengshuijiang is introduced in the paper
採用了當前比較成熟、先進的微波傳輸技術和設備,如高效的縫隙天線、高品質濾波器、混合器、高精密的晶體震蕩器、功率回退技術、預失真校正技術,結合工程實際,設計了湖南電廣網路33家合資公司的mmds無線微波數字電視覆蓋的基本技術方案,和個別地區(冷水江市數字微波工程)的多級微波傳輸的具體技術方案。Present methods generally based on the statistics of earthquake damage, expert experiences, theory analysis and experimental researches have obvious advantages, disadvantages and certain scopes of application ; ( 2 ) different prediction methods should be adopted against different building conditions, sites, intensity and experiences etc to predict earthquake damage of buildings for prospective accuracy, dependability and availability ; ( 3 ) earthquake damage matrix, which is the foundation of earthquake damage prediction, of 7 kinds of building in the urban areas of zhangzhou city under intensity 6 to 9 has been set up. the damage conditions of different buildings under different intensity are as followings : all kinds of structures are basically intact under intensity 6 ; the reinforced concrete structures are basically intact under intensity 7, but other kinds of structures are destroyed slightly ; the reinforced concrete structures are still basically intact while other kinds of structures are destroyed intermediately under intensity 8 ; the reinforced concrete structures are destroyed slightly, single - story factories and open houses are destroyed intermediately and other kinds of structures are destroyed seriously under intensity 9 ; ( 4 ) the results of earthquake damage predicting of buildings embody the damage when earthquake happens in the future. thus, further identifications and reinforcements should be considered to buildings that will be destroyed intermediately or more under the earthquake with 10 % exceeding probability in future 50 years ; ( 5 ) the direct economic losses caused by damage of buildings resting with the area, structural type, intensity and damage of all kinds of buildings are the main part of the losses of the city in an earthquake ; ( 6 ) the direct economic losses increased progressively toward high intensity by 2 or 3 times
基於上述研究,得出的主要結論有:建築物震害預測是一個模糊的、系統的、復雜的問題,現有的方法很多一般都是以震害統計規律、專家經驗、理論分析和試驗研究為依據,有其自身的優缺點和一定的適用范圍;應針對不同的建築物條件、場地條件、地震強度和已有經驗等,採用不同的預測方法進行建築物震害預測,以使預測結果達到預期的精確性、可靠性和可操作性;建立了漳州市區7類建築物在6度9度地震作用下的震害矩陣,成為指導抗震防災的重要依據,各類結構的震害情況表現為: 6度地震作用下各類建築物基本完好; 7度地震作用下除鋼筋混凝土結構基本完好外其餘以建築輕微破壞為主; 8度地震作用下鋼筋混凝土結構仍以基本完好為主而其餘建築以中等破壞為主; 9度地震作用下鋼筋混凝土結構以輕微破壞為主,單層工業廠房和空曠房屋以中等破壞為主,其餘建築以嚴重破壞為主;建築物的震害預測結果體現了未來地震來臨時的震害程度,在編制漳州市區抗震防災規劃時,對于遭遇50年超越概率10的地震影響發生中等以上破壞的建築物應考慮進行抗震鑒定和加固;由建築物的破壞所造成的直接經濟損失是城市地震經濟損失的主要部分,重慶大學碩士學位論文中文摘要其主要與建築物總面積、結構類型、地震烈度和各類建築物的震害程度有關;不同烈度造成的直接經濟損失按2一3倍向高烈度方向遞增,漳州市區直接經濟損失由6度至9度的比例關系為1 : 2 . 8 : 8 . 6 : 22 . 8 ;遭遇基本地震設防烈度( 7度)時,漳州市區直接經濟損失約4 . 5億元,無家可歸人員約40000人,且以磚木結構和多層磚混結構的震害損失最大;地震造成的人員傷亡主要與建築物倒塌及嚴重破壞的程度和總面積以及震時的建築物室內人數密切相關,地震時無家可歸人員主要與住宅倒塌、嚴重破壞及中等破壞的程度和總面積以及城市人均居住面積密切相關。One is situated in the place with frequent earthquakes occurrence, the other is in the place with no earthquakes
地震頻發地區的試驗場,用於驗證觀測項目效果;無震地區試驗場,用於試驗儀器的抗干擾性能和確定背景場。On jan 26, 2001, a severe earthquake registering 7. 9 on the richter scale hit gujarat, india, causing approximately 20, 000 deaths and leaving tens of thousands of people homeless
今年的一月二十六日,印度古佳瑞地區發生了芮氏規模7 . 9級的強震,造成約二萬人死亡及數以萬計的居民無家可歸。Athens on september 7th at 2 : 56 p. m. local time, a strong earthquake of magnitude 5. 9 on the richter scale occurred in the north of athens, the capital city of greece. the center of the earthquake was in the north suburban area of athens. this was the most severe earthquake to occur in athens in decades, causing injury and death to more than five hundred people, destroying many buildings and leaving thousands of people homeless
希臘首都雅典北部9月7日在當地時間下午二時五十六分左右發生芮氏規模五點九級的強烈地震,震央位於雅典北部郊區,這是雅典數十年來最嚴重的地震,至少造成五百多人傷亡及許多建築被毀,導致幾千人無家可歸。War has broken out again in the middle east. the wartime casualties, desperation, hatred, homeless refugees and heart - wrenching scenes that appear constantly in the media strongly awaken our yearning for peace
中東地區再度燃起熊熊戰火,戰爭中的傷亡無助忿恨和無家可歸的難民潮,這一幕幕震撼人心的畫面,深深地喚起了世人對和平的渴望。The safety of ash dam situated in earthquake regions has always been paid great attentions by designers. because of the big void ratio and easy liquefaction of fly ash, it is of great significance to investigate the seismic stability of such ash dam with the height over 100m, as sanmenxia longgou ash dam
粉煤灰具有孔隙比大、易液化等特點,建在高地震烈度區的三門峽龍溝灰壩已超過百米,在國內尚無先例,其抗震安全性與施工措施、設計指標的分析、研究具有深遠的科學意義與廣闊的應用前景。Many data such as m / g, em and seismic have been arranged, processed and interpreted in shengli oilfield, in which, the interpreted data ( 2 - d ) are 64 lines with 1800km. the techniques such as integration of process and interpretation, joint interpretation of m / g, em and seismic, variable velocity mapping, pressure prediction, constraint inversion without well and special process have been applied. the comprehensive researches on geology and physical exploration have been carried out in the whole block
該區油氣勘探始於50年代,勝利油田在該區塊先後部署、處理、解釋了重、磁、電、震等多種資料,其中解釋地震資料( 2d ) 64條、 1800多公里,才用了處理解釋一體化、重、磁、電、震聯合解釋、變速成圖、壓力預測、無井約束反演、特殊處理等技術,對整個探區進行了地質、物探等綜合研究,發現兩個有利構造帶,落實了13個圈閉構造,提交了兩口探井井位。Repairs to asias slow internet, damaged by an earthquake that ripped through key undersea data cables, have been postponed because of a major fault on a ship sent to the fix the problem
亞洲地區由地震引起的海底光纜阻斷從而導致網際網路速率低的問題仍得不到及時的解決,因為此次派出的一艘修纜船發生了比較嚴重的故障,無法及時進行海纜修復。As one content of the layout of earthquake - resistent and damage prevention of zhongzhou city, researches in damage prediction and correspond strategies of buildings have been carried through in two aspects as following : firstly, the domestic and aboard methods of damage prediction of buildings are compared and studied. the general methods, corresponding advantages and disadvantages as well as the scope of application for earthquake damage predicting of buildings are summarized. the main problems and solutions for earthquake damage predicting of buildings are submitted ; secondly, the current situations of buildings in the urban areas of zhangzhou city have been investigated
作為漳州市抗震防災規劃的內容之一,本文就建築物震害預測及防禦對策著重開展了兩方面的研究工作:一是對國內外建築物震害預測方法的分析對比,總結了建築物震害預測的一般方法、優缺點及其適用范圍,並提出了目前建築物震害預測存在的主要問題及解決措施;二是開展了漳州市區建築物現狀調查,闡述了漳州市區主要建築類型的震害預測方法和步驟,給出了震害預測的計算實例,完成了漳州市區建築物震害預測、地震經濟損失、無家可歸和傷亡人員的估計,指出漳州市區建築物抗震防災的薄弱環節,並提出了相應的防禦對策。Combining the result with logging, exploiting information, using multiple mathematics methods such as cluster analysis, neural network, step - by - step linear regress, the paper found the relationship among seismic, logging, and exploiting information in well - control zone. moreover, we calculate fracture richness index. as a result, we can distinguish rich fracture zone from carbonate formation by fracture richness index in non - well - control zone
結合測井、開發等資料,在有井點利用聚類分析、逐步回歸、神經網路等數學手段,建立了多種地震檢測結果與測井、開發等數據之間的定性、定量關系,計算出了研究區的裂縫發育指標,從而實現對無井區的縫洞預測。After the early morning earthquake of september 21, 1999, the most severely damaged spot along fontsing road was a mere two hundred meters from sister jiang s house. when she looked around, she was shocked : buildings were leveled ; families were ruined ; twisted roads rose above the ground to a height of a two - story building. on the 60 - meter wide fontsing road, not one inch remained that could be walked upon
九二一大地震那晚,豐勢路上受創最嚴重的地區,剛好離江師姊家不到二百公尺,放眼望去到處是斷垣殘壁家破人亡的景象慘不忍睹,馬路也已扭曲變形,被噴起的泥漿沖擠到有如二層樓高,六十米寬的豐勢路無一縫隙可行。It is possible for the terminal activity faults to penetrate to the quaternary, but their scale is generally small and the penetrating distance is short, therefore, they can not induce earthquakes on a large scale. the remote sense images of last thirty years in daqing region show that the linear tectonics have not changed remarkbly, in the meantime, the earthquake timing figure shows that the probability of the faults inducing earthquakes, which ms is no less than 5, is little, though some terminal active faults have penetrated to the quaternary
晚期活動斷裂有可能斷至第四系,但規模小,延伸的距離短,不會引發大規模地震,遙感解譯分析表明, 30多年來衛星遙感影像顯示的大型線性構造並無明顯變化;另外結合大慶地區地震時序圖認為,晚期活動斷裂即使斷至第四系,其活動引發5級以上地震的可能性也極小。Through several historical earthquake investigation cases, we found that the following aspects should be paid more attention in studying historical records of earthquakes : ( 1 ) discrimination and verification of historical records ; ( 2 ) application in evaluation of historical earthquake records ; ( 3 ) investigation of historical data without earthquakes ; ( 4 ) application in investigation of historical administration area and place name
摘要本文通過具體實例說明在查閱歷史地震記載資料時應特別注意以下幾個方面: ( 1 )地震歷史記載的辨別; ( 2 )地震歷史記載資料評價的應用; ( 3 )無震歷史記載的查證; ( 4 )歷史行政分區和地名考證的應用。分享友人