土木工程专业外文翻译

土木工程专业英语单词Torque 转动扭矩 Impose 施加, 将…强加于Composite 合成的, 复合的Sag 下垂Deflect 偏转, 弯曲, 倾斜Misalignment 安装误差Plaster 灰泥, 灰浆, 涂层Buckling 弯曲, 折曲, 下垂Stiffness 刚度, 刚性 In contradistinction to M 与M截然不同Tension 张力, 拉力 Compression 压缩, 压力Diagrammatic sketch 示意图Ceramics 陶瓷, 陶瓷材料Inertia 惯性 Lifetime 使用寿命Iterative 反复的, 迭代的 Durability 耐久性, 持久性Pinpoint 准确定位, 针尖 Evolve 经过实验研究得出Statics 静力学 Strength of materials 材料力学Deformation 变形Influx 流入, 灌注Distortion 变形Boring machine 镗床Boom 吊杆, 悬臂, 起重杆 Dragline 拉铲挖土级, 挖掘斗Gray cast iron 灰铸铁Modulus of elasticity 弹性模量Rigidity 刚性, 刚度, 稳定性 Slip 滑度, 打滑Creep 蠕变 Yield 屈服于, 屈服Rupture 破裂, 断裂, 破坏 Load-carrying capacity 承载能力Terminology 专用名词 Helical spring 螺旋型弹簧Concentrated 集中的, 浓缩的 Distribute 分布, 分发, 散布Resultant 合力, 合成的 Centroid 矩心, 重心Torsional 扭的, 转的Bending 挠曲, 弯曲Flexural 弯曲的, 挠性的 couple 对, 双, 力偶Non-load-bearing 非承重 brittle 脆弱的, 脆性的ASTM 美国材料试验学会BSI 英国标准学会SAA 澳大利亚标准学会 Passage 一段, 一节Plastic deformation 塑性变形moisture content 含水量Timber 木材 veracity 诚实, 真实性Ready-mixed concrete 预拌混凝土building contractor 建筑承包商Hydraulic press 水压机 grading 分等, 分类, 级配Fatigue 疲劳ductility 可延展性Toughness 韧性 stress-strain curve 应力－应变曲线Durability 耐久性, 耐用年限 chloride 氯化物, 漂白粉Sulphate 硫酸盐alkali 碱性, 碱Permeability 渗透性, 透气性 weathering 风化Disruptive 分裂的, 摧毁的 thaw 融化, 解冻Entrain 携带, 传输 leaching 浸出, 溶析Carbonation 炭化作用blasting 破裂, 吹风Attrition 磨损 cavity 洞穴Hydraulic structure 水工建筑物 pervious 透水的, 透光的Aggregate 集料, 骨料 homogeneous 均质的, 均匀的Compact 压实, 捣紧 kerb 路缘, 道牙Air-entrained concrete 加气混凝土 glaze 珐琅质, 上釉Stainless steel 不锈钢galvanize 电镀Gutter 排水沟, 楼都不 humidity 湿度, 湿气Porous 多孔的, 疏松的 spectrum 谱Infrared 红外的, 产生红外辐射的 ultraviolet 紫外的Gravel 砾石, 卵石 anodized 受过阳极化处理的Hydrate 水合物reinforcement 加强, 加固Spall 剥落, 散裂 erosion 侵蚀, 腐蚀Abrasion 磨损, 磨耗 quarry 方形砖Eddy 涡流, 漩涡运动 reinforcing steel 钢筋Reinforced concrete 钢筋混凝土 reinforcing bar 钢筋Longitudinal 长度的, 纵向的, 轴向的 dispose 处置Incline 倾斜, 弄斜 moment 力矩Bond 结合, 结合力, 粘合力 interlock 连动, 连接Forestall 阻止, 预防 embed 放入, 埋入Prestressing steel 预应力钢筋 rebar 钢筋Splice 接头 congestion 充满Form 模坂 ACI 美国混凝土协会Code 法规, 规程 galvanize 电镀Undue 过度的, 过分的 BS 英国标准Blending machine 弯筋机mandrel 芯棒Jig 夹具 dowel 夹缝丁, 暗销Wire clip 钢丝剪reference number 参考号数Mill scale 热轧钢表面氧化皮spacer 隔离物Clip 夹子, 剪刀slab 板, 块, 楼板Cradle 吊架, 托架, 支架chair 托架, 支板Mild steel 低碳钢 tack 图钉, 点焊焊缝Hydraulic 水力的, 液力的 additive 添加剂Admixture 外加剂 binder 胶结剂Aggregate 聚集, 结合, 骨料, 填料aerate 充气Aerate concrete 加气混凝土cellular 蜂窝状的Portland 波特兰水泥 pulverize 粉化, 磨碎Granulate 成粒状, 轧碎 blastfurnace 高炉, 鼓风炉Slag 矿渣, 炉渣 pigment 颜料, 色料Retarder 延迟剂, 缓凝剂accelerator 加速剂, 促凝剂Curing (混凝土)养护compaction 压实, 捣实Ambient 周围的, 外界的shrinkage 收缩, 下沉, 压缩Autoclave 蒸压器, 热压处理 frost 粗糙的, 无光泽的Efflorescence 风化, 粉化, 粉化物 sodium 钠Calcium 钙potassium 钾Carbonate 炭化 pozzolana 火山灰Sulphate 硫酸盐autoclaved aerated concrete 高压蒸养加气混凝土Hard-burnt 高温焙烧的, 炼制的 veneer 镶片, 砌面, 表层Mallet 木锤, 大锤 chisel 凿子Mold 模子, 模具mass production 大量生产Update 使现代化trade journal 行业杂志Periodical 定期的, 定期刊行的 editorial board 编辑委员会Beholder 旁观者 ordinance 规格, 条例, 法令Suspended structure 悬吊结构 joist 梁, 垳条Through bridge 下承桥 chord 弦杆Bracing 拉条, 支撑 web-girder 腹板大梁Box-girder 箱梁 plan view 平面图Outline 外形, 剖面 drawing 附图Bills of materials 材料清单radiator 散热器General arrangement 总体布置detail drawing 详图Cladding 包层, 包壳 panel 面板, 仪表盘GA drawing 总体平面图 zoom 变焦距In situ 原地, 在原地cumbersome 笨重的, 麻烦的Parameterized 参数化 specification 详细说明, 规范Verify 校验, 验证, 说明homogeneous 均匀的, 对等的Buckling 弯曲, 翘曲, 弯折 deterministic 确定的, 决定的Probabilistic 概率的, 随机的 deviation 偏差, 偏移, 参数Psychological 心理的, 精神的 cross-section 横断面, 横截面Amortization 阻尼 proof-load 检验荷载Field 场地, 工地survey 调查, 测量, 勘察Intrinsic 内在的, 固有的 stochastic 随机的, 不确定的Seismic 地震的, 与地震有关的 single load 集中荷载Foundation 基础, 地基gravity 重力Lateral 横向的, 侧面的 transient 瞬时的, 不稳定的Basement 底座, 基础, 地下室 erratic 反复无常的, 无规律的Footing 基础, 基脚, 底座, 垫层overdesign 保险设计Underdesign 欠安全设计 appurtenance 附属物, 附属设备Firewall 防火墙parapet 栏杆, 护墙, 女儿墙Remold 改造, 改型, 重铸 ductwork 管道系统, 管网Tenant 租用 latitude 纬度, 宽度, 范围Tributary 支流, 附庸, 辅助的cantilever 悬臂, 悬臂梁, 支架Provision 预防, 规定, 条款 overload 超载, 超重Reference 参考书 uncertainty 不确定性Slighting 轻蔑的, 不尊重的 likelihood 像有, 相似Pef = pounds per cubic foot 磅/平方英尺reliability 可靠性, 安全性Methodology 方法论 shield 屏蔽Shield 屏蔽, 遮护 without recourse to 不依赖Reason 推理, 论证 weir 堰, 拦河堰Spillway 溢洪道, 泻水道clause 条款项目Deploy 适用, 配置 filler wall 填充墙, 柱间墙Shear wall 剪力墙ignorance 外行Up-to-date 现代的, 最新likewise 同样Bucket 吊斗, 挖斗 wheelarrow 手推车, 独轮小车Buggy 手推车, 小斗车segregation 分凝, 离析Chute 斜槽 place 场所, 浇筑Lift 混凝土浇筑层, , 升降机displacement 偏移Compact 夯实 honeycomb 蜂窝结构Tamping 夯实, 捣固, 捣实 spinkling 喷洒Calcium chloride 氯化钙 settlement 沉陷Grout 水浆, 灌浆cohesive 粘聚的, 粘结的Workable 和易性好的,塑性的slump 坍塌度Workability 可塑性 air-entraining 加气的Deposit 存储, 浇注consolidation 加固, 压实Bleeding 渗漏subsidence 沉降, 下降Laitance 水泥浮浆 float 镘刀, 抹子Capillary 毛细管的, 毛细现象 flash set 急凝Aluminate 铝酸盐 burlap 麻袋, 粗麻布Membrane 膜, 隔板 emulsion 乳胶体, 乳液Polyethylene 聚乙烯 waterproof 防水Harden 硬化, 凝固 gravel 砾石, 卵石Immersion 浸入, 插入 headroom 净空高度, 头上空间Nominal 铭牌的, 名义的 power-driven 动力驱动的, 电动的External vibrator 表面振捣器 architect 建筑师Nonhomogeneous 不均匀的, 多相的creep 蠕变Shrink 缩小structure code 结构规范Ultimate strength 极限强度 load factor 荷载系数From M onwards 从m算起来 prestressed concrete 预应力混凝土Faulty 有缺点的, 报废的, 不合格的 embed 放入, 埋入Abutment 桥台,岸墩 thrust 推, 轴向力Jack 千斤顶, 支柱 motorway 汽车道, 快车道Tendon 钢筋束, 筋post-tensioned prestressing 后张法预应力Pre-tensioned prestressing 先张法预应力 manoeuvrable 机动的, 容易驾驶的Plain concrete 无筋混凝土 precompression 预加压力, 预先压缩Leak 漏, 渗漏camber 弯度, 曲度, 凸形Proportioning 使成比例, 确定几何尺寸 analogous 类似的, 类比的, 模拟的With reference to 参考, 参照, 关于centroid 矩心, 面积矩心, 质心Refinement 精制, 改善, 改进 bond 结合, 粘合, 粘合强度Transmit 传递, 寄, 传送 interlocking 可联动的, 联锁Plain bar 光面钢筋, 无结钢筋 formed bar 变形钢筋, 竹结钢筋Hoop 环, 箍, 铁箍tie 拉杆, 系杆Stirrup 箍筋, 钢筋箍 crushing 压碎, 轧碎Bearing 承载, 承受, 支撑点 bearing pressure 支承压力Rib 肋, 棱, perimeter 周边, 周长, 周界Blanketing 覆盖, 包上, 掩盖 mortar 砂浆, 灰浆, 灰泥Bentonite 膨润土, 膨土岩 trench 沟槽, 沟道, 沟管Tremie 混凝土导管（水下浇筑用） full prestressing 全预应力Partial prestressing 部分预应力reservoir 水库, 蓄水池Eccentric 偏心的, 呈偏心运动的, 偏心器 counteract 中和, 平衡Intermitterntly 间隙的, 断续的, 周期的 infrequent 不常见的, 稀少的Objectionable 不能采用的, 不适宜的reverse 颠倒的, 改变方向的, 交换的Cement paste 水泥浆sack 袋, 包, 一包, 一袋Water-cement ratio 水灰比trial-batch （混凝土）小量试拌Slump test 坍塌度试验 truncate 缩短, 截去Air-entraining agent 加气剂 plasticizer 增塑剂, 塑化剂revolving-drum mixer 转筒式搅拌机 ready-mixed 运送时搅拌的transit0mixed 运送时拌的 batch 配料, 分批配料congested 拥挤的, 充塞的 haul 搬运, 运输discharge 卸货, 卸载 hopper 漏斗, 装料车batching plant 拌和厂 batching 配料, 定配合比ecclesiastical 基督教会的, 教士的 landmark 陆标, 里程碑, 界标mobility 可动性, 机动性, 流动性 topographical 地形的, 地形测量的subservient 辅助性的tax 使受压力, 负担shear wall core 剪力墙筒体 prefabrication 预制的, 预制品slip-formwork 滑模 crane 起重机, 用起重机吊codify 编成法典, 编纂 elevator 升降机escalator 升降梯, 自动扶梯drift 漂移, 位移prescribe 规定, 命令, 指示I-beam 工字梁, 工字钢masonry 砖石工程, 砌筑体staircase 楼梯lofty 高耸的, 极高的condominium 各住户认购各自一套公寓楼brace 支撑, 支柱bundle 捆, 扎, 粘合soaring 高耸的, 高涨的 tributary 支流, 从属的prototype 原型, 样机web 腹板, 梁板torsion 扭转, 转矩 orthogonal 互相垂直的, 正交的, 直角的stiffen 加强, 加固 urbanization 都市化habitation 住宅, 住所deterrent 制止物, 威慑因素premium 奖金, 质量改进的clutter 混乱, 干扰, 弄乱multi-discipline 多学科pedestrian 行人, 步行者plaza 广场, 大空地sway 摇, 摆动overturn 倾倒, 翻转 clear span 净高clear spacing 净距 zoning 分区, 区域化excavation 挖掘, 挖方 overlook 检查, 监督interim 间歇底, 暂时的empiricism 经验主义elastoplastic 弹塑性的subset 子系统compartmentalize 间隔化,隔开,分段 mantle 罩,外壳,地幔erosion 侵蚀,冲刷,磨损 waterborne 水生的,水力运输的boulder 漂砾,大块石 cobble 圆石,鹅软石pebble 小软石,小砾石 degradation 剥蚀,退化avalanche 山崩,坍方,崩塌 stratum 地层,岩层meandering 曲折的,弯曲的,曲流的 stratified 有层次的,分层的water table 地下水位 detritus 瓦砾,腐质percolation 渗透,渗滤 soil profile 土壤剖面,土层剖面residual soil 残积土transported soil 运积土ground water 地下水superstructure 上层结构earth fill 土堤substructure 下部结构,基础工事demarcation 分界线 sanitary 环境卫生的sanitary fill 垃圾堆积场reclamation 废料回收,改造,垦殖disposal 处理,清理,处置boring 钻探,打眼mat 席,垫,钢筋网 caisson 沉箱retaining-wall 挡土墙uneven settlement 不均匀沉降overburden 超载,过载 strap beam 搭扣形梁unsound 不坚固的,不牢固的pile 桩,打桩hardpan 硬土层,坚固基础 raft 筏,木排combined footing 联合基础 cantilever footing 悬臂基础raft of floating foundation 筏式基础或浮筏基础soil mass 土体pile shaft 桩身 stratum 地层, 矿层end-bearing pile 端承桩 uplift 举起, 抬起water table 地下水位scour 冲刷, 洗涤deposit 沉积, 浇注, 矿床 soil-exploration 土质勘察footing 基础, 基脚, 底座 strip 带, 条, 狭长片raft 筏, 垫板 capital 柱头fixity 固定, 不变eccentric 偏心的, 不同圆心的nonuniformity 不均匀性, 不均质性 scheduling 编制时间表drain 消耗, 耗尽premium 奖金, 佣金hold up 阻碍procurement 取得, 获得, 采购vector 矢量, 向量prerequisite 先决条件, 前提concurrent 同时进行的, 并行的 lead time 产品设计至实际投产时间litigation 诉讼, 打官司 chronological 按时间顺序的hoist 卷扬机, 起重机 utility 实用的, 公用事业utility line 公用事业管线 accrue 产生, 出现dismantle 拆除, 拆卸 remuneration 酬劳, 报酬commensurate 同量的, 相应的 degenerate into 简化成, 变质成in-house 机构内部的 critical path 关键路径lay down 规定, 制定计划 wearing surface 磨耗面base course 基层 asphalt 柏油landscaping 风景设计, 风景布置 bulldozer 推土机, 压路机vibrating roller 振动压路机 bitumen 沥青grill 格栅, 铁格网mesh 网, 网格, 筛concrete train 混凝土铺路机组 slipform paver 滑模铺路机hold in place 把…固定在引诱的位置runway 跑道, 通道Tokaido line 新干线 catalyst 触媒, 催化剂Side-effect 副作用 decentralization 分散, 疏散Unity 整体, 单元 outstrip 超过Crude 天然的, 原油piecemeal 片断, 点Ferment 酵素, 发酵, 蓬勃发展 underlying 基础的, 根本的Geographer 地理学家 operations research 运筹学Cable-stayed 斜拉的, 张拉的 girder 梁, 垳, 梁杆Cast-in-place 现场浇筑的 AASHT美国洲际公路及运输工作者协会AREA 美国铁路工程师协会 crossing 交叉, 十字路口Pier 桥墩 elevated 高架的, 高的, 高架铁路Clearance 间隙, 净空, 间距 segment 部分, 段Dominance 支配, 控制, 优势 one-way slab 单向配筋板Versus 与…的关系曲线 statically determinate structure 静定结构Skew 斜的, 扭的, 弯曲的on-site 现场的, 就地的, 工地Shear key 受剪键bituminous concrete 沥青混凝土Dissipate 清除, 消除 composite structure 混合结构Acronym 缩写词, 缩语chore 零星工作, 零活In the foreseeable future 在可遇见的未来一段时间内 impetus 动力, 刺激Draughtsman 绘图员, 起草者 repetitious 重复的, 反复的Mundane 世间的, 世俗的jargon 行话, 术语, 难懂的话Level 水平, 水位, 水平仪 theodolite 精密经纬仪Envision 想象, 遇见, 展望contour map 等高线, 地形图Plat 地段, 地区图, 地段图grading 校准, 定标, 土工修正Stake 标桩, 定位木桩picture 图画, 设想, 想象Cut 挖土, 挖方 fill 填筑, 填方, 填土, 路堤Borrow 取土, 采料, 采料场 indeterminate structure 超静定结构Myriad 万, 无数, 无数的 photogrammetry 摄影测绘sGeotechnical engineering 岩土工程 mass transit 公共交通Transmission line 输电线infiltrate 渗入, 渗透Estimator 估价者, 评价者rival 对手, 竞争, 比得上Off-the-shelf 现成的, 成品的, 畅销的 afterthought 回想, 反省, 后悔, 马后炮Timeliness 及时, 时间性, 好时机 inception 开始, 起头, 开端Culminate 达到顶点, 结束 beneficiary 受益人, 受惠人Outset 开始, 最初 working drawing 施工图Prescribe 规定, 命令 delineation 描绘, 描述Co-ordinate 相同, 同等的事物 prerogative 特权, 特性Board of directors 董事会 estimating 估价Margin 边缘, 余量, 余地tender 投标, 承包, 标件Incisive 尖锐的, 深刻的, 透彻的 realm 范围, 部门, 类Forethought 预先考虑好的modus 方法, 程式Modus operandi 做法, 方法, 工作方式nullify 废弃, 取消Indispensable 不可缺少的, 必需的 corollary 推论, 结果Doom 毁灭, 灭亡, 判决 obverse 较显著面Tactical 战术的, 策略的deployment 部署, 调度, 配置Ensemble 整体, 总效果 pictorial 绘图的, 插图的Dispassionate 冷静的, 不带偏见的 prognosis 预测, 预报Ubiquitous 普遍存在的, 随遇的 denominator 分母, 标准Handmaiden 起陪衬作用的 liken 比拟Jobbing 做临时工trade journal 行业期刊Cost plus 附加费 premise 前提, 房产Speculation 投机, 投机买卖sub-contractor 转包商, 分包商Order 订单 on-cost 杂费, 间接成本Microfiche 缩微胶片, 平片。

土木工程专业英语
土木工程专业英语 abandon v.放弃
abbreviation n.缩写
abrasion n.擦伤，磨损
abundance a.丰富，充裕，大量 access road 入口
accessibility n.可大性，可接近性 acid corrode 酸性腐蚀
acre n.英亩
acronym n.简称，只取首字母的缩写词 adapter n.适配器，转换接头，附件admeasurement contract 计价合同 admixture n.掺和剂
adverse a.不利的
aerodynamic a.空气动力的
aggregate n.骨料，集料
reactive aggregate 活性骨料
agitation n.拌和
air conditioning 空气调节
air-entrained concrete 加气混凝土 akin a.类似的，同样的(常跟to连用) alcove n.凹室，壁龛
alkaline a.碱性(的) high-alkai a.高碱性的
allocate v.分配，分派，配给 allowable stress 允许应力
allowable stress approach 允许应力法 allowance n.留量，容差，补助alkali-aggregate reaction 碱-骨料反应 alternative n.比较方案 a.交替的，变更的，比较的
aluminum(aluminium) n.铝
aluminium alloy 铝合金
amalgam n.混合物，软的混合物 amenity n.舒适，适宜，愉快 analogous a。

外文原文：Civil EngineeringCivil engineering is the planning, design, construction, and management of the built environment. This environment includes all structures built according to scientific principles, from irrigation and drainage systems to rocket launching facilities.Civil engineers build roads, bridges, tunnels, dams, harbors, power plants, water and sewage systems, hospitals, schools, mass transit, and other public facilities essential to modern society and large population concentrations. They also build privately owned facilities such as airport, railroads, pipelines, skyscrapers, and other large structures designed for industrial, commercial, or residential use. In addition, civil engineers plan, design, and build complete cities and towns, and more recently have been planning and designing space platforms to self-contained communities.The word civil derives from the Latin for citizen. In 1782, Englishman John Seaton used the term to differentiate his nonmilitary engineering work from that of the military engineers who predominated at the time. Since then, the term civil engineer has often been used to refer to engineers who build public facilities, although the field is much broader.Scope Because it is so broad, civil engineering is subdivided into a number of technical specialties. Depending on the type of project, the skills pf many kinds of civil engineer specialties may be needed. When a project begins, the site is surveyed and mapped by civil engineers who experiment to determine if the earth can bear the weight of project. Environmental specialists study the project’s impact on the local area, the potential for air and groundwater pollution, the project’s impact on local animal and plant life, and how the project can be designed to meet government requirements aimed at protecting the environment. Transportation specialists determine what kind of facilities are needed to ease the burden on local roads and other transportation networks that will result from the completed project. Meanwhile, structural specialists raise preliminary data to make detailed designs, plans, and specifications for the project. Supervising and coordinating the work of these civil engineer specialists, from beginning to end of the project, are the construction management specialists. Based on information supplied by the other specialists, construction management civil engineers estimate quantitiesand costs of materials and subcontractors, and perform other supervisory work to ensure the project is completed on time and as specified.Many civil engineers, among them the top people in the field, work in design. As we have seen, civil engineers work on many different kinds of structures, so it is normal practice for an engineer to specialize in just one kind. In designing buildings, engineers often work as consultants to architectural or construction firms. Dams, bridges, water supply systems, and other large projects ordinarily employ several engineers whose work is coordinated by a system engineer who is in charge of the entire project. In many cases, engineers from other disciplines are involved. In a dam project, for example, electrical and mechanical engineers work on the design of the powerhouse and its equipment. In other cases, civil engineers are assigned to work on a project in another field; in the space program, for instance, civil engineers were necessary in the design and construction of such structures as launching pads and rocket storage facilities.Throughout any given project, civil engineers make extensive use of computers. Computes are used to design the project’s various elements (computer-aided design, or CAD) and to manger it. Computers are a necessity for the modern civil engineer because they permit the engineer to efficiently handle the large quantities of data needed in determining the best way to construct a project.Structural engineering In this specialty, civil engineers plan and design structures of all types, including bridges dams, power plants, supports for equipment, special structures for offshore projects, the United States space program, transmission towers, giant astronomical and radio telescopes, and many other kinds of projects.Using computers, structural engineers determine the forces a structure must resist, its own weight, wind and hurricane forces temperature changes that expand or contract construction materials, and earthquakes. They also determine the combination of appropriate materials: steel, concrete, plastic, stone, asphalt, brick, aluminum, or other construction materials.Water resources engineering Civil engineers in this specialty deal with all aspects of the physical control of water. Their projects help prevent floods, supply water for cities and for irrigation, manage and control rivers and water runoff, and maintain beaches and other waterfront facilities. In addition, they design and maintain harbors, canals, and locks, build huge hydroelectric dams and smaller dams and water impoundments of all kinds, help design offshorestructures, and determine the location of structures affecting navigation.Geotechnical engineering Civil engineers who specialize in this filed analyze the properties of soils and rocks that support structures and affect structural behavior. They evaluate and work to minimize the potential settlement of buildings and other structures that stems from the pressure of their weight on the earth. These engineers also evaluate and determine how to strengthen the stability of slopes and how to protect structures against earthquakes and the effects of groundwater.Environmental engineering In this branch of engineering, civil engineers design, build, and supervise systems to provide safe drinking water and to prevent and control pollution of water supplies, both on the surface and underground. They also design, build, and supervise projects to control or eliminate pollution of the land and air. These engineers build water and wastewaters treatment plants, and design air scrubbers and other devices to minimize or eliminate air pollution caused by industrial processes, incineration, or other smoke-producing activities. They also work to control toxic and hazardous wastes through the construction of special dump sites or the neutralizing of toxic and hazardous substances. In addition the engineers design and manage sanitary landfills to prevent pollution of surrounding land.Transportation engineering Civil engineers working in this specialty build facilities to ensure safe and efficient movement of both people and goods. They specialize in designing and maintaining all types of transportation facilities, highways and streets, mass transit systems, railroads and airfields ports and harbors. Transportation engineers apply technological knowledge as well as consideration of the economic, political, and social factors in designing each project. They work closely with urban planners since the quality of the community is directly related to the quality of the transportation system.Pipeline engineering In this branch of civil engineering, engineers build pipelines and related facilities, which transport liquids, gases, or solids ranging from coal slurries (mixed coal and water) and semi liquids wastes, to water, oil and various types pf highly combustible and noncombustible gases. The engineers determine pipeline design, the economic and environmental impact of a project on regions it must traverse, the type pf materials to be used-steel, concrete, plastic, or combinations of various materials, installation techniques, methods for testing pipeline strength, and controls for maintaining proper pressure and rate of flow of materials being transported. When hazardous materials are being carried, safety is a major consideration as well.Construction engineering Civil engineers in this field oversee the construction of a project from beginning to end. Sometimes called project engineers, they apply both technical and managerial skills, including knowledge of construction methods, planning, organizing, financing, and operating construction projects. They coordinate the activities of virtually everyone engaged in the work: the surveyors, workers who lay out and construct the temporary roads and ramps, excavate for the foundation, build the forms and pour the concrete; and workers who build the steel frame-work. These engineers also make regular progress reports to the owners of the structure.Construction is a complicated process on almost all engineering projects. It involves scheduling the work and utilizing the equipment and the materials so that coats are kept as low as possible. Safety factor must also be taken into account, since construction can be very dangerous. Many civil engineers therefore specialize in the construction phase.Community and urban planning Those engaged in this area of civil engineering may plan and develop communities within a city, or entire cities. Such planning involves far more than engineering considerations; environmental, social, and economic factors in the use and development of land and natural resources are also key elements. They evaluate the kinds of facilities needed, including streets and highways, public transportation systems, airports, and recreational and other facilities to ensure social and economic as well as environmental well-being.Photogrammetry, surveying, and mapping The civil engineers in this specialty precisely measure the Earth’s surface to obtain reliable information for locating and designing engineering projects. This practice often involves high-technology methods such as satellite and aerial surveying, and computer processing of photographic imagery. Radio signals from satellites, scanned by laser and sonic beams, are converted to maps to provide very accurate measurements for boring tunnels, building highways and dams, plotting flood control and irrigation projects, locating subsurface geologic formations that may affect a construction project and a host of other building uses.Other specialties Three additional civil engineering specialties that are not entirely within the scope of civil engineering teaching.Engineering research Research is one of the most important aspects of scientific and engineering practice. A researcher usually works as a member of a team with other scientists and engineers. He or she is often employed in alaboratory that financed by government or industry. Areas of research connected with civil engineering include soil mechanics and soil stabilization techniques, and also the development and testing of new structural materials.Engineering management Many civil engineers choose careers that eventually lead to management. Others are also to start their careers in management positions. The civil engineer manager combines technical knowledge with an ability to organize and coordinate worker power, materials, machinery, and money. These engineers may work in government municipal, county, state, or federal; in the U.S.Army Corps of Engineers as military or civilian management engineers; or in semiautonomous regional or city authorities or similar organization. They may also manage private engineering firms ranging in size from a few employees to hundreds.Engineering teaching The civil engineer who chooses a teaching career usually teaches both graduate and undergraduate students in technical specialties. Many teaching civil engineers engage in basic research that eventually leads to technical innovations in construction materials and methods. Many also serve as consultants on engineering projects, or on technical boards and commissions associated with major projects.中文译文：土木工程土木工程是指对建成环境的规划、设计、建造、管理等一系列活动。

(1)Concrete and reinforced concrete are used as building materials in every country. In many, including Canada and the United States, reinforced concrete is a dominant structural material in engineered construction.(1)混凝土和钢筋混凝土在每个国家都被用作建筑材料。

在许多国家，包括加拿大和美国，钢筋混凝土是一种主要的工程结构材料。

(2)The universal nature of reinforced concrete construction stems from the wide availability of reinforcing bars and the constituents of concrete, gravel, sand, and cement, the relatively simple skills required in concrete construction.(2) 钢筋混凝土建筑的广泛存在是由于钢筋和制造混凝土的材料，包括石子，沙，水泥等，可以通过多种途径方便的得到，同时兴建混凝土建筑时所需要的技术也相对简单。

(3)Concrete and reinforced concrete are used in bridges, building of all sorts, underground structures, water tanks, television towers, offshore oil exploration and production structures, dams, and even in ships.(3)混凝土和钢筋混凝土被应用于桥梁，各种形式的建筑，地下结构，蓄水池，电视塔，海上石油平台，以及工业建筑，大坝，甚至船舶等。

1.Central iron & Steel Research institute, Beijing 100081, China2.Chinese Society for Metals, Beijing 100711, China高层建筑与钢结构HUi Wei-jun,DONG HanWENG Yu-ging,CHEN Si-lian,WANG Mao-giu摘要耐火钢其实就是对火灾有一定抵抗能力的钢材，日本认为耐火钢是焊接结构用轧制钢材的一类，在我国它是建筑用低合金钢的一种。

耐火钢于普通的建筑用钢不同，它要求具有良好的耐高温性能，作为常温下的承载材料，只要求在遇到火灾的较短时间内（1到3小时）高温条件下能够保持高的屈服强度，常温下钢材强度的2/3相当于该材料的长期允许应力值，当发生火灾时，如果耐火钢的屈服点仍然在此值以上，建筑物就不会倒塌。

因此，就要求耐火钢在一定高温下的屈服不低于室温下屈服强度的2/3。

本文研究的目的在于研究提高耐火港的强韧性、抗震性和耐火性能。

关键字高层建筑；钢结构；发展应用1.前言近年来，虽然一般的建筑结构设计取得了很大的进步，但是取得显著成绩的还要数超高层建筑结构设计。

最初的高层建筑设计是从钢结构的设计开始的。

钢筋混凝土和受力外包钢筒系统运用起来是比较经济的系统，被有效地运用于大批的民用建筑和商业建筑中。

50层到100层的建筑被成为超高层建筑。

而这种建筑在美国被广泛的应用是由于新的结构系统的发展和创新。

这样的高度需要大柱和梁的尺寸，这样以来可以使建筑物更加坚固以至于在允许的限度范围内承受风荷载而不产生弯曲和倾斜。

过分的倾斜会导致建筑物的隔离构件、顶棚以及其它建筑细部产生循环破坏。

除此之外，过大的摇动也会使建筑物的使用者感觉到这样的晃动而产生不舒服的感觉。

无论是钢筋混凝土结构系统还是钢结构系统都充分利用了整个建筑的刚度潜力，因此，不能指望利用多余的刚度来限制侧向位移。

土木工程专业外语词汇大全中英翻译1. 综合类大地工程geotechnical engineering1. 综合类反分析法back analysis method1. 综合类基础工程foundation engineering1. 综合类临界状态土力学critical state soil mechanics1. 综合类数值岩土力学numerical geomechanics1. 综合类土soil, earth1. 综合类土动力学soil dynamics1. 综合类土力学soil mechanics1. 综合类岩土工程geotechnical engineering1. 综合类应力路径stress path1. 综合类应力路径法stress path method2. 工程地质及勘察变质岩metamorphic rock2. 工程地质及勘察标准冻深standard frost penetration2. 工程地质及勘察冰川沉积glacial deposit2. 工程地质及勘察冰积层（台）glacial deposit2. 工程地质及勘察残积土eluvial soil, residual soil2. 工程地质及勘察层理beding2. 工程地质及勘察长石feldspar2. 工程地质及勘察沉积岩sedimentary rock2. 工程地质及勘察承压水confined water2. 工程地质及勘察次生矿物secondary mineral2. 工程地质及勘察地质年代geological age2. 工程地质及勘察地质图geological map2. 工程地质及勘察地下水groundwater2. 工程地质及勘察断层fault2. 工程地质及勘察断裂构造fracture structure2. 工程地质及勘察工程地质勘察engineering geological exploration 2. 工程地质及勘察海积层（台）marine deposit2. 工程地质及勘察海相沉积marine deposit2. 工程地质及勘察花岗岩granite2. 工程地质及勘察滑坡landslide2. 工程地质及勘察化石fossil2. 工程地质及勘察化学沉积岩chemical sedimentary rock2. 工程地质及勘察阶地terrace2. 工程地质及勘察节理joint2. 工程地质及勘察解理cleavage2. 工程地质及勘察喀斯特karst2. 工程地质及勘察矿物硬度hardness of minerals2. 工程地质及勘察砾岩conglomerate2. 工程地质及勘察流滑flow slide2. 工程地质及勘察陆相沉积continental sedimentation2. 工程地质及勘察泥石流mud flow, debris flow2. 工程地质及勘察年粘土矿物clay minerals2. 工程地质及勘察凝灰岩tuff2. 工程地质及勘察牛轭湖ox-bow lake2. 工程地质及勘察浅成岩hypabyssal rock2. 工程地质及勘察潜水ground water2. 工程地质及勘察侵入岩intrusive rock2. 工程地质及勘察取土器geotome2. 工程地质及勘察砂岩sandstone2. 工程地质及勘察砂嘴spit, sand spit2. 工程地质及勘察山岩压力rock pressure2. 工程地质及勘察深成岩plutionic rock2. 工程地质及勘察石灰岩limestone2. 工程地质及勘察石英quartz2. 工程地质及勘察松散堆积物rickle2. 工程地质及勘察围限地下水（台）confined ground water 2. 工程地质及勘察泻湖lagoon2. 工程地质及勘察岩爆rock burst2. 工程地质及勘察岩层产状attitude of rock2. 工程地质及勘察岩浆岩magmatic rock, igneous rock2. 工程地质及勘察岩脉dike, dgke2. 工程地质及勘察岩石风化程度degree of rock weathering 2. 工程地质及勘察岩石构造structure of rock2. 工程地质及勘察岩石结构texture of rock2. 工程地质及勘察岩体rock mass2. 工程地质及勘察页岩shale2. 工程地质及勘察原生矿物primary mineral2. 工程地质及勘察云母mica2. 工程地质及勘察造岩矿物rock-forming mineral2. 工程地质及勘察褶皱fold, folding2. 工程地质及勘察钻孔柱状图bore hole columnar section3. 土的分类饱和土saturated soil3. 土的分类超固结土overconsolidated soil3. 土的分类冲填土dredger fill3. 土的分类充重塑土3. 土的分类冻土frozen soil, tjaele3. 土的分类非饱和土unsaturated soil3. 土的分类分散性土dispersive soil3. 土的分类粉土silt, mo3. 土的分类粉质粘土silty clay3. 土的分类高岭石kaolinite3. 土的分类过压密土（台）overconsolidated soil3. 土的分类红粘土red clay, adamic earth3. 土的分类黄土loess, huangtu(China)3. 土的分类蒙脱石montmorillonite3. 土的分类泥炭peat, bog muck3. 土的分类年粘土clay3. 土的分类年粘性土cohesive soil, clayey soil3. 土的分类膨胀土expansive soil, swelling soil3. 土的分类欠固结粘土underconsolidated soil3. 土的分类区域性土zonal soil3. 土的分类人工填土fill, artificial soil3. 土的分类软粘土soft clay, mildclay, mickle3. 土的分类砂土sand3. 土的分类湿陷性黄土collapsible loess, slumping loess3. 土的分类素填土plain fill3. 土的分类塑性图plasticity chart3. 土的分类碎石土stone, break stone, broken stone, channery, chat, crushed stone, deritus 3. 土的分类未压密土（台）underconsolidated clay3. 土的分类无粘性土cohesionless soil, frictional soil, non-cohesive soil3. 土的分类岩石rock3. 土的分类伊利土illite3. 土的分类有机质土organic soil3. 土的分类淤泥muck, gyttja, mire, slush3. 土的分类淤泥质土mucky soil3. 土的分类原状土undisturbed soil3. 土的分类杂填土miscellaneous fill3. 土的分类正常固结土normally consolidated soil3. 土的分类正常压密土（台）normally consolidated soil3. 土的分类自重湿陷性黄土self weight collapse loess4. 土的物理性质阿太堡界限Atterberg limits4. 土的物理性质饱和度degree of saturation4. 土的物理性质饱和密度saturated density4. 土的物理性质饱和重度saturated unit weight4. 土的物理性质比重specific gravity4. 土的物理性质稠度consistency4. 土的物理性质不均匀系数coefficient of uniformity, uniformity coefficient4. 土的物理性质触变thixotropy4. 土的物理性质单粒结构single-grained structure4. 土的物理性质蜂窝结构honeycomb structure4. 土的物理性质干重度dry unit weight4. 土的物理性质干密度dry density4. 土的物理性质塑性指数plasticity index4. 土的物理性质含水量water content, moisture content4. 土的物理性质活性指数4. 土的物理性质级配gradation, grading4. 土的物理性质结合水bound water, combined water, held water4. 土的物理性质界限含水量Atterberg limits4. 土的物理性质颗粒级配particle size distribution of soils, mechanical composition of soil 4. 土的物理性质可塑性plasticity4. 土的物理性质孔隙比void ratio4. 土的物理性质孔隙率porosity4. 土的物理性质粒度granularity, grainness, grainage4. 土的物理性质粒组fraction, size fraction4. 土的物理性质毛细管水capillary water4. 土的物理性质密度density4. 土的物理性质密实度compactionness4. 土的物理性质年粘性土的灵敏度sensitivity of cohesive soil4. 土的物理性质平均粒径mean diameter, average grain diameter4. 土的物理性质曲率系数coefficient of curvature4. 土的物理性质三相图block diagram, skeletal diagram, three phase diagram4. 土的物理性质三相土tri-phase soil4. 土的物理性质湿陷起始应力initial collapse pressure4. 土的物理性质湿陷系数coefficient of collapsibility4. 土的物理性质缩限shrinkage limit4. 土的物理性质土的构造soil texture4. 土的物理性质土的结构soil structure4. 土的物理性质土粒相对密度specific density of solid particles4. 土的物理性质土中气air in soil4. 土的物理性质土中水water in soil4. 土的物理性质团粒aggregate, cumularpharolith4. 土的物理性质限定粒径constrained diameter4. 土的物理性质相对密度relative density, density index4. 土的物理性质相对压密度relative compaction, compacting factor, percent compaction, coefficient of compaction4. 土的物理性质絮状结构flocculent structure4. 土的物理性质压密系数coefficient of consolidation4. 土的物理性质压缩性compressibility4. 土的物理性质液限liquid limit4. 土的物理性质液性指数liquidity index4. 土的物理性质游离水（台）free water4. 土的物理性质有效粒径effective diameter, effective grain size, effective size4. 土的物理性质有效密度effective density4. 土的物理性质有效重度effective unit weight4. 土的物理性质重力密度unit weight4. 土的物理性质自由水free water, gravitational water, groundwater, phreatic water4. 土的物理性质组构fabric4. 土的物理性质最大干密度maximum dry density4. 土的物理性质最优含水量optimum water content5. 渗透性和渗流达西定律Darcy s law5. 渗透性和渗流管涌piping5. 渗透性和渗流浸润线phreatic line5. 渗透性和渗流临界水力梯度critical hydraulic gradient5. 渗透性和渗流流函数flow function5. 渗透性和渗流流土flowing soil5. 渗透性和渗流流网flow net5. 渗透性和渗流砂沸sand boiling5. 渗透性和渗流渗流seepage5. 渗透性和渗流渗流量seepage discharge5. 渗透性和渗流渗流速度seepage velocity5. 渗透性和渗流渗透力seepage force5. 渗透性和渗流渗透破坏seepage failure5. 渗透性和渗流渗透系数coefficient of permeability5. 渗透性和渗流渗透性permeability5. 渗透性和渗流势函数potential function5. 渗透性和渗流水力梯度hydraulic gradient6. 地基应力和变形变形deformation6. 地基应力和变形变形模量modulus of deformation6. 地基应力和变形泊松比Poisson s ratio6. 地基应力和变形布西涅斯克解Boussinnesq s solution6. 地基应力和变形残余变形residual deformation6. 地基应力和变形残余孔隙水压力residual pore water pressure6. 地基应力和变形超静孔隙水压力excess pore water pressure6. 地基应力和变形沉降settlement6. 地基应力和变形沉降比settlement ratio6. 地基应力和变形次固结沉降secondary consolidation settlement6. 地基应力和变形次固结系数coefficient of secondary consolidation6. 地基应力和变形地基沉降的弹性力学公式elastic formula for settlement calculation 6. 地基应力和变形分层总和法layerwise summation method6. 地基应力和变形负孔隙水压力negative pore water pressure6. 地基应力和变形附加应力superimposed stress6. 地基应力和变形割线模量secant modulus6. 地基应力和变形固结沉降consolidation settlement6. 地基应力和变形规范沉降计算法settlement calculation by specification6. 地基应力和变形回弹变形rebound deformation6. 地基应力和变形回弹模量modulus of resilience6. 地基应力和变形回弹系数coefficient of resilience6. 地基应力和变形回弹指数swelling index6. 地基应力和变形建筑物的地基变形允许值allowable settlement of building6. 地基应力和变形剪胀dilatation6. 地基应力和变形角点法corner-points method6. 地基应力和变形孔隙气压力pore air pressure6. 地基应力和变形孔隙水压力pore water pressure6. 地基应力和变形孔隙压力系数Apore pressure parameter A6. 地基应力和变形孔隙压力系数Bpore pressure parameter B6. 地基应力和变形明德林解Mindlin s solution6. 地基应力和变形纽马克感应图Newmark chart6. 地基应力和变形切线模量tangent modulus6. 地基应力和变形蠕变creep6. 地基应力和变形三向变形条件下的固结沉降three-dimensional consolidation settlement 6. 地基应力和变形瞬时沉降immediate settlement6. 地基应力和变形塑性变形plastic deformation6. 地基应力和变形谈弹性变形elastic deformation6. 地基应力和变形谈弹性模量elastic modulus6. 地基应力和变形谈弹性平衡状态state of elastic equilibrium6. 地基应力和变形体积变形模量volumetric deformation modulus6. 地基应力和变形先期固结压力preconsolidation pressure6. 地基应力和变形压缩层6. 地基应力和变形压缩模量modulus of compressibility6. 地基应力和变形压缩系数coefficient of compressibility6. 地基应力和变形压缩性compressibility6. 地基应力和变形压缩指数compression index6. 地基应力和变形有效应力effective stress6. 地基应力和变形自重应力self-weight stress6. 地基应力和变形总应力total stress approach of shear strength6. 地基应力和变形最终沉降final settlement7. 固结巴隆固结理论Barron s consolidation theory7. 固结比奥固结理论Biot s consolidation theory7. 固结超固结比over-consolidation ratio7. 固结超静孔隙水压力excess pore water pressure7. 固结次固结secondary consolidation7. 固结次压缩（台）secondary consolidatin7. 固结单向度压密（台）one-dimensional consolidation7. 固结多维固结multi-dimensional consolidation7. 固结固结consolidation7. 固结固结度degree of consolidation7. 固结固结理论theory of consolidation7. 固结固结曲线consolidation curve7. 固结固结速率rate of consolidation7. 固结固结系数coefficient of consolidation7. 固结固结压力consolidation pressure7. 固结回弹曲线rebound curve7. 固结井径比drain spacing ratio7. 固结井阻well resistance7. 固结曼代尔－克雷尔效应Mandel-Cryer effect7. 固结潜变（台）creep7. 固结砂井sand drain7. 固结砂井地基平均固结度average degree of consolidation of sand-drained ground7. 固结时间对数拟合法logrithm of time fitting method7. 固结时间因子time factor7. 固结太沙基固结理论Terzaghi s consolidation theory7. 固结太沙基－伦杜列克扩散方程Terzaghi-Rendulic diffusion equation7. 固结先期固结压力preconsolidation pressure7. 固结压密（台）consolidation7. 固结压密度（台）degree of consolidation7. 固结压缩曲线cpmpression curve7. 固结一维固结one dimensional consolidation7. 固结有效应力原理principle of effective stress7. 固结预压密压力（台）preconsolidation pressure7. 固结原始压缩曲线virgin compression curve7. 固结再压缩曲线recompression curve7. 固结主固结primary consolidation7. 固结主压密（台）primary consolidation7. 固结准固结压力pseudo-consolidation pressure7. 固结K0固结consolidation under K0 condition8. 抗剪强度安息角（台）angle of repose8. 抗剪强度不排水抗剪强度undrained shear strength8. 抗剪强度残余内摩擦角residual angle of internal friction8. 抗剪强度残余强度residual strength8. 抗剪强度长期强度long-term strength8. 抗剪强度单轴抗拉强度uniaxial tension test8. 抗剪强度动强度dynamic strength of soils8. 抗剪强度峰值强度peak strength8. 抗剪强度伏斯列夫参数Hvorslev parameter8. 抗剪强度剪切应变速率shear strain rate8. 抗剪强度抗剪强度shear strength8. 抗剪强度抗剪强度参数shear strength parameter8. 抗剪强度抗剪强度有效应力法effective stress approach of shear strength 8. 抗剪强度抗剪强度总应力法total stress approach of shear strength8. 抗剪强度库仑方程Coulomb s equation8. 抗剪强度摩尔包线Mohr s envelope8. 抗剪强度摩尔－库仑理论Mohr-Coulomb theory8. 抗剪强度内摩擦角angle of internal friction8. 抗剪强度年粘聚力cohesion8. 抗剪强度破裂角angle of rupture8. 抗剪强度破坏准则failure criterion8. 抗剪强度十字板抗剪强度vane strength8. 抗剪强度无侧限抗压强度unconfined compression strength8. 抗剪强度有效内摩擦角effective angle of internal friction8. 抗剪强度有效粘聚力effective cohesion intercept8. 抗剪强度有效应力破坏包线effective stress failure envelope8. 抗剪强度有效应力强度参数effective stress strength parameter8. 抗剪强度有效应力原理principle of effective stress8. 抗剪强度真内摩擦角true angle internal friction8. 抗剪强度真粘聚力true cohesion8. 抗剪强度总应力破坏包线total stress failure envelope8. 抗剪强度总应力强度参数total stress strength parameter9. 本构模型本构模型constitutive model9. 本构模型边界面模型boundary surface model9. 本构模型层向各向同性体模型cross anisotropic model9. 本构模型超弹性模型hyperelastic model9. 本构模型德鲁克－普拉格准则Drucker-Prager criterion9. 本构模型邓肯－张模型Duncan-Chang model9. 本构模型动剪切强度9. 本构模型非线性弹性模量nonlinear elastic model9. 本构模型盖帽模型cap model9. 本构模型刚塑性模型rigid plastic model9. 本构模型割线模量secant modulus9. 本构模型广义冯·米赛斯屈服准则extended von Mises yield criterion 9. 本构模型广义特雷斯卡屈服准则extended tresca yield criterion9. 本构模型加工软化work softening9. 本构模型加工硬化work hardening9. 本构模型加工硬化定律strain harding law9. 本构模型剑桥模型Cambridge model9. 本构模型柯西弹性模型Cauchy elastic model9. 本构模型拉特－邓肯模型Lade-Duncan model9. 本构模型拉特屈服准则Lade yield criterion9. 本构模型理想弹塑性模型ideal elastoplastic model9. 本构模型临界状态弹塑性模型critical state elastoplastic model9. 本构模型流变学模型rheological model9. 本构模型流动规则flow rule9. 本构模型摩尔－库仑屈服准则Mohr-Coulomb yield criterion9. 本构模型内蕴时间塑性模型endochronic plastic model9. 本构模型内蕴时间塑性理论endochronic theory9. 本构模型年粘弹性模型viscoelastic model9. 本构模型切线模量tangent modulus9. 本构模型清华弹塑性模型Tsinghua elastoplastic model9. 本构模型屈服面yield surface9. 本构模型沈珠江三重屈服面模型Shen Zhujiang three yield surface method 9. 本构模型双参数地基模型9. 本构模型双剪应力屈服模型twin shear stress yield criterion9. 本构模型双曲线模型hyperbolic model9. 本构模型松岗元－中井屈服准则Matsuoka-Nakai yield criterion9. 本构模型塑性形变理论9. 本构模型谈弹塑性模量矩阵elastoplastic modulus matrix9. 本构模型谈弹塑性模型elastoplastic modulus9. 本构模型谈弹塑性增量理论incremental elastoplastic theory9. 本构模型谈弹性半空间地基模型elastic half-space foundation model9. 本构模型谈弹性变形elastic deformation9. 本构模型谈弹性模量elastic modulus9. 本构模型谈弹性模型elastic model9. 本构模型魏汝龙－Khosla－Wu模型Wei Rulong-Khosla-Wu model9. 本构模型文克尔地基模型Winkler foundation model9. 本构模型修正剑桥模型modified cambridge model9. 本构模型准弹性模型hypoelastic model10. 地基承载力冲剪破坏punching shear failure10. 地基承载力次层（台）substratum10. 地基承载力地基subgrade, ground, foundation soil10. 地基承载力地基承载力bearing capacity of foundation soil10. 地基承载力地基极限承载力ultimate bearing capacity of foundation soil10. 地基承载力地基允许承载力allowable bearing capacity of foundation soil10. 地基承载力地基稳定性stability of foundation soil10. 地基承载力汉森地基承载力公式Hansen s ultimate bearing capacity formula10. 地基承载力极限平衡状态state of limit equilibrium10. 地基承载力加州承载比（美国）California Bearing Ratio10. 地基承载力局部剪切破坏local shear failure10. 地基承载力临塑荷载critical edge pressure10. 地基承载力梅耶霍夫极限承载力公式Meyerhof s ultimate bearing capacity formula 10. 地基承载力普朗特承载力理论Prandel bearing capacity theory10. 地基承载力斯肯普顿极限承载力公式Skempton s ultimate bearing capacity formula 10. 地基承载力太沙基承载力理论Terzaghi bearing capacity theory10. 地基承载力魏锡克极限承载力公式V esic s ultimate bearing capacity formula10. 地基承载力整体剪切破坏general shear failure11. 土压力被动土压力passive earth pressure11. 土压力被动土压力系数coefficient of passive earth pressure11. 土压力极限平衡状态state of limit equilibrium11. 土压力静止土压力earth pressue at rest11. 土压力静止土压力系数coefficient of earth pressur at rest11. 土压力库仑土压力理论Coulomb s earth pressure theory11. 土压力库尔曼图解法Culmannn construction11. 土压力朗肯土压力理论Rankine s earth pressure theory11. 土压力朗肯状态Rankine state11. 土压力谈弹性平衡状态state of elastic equilibrium11. 土压力土压力earth pressure11. 土压力主动土压力active earth pressure11. 土压力主动土压力系数coefficient of active earth pressure12. 土坡稳定分析安息角（台）angle of repose12. 土坡稳定分析毕肖普法Bishop method12. 土坡稳定分析边坡稳定安全系数safety factor of slope12. 土坡稳定分析不平衡推理传递法unbalanced thrust transmission method12. 土坡稳定分析费伦纽斯条分法Fellenius method of slices12. 土坡稳定分析库尔曼法Culmann method12. 土坡稳定分析摩擦圆法friction circle method12. 土坡稳定分析摩根斯坦－普拉斯法Morgenstern-Price method12. 土坡稳定分析铅直边坡的临界高度critical height of vertical slope12. 土坡稳定分析瑞典圆弧滑动法Swedish circle method12. 土坡稳定分析斯宾赛法Spencer method12. 土坡稳定分析泰勒法Taylor method12. 土坡稳定分析条分法slice method12. 土坡稳定分析土坡slope12. 土坡稳定分析土坡稳定分析slope stability analysis12. 土坡稳定分析土坡稳定极限分析法limit analysis method of slope stability 12. 土坡稳定分析土坡稳定极限平衡法limit equilibrium method of slope stability 12. 土坡稳定分析休止角angle of repose12. 土坡稳定分析扬布普遍条分法Janbu general slice method12. 土坡稳定分析圆弧分析法circular arc analysis13. 土的动力性质比阻尼容量specific gravity capacity13. 土的动力性质波的弥散特性dispersion of waves13. 土的动力性质波速法wave velocity method13. 土的动力性质材料阻尼material damping13. 土的动力性质初始液化initial liquefaction13. 土的动力性质地基固有周期natural period of soil site13. 土的动力性质动剪切模量dynamic shear modulus of soils13. 土的动力性质动力布西涅斯克解dynamic solution of Boussinesq13. 土的动力性质动力放大因素dynamic magnification factor13. 土的动力性质动力性质dynamic properties of soils13. 土的动力性质动强度dynamic strength of soils13. 土的动力性质骨架波akeleton waves in soils13. 土的动力性质几何阻尼geometric damping13. 土的动力性质抗液化强度liquefaction stress13. 土的动力性质孔隙流体波fluid wave in soil13. 土的动力性质损耗角loss angle13. 土的动力性质往返活动性reciprocating activity13. 土的动力性质无量纲频率dimensionless frequency13. 土的动力性质液化liquefaction13. 土的动力性质液化势评价evaluation of liquefaction potential13. 土的动力性质液化应力比stress ratio of liquefaction13. 土的动力性质应力波stress waves in soils13. 土的动力性质振陷dynamic settlement13. 土的动力性质阻尼damping of soil13. 土的动力性质阻尼比damping ratio14. 挡土墙挡土墙retaining wall14. 挡土墙挡土墙排水设施14. 挡土墙挡土墙稳定性stability of retaining wall14. 挡土墙垛式挡土墙14. 挡土墙扶垛式挡土墙counterfort retaining wall14. 挡土墙后垛墙（台）counterfort retaining wall14. 挡土墙基础墙foundation wall14. 挡土墙加筋土挡墙reinforced earth bulkhead14. 挡土墙锚定板挡土墙anchored plate retaining wall14. 挡土墙锚定式板桩墙anchored sheet pile wall14. 挡土墙锚杆式挡土墙anchor rod retaining wall14. 挡土墙悬壁式板桩墙cantilever sheet pile wall14. 挡土墙悬壁式挡土墙cantilever sheet pile wall14. 挡土墙重力式挡土墙gravity retaining wall15. 板桩结构物板桩sheet pile15. 板桩结构物板桩结构sheet pile structure15. 板桩结构物钢板桩steel sheet pile15. 板桩结构物钢筋混凝土板桩reinforced concrete sheet pile15. 板桩结构物钢桩steel pile15. 板桩结构物灌注桩cast-in-place pile15. 板桩结构物拉杆tie rod15. 板桩结构物锚定式板桩墙anchored sheet pile wall15. 板桩结构物锚固技术anchoring15. 板桩结构物锚座Anchorage15. 板桩结构物木板桩wooden sheet pile15. 板桩结构物木桩timber piles15. 板桩结构物悬壁式板桩墙cantilever sheet pile wall16. 基坑开挖与降水板桩围护sheet pile-braced cuts16. 基坑开挖与降水电渗法electro-osmotic drainage16. 基坑开挖与降水管涌piping16. 基坑开挖与降水基底隆起heave of base16. 基坑开挖与降水基坑降水dewatering16. 基坑开挖与降水基坑失稳instability (failure) of foundation pit16. 基坑开挖与降水基坑围护bracing of foundation pit16. 基坑开挖与降水减压井relief well16. 基坑开挖与降水降低地下水位法dewatering method16. 基坑开挖与降水井点系统well point system16. 基坑开挖与降水喷射井点eductor well point16. 基坑开挖与降水铅直边坡的临界高度critical height of vertical slope 16. 基坑开挖与降水砂沸sand boiling16. 基坑开挖与降水深井点deep well point16. 基坑开挖与降水真空井点vacuum well point16. 基坑开挖与降水支撑围护braced cuts17. 浅基础杯形基础17. 浅基础补偿性基础compensated foundation17. 浅基础持力层bearing stratum17. 浅基础次层（台）substratum17. 浅基础单独基础individual footing17. 浅基础倒梁法inverted beam method17. 浅基础刚性角pressure distribution angle of masonary foundation 17. 浅基础刚性基础rigid foundation17. 浅基础高杯口基础17. 浅基础基础埋置深度embeded depth of foundation17. 浅基础基床系数coefficient of subgrade reaction17. 浅基础基底附加应力net foundation pressure17. 浅基础交叉条形基础cross strip footing17. 浅基础接触压力contact pressure17. 浅基础静定分析法（浅基础）static analysis (shallow foundation)17. 浅基础壳体基础shell foundation17. 浅基础扩展基础spread footing17. 浅基础片筏基础mat foundation17. 浅基础浅基础shallow foundation17. 浅基础墙下条形基础17. 浅基础热摩奇金法Zemochkin s method17. 浅基础柔性基础flexible foundation17. 浅基础上部结构－基础－土共同作用分析structure- foundation-soil interactionanalysis 17. 浅基础谈弹性地基梁（板）分析analysis of beams and slabs on elastic foundation 17. 浅基础条形基础strip footing17. 浅基础下卧层substratum17. 浅基础箱形基础box foundation17. 浅基础柱下条形基础18. 深基础贝诺托灌注桩Benoto cast-in-place pile18. 深基础波动方程分析Wave equation analysis18. 深基础场铸桩（台)cast-in-place pile18. 深基础沉管灌注桩diving casting cast-in-place pile18. 深基础沉井基础open-end caisson foundation18. 深基础沉箱基础box caisson foundation18. 深基础成孔灌注同步桩synchronous pile18. 深基础承台pile caps18. 深基础充盈系数fullness coefficient18. 深基础单桩承载力bearing capacity of single pile18. 深基础单桩横向极限承载力ultimate lateral resistance of single pile18. 深基础单桩竖向抗拔极限承载力vertical ultimate uplift resistance of single pile18. 深基础单桩竖向抗压容许承载力vertical ultimate carrying capacity of single pile18. 深基础单桩竖向抗压极限承载力vertical allowable load capacity of single pile18. 深基础低桩承台low pile cap18. 深基础地下连续墙diaphgram wall18. 深基础点承桩（台）end-bearing pile18. 深基础动力打桩公式dynamic pile driving formula18. 深基础端承桩end-bearing pile18. 深基础法兰基灌注桩Franki pile18. 深基础负摩擦力negative skin friction of pile18. 深基础钢筋混凝土预制桩precast reinforced concrete piles18. 深基础钢桩steel pile18. 深基础高桩承台high-rise pile cap18. 深基础灌注桩cast-in-place pile18. 深基础横向载荷桩laterally loaded vertical piles18. 深基础护壁泥浆slurry coat method18. 深基础回转钻孔灌注桩rotatory boring cast-in-place pile18. 深基础机挖异形灌注桩18. 深基础静力压桩silent piling18. 深基础抗拔桩uplift pile18. 深基础抗滑桩anti-slide pile18. 深基础摩擦桩friction pile18. 深基础木桩timber piles18. 深基础嵌岩灌注桩piles set into rock18. 深基础群桩pile groups18. 深基础群桩效率系数efficiency factor of pile groups18. 深基础群桩效应efficiency of pile groups18. 深基础群桩竖向极限承载力vertical ultimate load capacity of pile groups 18. 深基础深基础deep foundation18. 深基础竖直群桩横向极限承载力18. 深基础无桩靴夯扩灌注桩rammed bulb ile18. 深基础旋转挤压灌注桩18. 深基础桩piles18. 深基础桩基动测技术dynamic pile test18. 深基础钻孔墩基础drilled-pier foundation18. 深基础钻孔扩底灌注桩under-reamed bored pile18. 深基础钻孔压注桩starsol enbesol pile18. 深基础最后贯入度final set19. 地基处理表层压密法surface compaction19. 地基处理超载预压surcharge preloading19. 地基处理袋装砂井sand wick19. 地基处理地工织物geofabric, geotextile19. 地基处理地基处理ground treatment, foundation treatment19. 地基处理电动化学灌浆electrochemical grouting19. 地基处理电渗法electro-osmotic drainage19. 地基处理顶升纠偏法19. 地基处理定喷directional jet grouting19. 地基处理冻土地基处理frozen foundation improvement19. 地基处理短桩处理treatment with short pile19. 地基处理堆载预压法preloading19. 地基处理粉体喷射深层搅拌法powder deep mixing method19. 地基处理复合地基composite foundation19. 地基处理干振成孔灌注桩vibratory bored pile19. 地基处理高压喷射注浆法jet grounting19. 地基处理灌浆材料injection material19. 地基处理灌浆法grouting19. 地基处理硅化法silicification19. 地基处理夯实桩compacting pile19. 地基处理化学灌浆chemical grouting19. 地基处理换填法cushion19. 地基处理灰土桩lime soil pile19. 地基处理基础加压纠偏法19. 地基处理挤密灌浆compaction grouting19. 地基处理挤密桩compaction pile, compacted column19. 地基处理挤淤法displacement method19. 地基处理加筋法reinforcement method19. 地基处理加筋土reinforced earth19. 地基处理碱液法soda solution grouting19. 地基处理浆液深层搅拌法grout deep mixing method19. 地基处理降低地下水位法dewatering method19. 地基处理纠偏技术19. 地基处理坑式托换pit underpinning19. 地基处理冷热处理法freezing and heating19. 地基处理锚固技术anchoring19. 地基处理锚杆静压桩托换anchor pile underpinning19. 地基处理排水固结法consolidation19. 地基处理膨胀土地基处理expansive foundation treatment19. 地基处理劈裂灌浆fracture grouting19. 地基处理浅层处理shallow treatment19. 地基处理强夯法dynamic compaction19. 地基处理人工地基artificial foundation19. 地基处理容许灌浆压力allowable grouting pressure19. 地基处理褥垫pillow19. 地基处理软土地基soft clay ground19. 地基处理砂井sand drain19. 地基处理砂井地基平均固结度average degree of consolidation of sand-drained ground 19. 地基处理砂桩sand column19. 地基处理山区地基处理foundation treatment in mountain area19. 地基处理深层搅拌法deep mixing method19. 地基处理渗入性灌浆seep-in grouting19. 地基处理湿陷性黄土地基处理collapsible loess treatment19. 地基处理石灰系深层搅拌法lime deep mixing method19. 地基处理石灰桩lime column, limepile19. 地基处理树根桩root pile19. 地基处理水泥土水泥掺合比cement mixing ratio19. 地基处理水泥系深层搅拌法cement deep mixing method19. 地基处理水平旋喷horizontal jet grouting19. 地基处理塑料排水带plastic drain19. 地基处理碎石桩gravel pile, stone pillar19. 地基处理掏土纠偏法19. 地基处理天然地基natural foundation19. 地基处理土工聚合物Geopolymer19. 地基处理土工织物geofabric, geotextile19. 地基处理土桩earth pile19. 地基处理托换技术underpinning technique19. 地基处理外掺剂additive19. 地基处理旋喷jet grouting19. 地基处理药液灌浆chemical grouting19. 地基处理预浸水法presoaking19. 地基处理预压法preloading19. 地基处理真空预压vacuum preloading19. 地基处理振冲法vibroflotation method19. 地基处理振冲密实法vibro-compaction19. 地基处理振冲碎石桩vibro replacement stone column19. 地基处理振冲置换法vibro-replacement19. 地基处理振密、挤密法vibro-densification, compacting19. 地基处理置换率（复合地基）replacement ratio19. 地基处理重锤夯实法tamping19. 地基处理桩式托换pile underpinning19. 地基处理桩土应力比stress ratio20. 动力机器基础比阻尼容量specific gravity capacity20. 动力机器基础等效集总参数法constant strain rate consolidation test20. 动力机器基础地基固有周期natural period of soil site20. 动力机器基础动基床反力法dynamic subgrade reaction method20. 动力机器基础动力放大因素dynamic magnification factor20. 动力机器基础隔振isolation20. 动力机器基础基础振动foundation vibration20. 动力机器基础基础振动半空间理论elastic half-space theory of foundation vibr ation20. 动力机器基础基础振动容许振幅allowable amplitude of foundation vibration 20. 动力机器基础基础自振频率natural frequency of foundation20. 动力机器基础集总参数法lumped parameter method20. 动力机器基础吸收系数absorption coefficient20. 动力机器基础质量－弹簧－阻尼器系统mass-spring-dushpot system21. 地基基础抗震地基固有周期natural period of soil site21. 地基基础抗震地震earthquake, seism, temblor21. 地基基础抗震地震持续时间duration of earthquake21. 地基基础抗震地震等效均匀剪应力equivalent even shear stress of earthquake 21. 地基基础抗震地震反应谱earthquake response spectrum21. 地基基础抗震地震烈度earthquake intensity21. 地基基础抗震地震震级earthquake magnitude21. 地基基础抗震地震卓越周期seismic predominant period21. 地基基础抗震地震最大加速度maximum acceleration of earthquake21. 地基基础抗震动力放大因数dynamic magnification factor21. 地基基础抗震对数递减率logrithmic decrement21. 地基基础抗震刚性系数coefficient of rigidity21. 地基基础抗震吸收系数absorption coefficient22. 室内土工试验比重试验specific gravity test22. 室内土工试验变水头渗透试验falling head permeability test22. 室内土工试验不固结不排水试验unconsolidated-undrained triaxial test22. 室内土工试验常规固结试验routine consolidation test22. 室内土工试验常水头渗透试验constant head permeability test22. 室内土工试验单剪仪simple shear apparatus22. 室内土工试验单轴拉伸试验uniaxial tensile test22. 室内土工试验等速加荷固结试验constant loading rate consolidatin test22. 室内土工试验等梯度固结试验constant gradient consolidation test22. 室内土工试验等应变速率固结试验equivalent lumped parameter method22. 室内土工试验反复直剪强度试验repeated direct shear test22. 室内土工试验反压饱和法back pressure saturation method22. 室内土工试验高压固结试验high pressure consolidation test22. 室内土工试验各向不等压固结不排水试验consoidated anisotropically undrained test 22. 室内土工试验各向不等压固结排水试验consolidated anisotropically drained test 22. 室内土工试验共振柱试验resonant column test22. 室内土工试验固结不排水试验consolidated undrained triaxial test22. 室内土工试验固结快剪试验consolidated quick direct shear test22. 室内土工试验固结排水试验consolidated drained triaxial test22. 室内土工试验固结试验consolidation test22. 室内土工试验含水量试验water content test22. 室内土工试验环剪试验ring shear test22. 室内土工试验黄土湿陷试验loess collapsibility test22. 室内土工试验击实试验22. 室内土工试验界限含水量试验Atterberg limits test22. 室内土工试验卡萨格兰德法Casagrande s method22. 室内土工试验颗粒分析试验grain size analysis test22. 室内土工试验孔隙水压力消散试验pore pressure dissipation test22. 室内土工试验快剪试验quick direct shear test22. 室内土工试验快速固结试验fast consolidation test22. 室内土工试验离心模型试验centrifugal model test22. 室内土工试验连续加荷固结试验continual loading test22. 室内土工试验慢剪试验consolidated drained direct shear test22. 室内土工试验毛细管上升高度试验capillary rise test22. 室内土工试验密度试验density test22. 室内土工试验扭剪仪torsion shear apparatus22. 室内土工试验膨胀率试验swelling rate test22. 室内土工试验平面应变仪plane strain apparatus22. 室内土工试验三轴伸长试验triaxial extension test22. 室内土工试验三轴压缩试验triaxial compression test22. 室内土工试验砂的相对密实度试验sand relative density test22. 室内土工试验筛分析sieve analysis。