1)cofferdam[英]['k?f?d?m][美]['k?f?,d?m]围埝
1.Research on application of cement solidified soil in core structure of cofferdams;水泥固化土新材料在围埝堤心结构中应用研究
2.where the cofferdam is built.介绍了将围埝建筑在含泥炭土、淤泥等软弱地层上的基础处理、埝体施工方法。
英文短句/例句
1.Research on the Construction Method of the Marine Cofferdams with Geotextile Bags Filled with Solidified Soil;模袋固化土海上围埝建造方法及理论研究
2.A New Type Cofferdam Structure on Clay Foundation at Coastal Tide Range沿海潮差带粘性土地基上的一种新型围埝结构
3.Analysis of Collapse of Final Closure by a Spoil Dyke and Its Repair Program某围埝合龙口塌陷原因分析及修复方案
4.Research on Centrifugal Model Test of Maritime Dam Constructed by Geobag Solidified Soil模袋固化土海上围埝技术离心模型试验研究
5.Study on Caisson-cylindrical Breakwater Construction Technology of Tianjin Port Nanjiang North Reclamation Dam天津港南疆北围埝箱筒型基础防波堤施工技术研究
6.Effect of Displacement of Silt by Sandbag Cofferdam with Dredged Sand in Newly Reclaimed Land在新近吹填淤泥上吹填砂袋围埝的挤淤效果分析
7.these earth dykes cannot hold against floods.这些土筑堤埝根本起不到防洪作用。
8.Structural Characteristics and Structural Evolution of Shanian Block Area in Gaoyou Sag高邮凹陷沙埝断块区的构造特征和构造演化
9.A Study on Pore Structure of E_1f_3 Low Permeability Reservoir in South Shanian and Huazhuang Area Gaoyou Depression高邮凹陷沙埝南—花庄地区阜三段低渗储层孔隙结构研究
10.Application of Geophysical Method in Exploring Hidden Iron Deposit in Wangniangou of Cangshan County物探方法在寻找苍山县王埝沟隐伏铁矿床中的应用
11.Reservoir Heterogeneity of the 1st Member of Ef_3 in Fault Block Sha23 in Shanian Oilfield沙埝油田沙23断块阜三1亚段油层非均质性评价
12.Measurements of a woman's bust, waist and hips女子三围尺寸(胸围、腰围、臀围)
13.enclosed firmly in a surrounding mass.紧紧被周围物质围住的。
14.He gathered his scarf around his neck.他把围巾紧紧围住脖子。
15.They were swathed in scarves and sweaters.他们围着围巾, 穿着毛衣.
16.Why don't you wear a scarf?你为什么不围条围巾?
17.an orange scarf, an orange scarf.橙色围巾,橙色围巾。
18.Cincture:The act of encircling or encompassing.围绕:环绕或围绕的行为.
相关短句/例句
reclamation dam围埝
1.Considerations on Problems during the Construction of North Breakwater and Reclamation Dam;北大防波堤及围埝建设中几个问题的思考
2.The authors demonstrate on the feasibility of the scheme from the aspects including bagged soil, selection construction requirement, consolidation speed of dam foundation, as well as the overall stability of the reclamation dam.针对天津港南疆吹泥围埝工程的施工方案,进行了一系列的室内常规试验、编织袋填充模拟试验、现场观测和离心机模型试验,从袋装土的选用、施工要求、围埝地基的固结速率和围埝的整体稳定性方面对该方案的可行性进行论证。
3.Bag soil,filling rock and mixed soil are usually used as material of reclamation dam.在港口围埝工程中 ,常用的埝体材料有袋装草袋土、抛石、混合灰等。
3)reclamation dam technology围埝技术
1.This paper introduces the researching background,basic principle and application sphere of moulded-bag solidified soil reclamation dam technology and the experiences of its construction and quality management in Tianjin port,analyzes the technical criteria and economic benefits of its application in Tianjin port,and the result shows that this technology has extensive popularization prospect.介绍了模袋固化土围埝技术的研究背景、基本原理、适用条件以及在天津港运用的施工与质量管理经验,同时对该技术在天津港运用的技术指标和经济效益进行了分析,结果表明该技术有广泛的推广前景。
4)design of enclosing banks between fields围埝设计
1.The article introduces the engineering background and the geological conditions of 10# Land Sand-Blowing and Sand-Filling Ground Leveling Project in Sixin Area of New Zone in Wuhan,and introduces the blowing and filling design of this project from three aspects of the vertical design of ground leveling,the design of enclosing banks between fields and the filling of covering soil.该文介绍了武汉新区四新地区10#地块吹填砂场平工程的工程背景及地质条件,并从场平竖向设计、围埝设计、覆土填筑三方面介绍了该工程的吹填设计。
5)cofferdams for marine works海上围埝
1.This paper studies the application of geotextile bags filled with solidified soil as the core of cofferdams for marine works.为了降低工程造价、充分利用沿海地区廉价丰富的淤泥质粘土资源,本文研究利用模袋固化土作为堤心来替代砂石料等常规材料修建海上围埝。
6)slack twist;soft twist;loose twist;low twist松埝
延伸阅读
RP技术和基于RP技术的RT技术摘要:介绍了快速成形技术的原理和几种典型成形方法。同时,还介绍了基于快速成形技术的快速模具技术在模具制造业中的应用,以及快速成形技术的现状和发展趋势。 关键词:快速成形;快速模具;直接快速制模;间接快速制模。引言 快速成形(Rapid Prototyping , RP.)技术,也叫快速原型技术,20世纪80年代后期起源于美国。该技术是一种集计算机辅助设计、机械、数控、检测、激光技术和材料学等为一体的先进制造技术。传统的制造方法是基于材料去除的概念,而 RP 技术突破了这种工艺方法,它是一种“使材料生长”的制造过程,是一种全新的制造技术,所以被誉为是近20年来制造技术领域的一项重大突破。RP技术 1、原理 RP 技术是基于离散/堆积的原理。在计算机的控制下快速成型机的成形头选择性地固化一层层的液体材料(或选择性的切割一层层的纸、烧结一层层的粉末材料、喷涂一层层的热熔性材料等),形成各个截面轮廓并逐步顺序叠加成三维工件实体。其工艺步骤为: (1)切片 把三维CAD模型转化为快速原型系统能够接受的数据格式,运用切片软件将模型切成一系列指定厚度的薄片。 (2)扫描 通过数控装置控制激光或其他作业装置,在当前工作层上扫描出切片的截面形状。 (3)进给 把工作台沿着某一方向下降每次成形厚度那样一个距离。重复上一步骤和本步骤,直到工件完全成形。 (4)后处理 根据不同应用场合的需要,分别对零件进行后固化、上漆、烧结、渗铜等处理。 2、类型 目前RP的方法有几十种,但商品化较好的主要有:光固化立体成形(Stereo Lithogra- phy Apparatus, SLA)、分层实体制造(Laminated Objected Manufacturing ,LOM)、选择性激光烧结(Selected Laser Sintering , SLS)、熔融沉积造型(Fused Deposition Modeling , FDM)、三维印刷(Three Dimensional Printing , TDP)等。另外,很有潜力的激光气相沉积(Laser Vapor Deposition , LVP)法正在试验之中。 (1)SLA SLA法是出现最早,技术最成熟和应用最广泛的RP 技术,由美国的3D Systems 公司推出。SLA法是用激光束按照截面轮廓的形状,沿液态光敏树脂的表面进行扫描来固化光敏树脂,从而成形工件。工件的表面质量较好,尺寸精度较高(相对于其他RP 方法),可确保工件的尺寸精度在0.1mm以内,但树脂会因吸收空气中的水分而收缩、弯曲、卷翘,产生应力,适合成形中小型工件。
