道路与桥梁专业外文翻译中英对照

一，Careers in Civil EngineeringEngineering is a profession, which means that an engineer must have a specialized university education. Many government jurisdictions also have licensing procedures which require engineering graduates to pass an examination, similar to the examination for a lawyer, before they can actively start on their careers.土木工程是一个意味着工程师必须要经过专门的大学教育的职业。

许多政府管辖部门还有（一套）认证程序，这一程序要求工科毕业生在他们能积极地开始（从事）他们的事业之前，通过（认证）考试, 这种考试类似于律师职业里的律师考试一样。

In the university, mathematics, physics, and chemistry are heavily emphasized throughout the engineering curriculum, but particularly in the first two or three years. Mathematic is very important in all branches of engineering, so it is greatly stressed. Today, mathematics includes courses in statistics, which deals with gathering, classifying, and using numerical data, or pieces of information. An important aspect of statistical mathematics is probability, which deals with what may happen when there are different factors, or variables, that can change the results of a problem. Before the construction of a bridge is undertaken, for example, a statistical study is made of the amount of traffic the bridge will be expected to handle. In the design of the bridge, variable such as water pressure on the foundation, impact, the effects of different wind forces, and many other factors must be considered.大学里, 工科课程中着重强调数学、物理, 和化学,尤其在开始的二到三年。

Aabsolutedatum 绝对基面abutment 桥台abutment pier 制动墩accelerationlane 加速车道accidentalload 偶然荷载accommodation lane 专用车道acousticbarrier 隔音墙acting circles of blasting 爆破作用圈additionalstake 加桩adjacent curve in onedirection 同向曲线admixture 外加剂admixture 反坡安全线aerial photogrammetry 航空摄影测量aerophoto base 航摄基线aerophoto interpretation 航摄像片判读ageing 老化aggregate 集料( 骨料 )airhardining 气硬性alignment design (城市道路) 平面设计，线形设计alignment element 线形要素alligatorcracking 路面龟裂allowable rebounddeflection 容许 (回弹)弯沉alternativeline 比较线anchored bulkhead abutment 锚锭板式桥台anchored bulkhead abutment 锚锭板式挡土墙anchored retaining wall 锚杆式挡土墙anionic emulsified bitumen 阴离子乳化沥青ann l average dailytraffic 年平均日交通量anti-creep heap ( 厂矿道路) 挡车堆anti-dizzling screen 防炫屏( 遮光栅 ) antiskid heap 厂矿道路 ) 防滑堆(approach span 引桥aquitard 隔水层archbridge 拱桥archculvert 拱涵arch ring 拱圈arterialhighway 干线公路arterial road ( 厂内 ) 主干道，( 城市 ) 主干路asphalt distributor 沥青洒布车asphalt mixing plant 沥青混合料拌和设备asphaltremixer 沥青混合料摊铺机asphaltremixer 复拌沥青混合料摊铺机asphalt sand 沥青砂asphalt sprayer 沥青洒布机 asphaltic bitumen 地沥青 at-grade intersection 平面交叉 auxiliary lane附加车道average consistency (of soil) 土的 ) 平均稠度 average gradient 平均纵坡 aximuth angle 方位角Bbalance weight retaining wall 衡重式挡土墙 base course 基层 base line 基线basic traffic capacity 基本通行能力 beam bridge 梁桥beam level deflectometer 杠杆弯沉仪 bearing 支座 bearing angle 象限角 bearing pile 支承桩 bearing platform 承台 bed course 垫层 bench mark 水准点 benched s grade 台口式路基bending strength 抗弯强度 Benkelman beam 杠杆弯沉仪 (贝克曼弯沉仪 )bent cap 盖梁 berm 护坡道 binder 结合料 binder course 联结层 bitumen 沥青bitumen ( 沥青混合料 ) 抽提仪 bitumen-aggregate ratio 油石比 bituminous concrete pavement 沥青混凝土混合料bituminous concrete mixture沥青混凝土路面bituminous concrete moxture沥青碎石混合料bituminous macadam pavement 沥青碎石路面bituminous moxture 沥青混合料 bituminous pavement 沥青路面 bituminous penetration pavement 沥青贯入式路面biuminous surfacetreatment ( 沥青 ) 表面处治blasting crater 爆破漏斗blastion for loosening rock 松动爆破blasting for throwing rock 抛掷爆破blasting procedure 土石方爆破bleeding 泛油blind ditch 盲沟blind drain 盲沟block pavement 块料路面block stone 块石blow up 拱胀boring 钻探boring log ( 道路) 地质柱状图boring machine 钻孔机borrow earth 借土borrow pit 取土坑boundary frame on crossing 道口限界架boundary frame on road 道路限界架boundary line of road constr tion 道路建筑限界bowstring archbridge 系杆拱桥box culvert 箱涵branch pipe of inlet 雨水口支管branch road( 城市 ) 支路， (厂内 )支道bridge 桥梁bridge decking 桥面系bridge deckpavement 桥面铺装bridge floor expantion and contraction installationtraction installationbridge gerder erection equpment 架桥机桥面伸缩装置bridge on slope 坡桥bridge site 桥位bridle road 驮道broken chainage 断链broken stone 碎石broken back curve 断背曲线buried abutment 埋置式桥台bus bay 公交( 车辆)停靠站bypass 绕行公路Ccable bent tower 索塔cable saddle 索鞍cable stayed bridge 斜拉桥( 斜张桥) Cableway erecting equipment 缆索吊装设备California bearing ratio(CBR)加州承载比(CBR)California bearing ratiotester 加州承载比(CBR) 测定仪camber cruve 路拱曲线cantilever beambridge 悬臂梁桥cantilever beambridge 悬臂式挡土墙capacity ofintersection交叉口通行能力capacity ofnetwork 路网通行能力capillarywater 毛细水carriage way 车行道(行车道 )cast-in-place cantilever method 悬臂浇筑法cationic emulsifiedbitumen 阳离子乳化沥青cattle-pass 畜力车道cement concrete 水泥混凝土cemint concrete pavement 水泥混凝土混合料cement concrete pavement 水泥混凝土路面center-island 中心岛center lane 中间车道center line ofraod 道路中线center line survey 中线测量center stake 中桩central reserve 分隔带channelization 渠化交通channelization island导流岛channelized intrersection 分道转弯式交叉口chip 石屑chute 急流槽circularcurve 圆曲线circular curve 环路circular test 环道试验city road 城市道路civil engineeringfabric 土工织物classified highway 等级公路classified highway 等级道路clay-bound macadam 泥结碎石路面clearance 净空clearance above bridgefloor 桥面净空clearce of span 桥下净空climatic zoning forhighway 公路自然区划climbinglane 爬坡车道cloverleafinterchange 苜蓿叶形立体交叉coal tar 煤沥青cobble stone 卵石coefficient of scouring 冲刷系数cohesive soil 粘性土cold laid method 冷铺法cold mixing method 冷拌法cold-stretched steelbar 冷拉钢筋columnpier 柱式墩combination-type roadsystem 混合式道路系统compaction 压实compactiontest击实试验compaction testapparatus 击实仪compactness test 压实度试验composite beambridge 联合梁桥composite pipe line 综合管道( 综合管廊 ) compound curve 复曲线concave verticalcurve 凹形竖曲线concrete jointcleaner ( 水泥混凝土) 路面清缝机concrete jointsealer (水泥混凝土) 路面填缝机concrete mixingplant 水泥混凝土(混合料 )拌和设备concrete paver 水泥混凝土(混合料) 摊铺机concrete pump 水泥混凝土(混合料) 泵concrete saw ( 水泥混凝土)路面锯缝机cone penetration test 触探试验conflict point 冲突点conical slope 锥坡consistency limit (ofsoil) ( 土的 ) 稠度界限consolidated s soil 加固地基consolidation 固结constr tion byswing 转体架桥法constr tion height ofbridge 桥梁建筑高度constr tion joint 施工缝constr tionload 施工荷载constr tion survey 施工测量continuous beambridge连续梁桥contourline 等高线contractionjoint缩缝controlpoint 路线控制点converging 合流convex vertiningwall 凸形竖曲线corduroy road 木排道counterfout retainingwall 扶壁式挡土墙counterfortabutmen 扶壁式桥台countryroad乡村道路countyroad 县公路( 县道 ) ，乡道creep 徐变critical speed 临界速度cross roads 十字形交叉cross slope 横坡cross walk 人行横道cross-sectional profile 横断面图cross-sectional survey 横断面测量crown 路拱crushed stone 碎石crushing strength 压碎值culture 地物culvert 涵洞curb 路缘石curb side strip 路侧带curve length 曲线长curve widening 平曲线加宽curved bridge 弯桥cut 挖方cut corner for sight line ( 路口) 截角cut-fill transitioncut-fill transitioncutting 路堑土方调配土方调配图cycle path 自行车道cycle track 自行车道Ddeceleration lane 减速车道deck bridge 上承式桥deflection angle 偏角deflection test 弯沉试验degree of compaction 压实度delay 延误density of road network 道路（网）密度depth of tunnel 隧道埋深design elevation of s grade 路基设计高程design freqncy ( 排水) 设计重现期design hourly volume 设计小时交通量design of evevation ( 城市道路) 竖向设计design of vertical alignment 纵断面设计design speed 计算行车速度( 设计车速)design traffic capacity 设计通行能力design vehicle 设计车辆flood freq design water level 设计水位desiged dldvation 设计高程designedncy 设计洪水频率deslicking treatment 防滑处理Deval abrasion testion machine 狄法尔磨耗试验机（双筒式磨耗试验机）diamondinterchange 菱形立体交叉differential photo 微分法测图directionangle 方向角directionalinterchange定向式立体交叉diverging分流dowel bar 传力杆drainopening 泄水口drainage by pumpingstation ( 立体交叉) 泵站排水drainageditch 排水沟dressed stone 料石drop water 跌水dryconcrtet 干硬性混凝土d tility (of bitumen) (沥青 ) 延度dtilometer( 沥青 ) 延度仪dummy joint 假缝dynamicconsolidation 强夯法Eeconomic speed 经济车速econnomical haulingdistance 土方调配经济运距element support 构件支撑elevation 高程(标高 )embankment 路堤emergency parking strip 紧急停车带emulsifiedbitumen乳化沥青erecting byfloating浮运架桥法erection by longit inal pulling method 纵向拖拉法erection byprotrusion 悬臂拼装法erection withcableway缆索吊装法evaporationpond 蒸发池expansionbearing 活动支座expansivesoil 膨胀土expansionjoint 胀缝expressway ( 城市 ) 快速路external distance 外( 矢 ) 距Ffabricatedbridge 装配式桥fabricated steel bridge 装拆式钢桥factories and mines road 厂矿道路factory external transportation line 对外道路factory-in road 厂内道路factory-outroad 厂外道路fast lane 内侧车道faulting of slab ends 错台feeder highway 支线公路ferry 渡口fibrousconcrete 纤维混凝土field of vision 视野fill 填方filled spandrel arch bridge 实腹拱桥finalsurvey 竣工测量fineness 细度fineness modulus 细度模数fixed bearing 固定支座flare wing wall abutment 八字形桥台flared intersection 拓宽路口式交叉口flash 闪点flash point tester (open cup method) 闪点仪( 开口杯式 )flexible pavement 柔性路面flexiblepier 柔性墩floor system 桥面系flush curb 平缘石foot way 人行道ford 过水路面forest highway 林区公路forestroad 林区道路foundatio n 基础free style road system 自由式道路系统free way 高速公路free-flowspeed 自由车速freezeroad 冻板道路freezing and thawing test 冻融试验frostboiling 翻浆frozensoil 冻土full depth asphalt pavement 全厚式沥青 ( 混凝土 ) 路面functionplanting 功能栽植Ggeneral scour under bridge opening 桥下一般冲刷geological section ( 道路) 地质剖面图geotextile 土工织物gradation 级配gradation of stone ( 路用 ) 石料等级grade change point 变坡点grade compensation 纵坡折减grade crossing 平面交叉grade length limitation 坡长限制grade of side slope 边坡坡度grade separation 简单立体交叉grade-separated junction 立体交叉graded aggregate pavement 级配路面brader 平地机grain composition 颗粒组成granular material 粒料gravel 砾石gravity pier (abutment) 重力式墩、台gravity retaining wall 重力式挡土墙green belt 绿化带gridiron road system 棋盘式道路系统ground control-point survey 地面控制点测量ground elevation 地面高程ground stereophoto grammetry 地面立体摄影测量g rd post 标柱g rd rail 护栏g rd wall 护墙gully 雨水口gutter 街沟( 偏沟)gutter apron 平石gutter drainage 渠道排水Hhalf-through bridge 中承式桥hard shoulder 硬路肩hardening 硬化hardness 硬度haul road 运材道路heavy maintenance 大修hectometer stake 百米桩hedge 绿篱height of cut and fill at ceneter stake 中桩填挖高度high strength bolt 高强螺栓high type pavement 高级路面highway 公路highway landscape design 公路景观设计hill-side line 山坡线( 山腰线)hilly terrain 重丘区horizontal alignment 平面线形horizontal curve 平曲线hot laid method 热铺法hot mixing method 热拌法hot stability (of bitumen) ( 沥青) 热稳性hydraulic computation 水力计算hydraulic computation 水硬性Iimaginary intersectionpoint 虚交点immersed tunnellingmethod 沉埋法inbound traffic 入境交通incremental launching method 顶推法industrialdistrict road 工业区道路industrial solidwaste ( 路用 ) 工业废渣industrial waste base course 工业废渣基层inlet 雨水口inlet s mergedculvert 半压力式涵洞inlet uns merged culvert 无压力式涵洞inorganic binder 无机结合料instrumentstation测站intensity ofrainstorm 暴雨强度interceptingdetch截水沟interchange 互通式立体交叉interchange woth special bicycle track 分隔式立体交叉intermediate maintenance 中修intermediate type pavement 中级路面intersection ( 平面) 交叉口intersection angle 交叉角，转角intersection entrance 交叉口进口intersection exit 交叉口出口intersection plan 交叉口平面图intersection point 交点intersection with widened corners 加宽转角式交叉口Jjack-in method 顶入法Kkilometer stone 里程碑Lland slide 坍方lane 车道lane-width 车道宽度lateral clear distance of curve ( 平曲线 ) 横净距lay-by 紧急停车带level of service 道路服务水平leveling course 整平层leveling survey 水准测量light-weight concrete 轻质混凝土lighting facilitiesof road 道路照明设施lime pile 石灰桩line development 展线linking-up road 联络线，连接道路liquid asphalticbitumen 液体沥青liquidlimit 液限livingfence 绿篱load 荷载loading berm 反压护道lading combinations 荷载组合loading plate 承载板loading plate test 承载板试验local scour near pier 桥墩局部冲刷local traffic 境内交通location of line location survey 定线定测lock bolt support with shotcrete 喷锚支护loess 黄土longit inal beam 纵梁longit inal gradient 纵坡longit inal joint 纵缝loop ramp 环形匝道Los Angeles abrasion testing machine 洛杉矶磨耗试验机Mmachine ( 搁板式磨耗试验机)low rype pavement 低级路面main beam 主梁main bridge 主桥maintenance 养护maintenance period 大中修周期manhole 检查井marginal strip 路缘带marshall stability apparatus 马歇尔稳定度仪Marshall stability test 马歇尔试验masonry bridge 圬工桥maximum ann l hourly volume 年最大小时交通量maximum dry unit weight ( 标准 ) 最大干密度maximum longit inal gradient 最大纵坡mine tunnelling method 矿山法mineral aggregate 矿料mineral powder 矿粉mini-roundabout 微形环交minimum height of fill ( 路基) 最小填土高度minimum longit inal gradient 最小纵坡minimum radius of horizontal curve 最小平曲线半径minimum turning radius 汽车最小转弯半径mixed traffic 混合交通mixing method 拌和法mixture 混合料model split 交通方式划分modulus of elasticity 弹性模量modulus of resilience 回弹模量modulus ratio 模量比monthly average daily traffic 月平均日交通量motor way 高速公路mountainous terrain 山岭区movable bridge 开启桥m 淤泥multiple-legintersection多岔交叉mational trunk highway 国家干线公路( 国道)matural asphalt 天然沥青Nnatural scour 自然演变冲刷natural s soil 天然地基navigable water level 通航水位nearside lane 外侧车道net-shaped cracking 路面网裂New Austrian Tunnelling Method 新奥法Oobservation point 测点one-way ramp 单向匝道open cut method 明挖法open cut tunnel 明洞open spandrel arch bridge 空腹拱桥opencast mine road 露天矿山道路operating speed 运行速度optimum gradation 最佳级配optimum moisture content 最佳含水量optimum speed 临界速度organicbinder 有机结合料origin-destinationst y 起迄点调查outboundtraffic 出境交通outlet s mergedculvert 压力式涵洞outlet inlet main road 城市出入干道overall speed 区间速度overlay of pavement 罩面overpass grade separation 上跨铁路立体交叉overtaking lane 超车车道overtaking sight distance 超车视距Ppaper location 纸上定线paraffin contenttest 含蜡量试验parentsoil 原状土parking lane 停车车道parkinglot 停车场parking station 公交 ( 车辆 ) 停靠站part out-part fill s grade 半填半挖式路基pass 垭口passing bay 错车道patrol maintenance 巡回养护paved crossing 道口铺面pavement 路面pavement depression 路面沉陷pavementrecapping 路面翻修pavement slabpumping 路面板唧泥pavement spalling 路面碎裂pavementstrengthening 路面补强pavement str turelayer 路面结构层pavemill 路面铣削机(刨路机 )peak hourlyvolume 高峰小时交通量pedestrianovercrossing 人行天桥pedestrian underpass 人行地道penetration macadam with coatedchips 上拌下贯式(沥青) chips 路面penetration method 贯入法penetration test apparatus 长杆贯入仪penetration (of bitumen) ( 沥青 ) 针入度penetrometer ( 沥青 ) 针入度仪periodicalmaintenance 定期养护permafros t 多年冻土permanent load 永久荷载perviousness test 透水度试验petroleum asphalticbitumen 石油沥青photo index 像片索引图( 镶辑复照图) photo mosaic 像片镶嵌图photogrammetry 摄影测量photographic map 影像地图pier 桥墩pile and plank retainingwall 柱板式挡土墙pile bent pier 排架桩墩piledriver 打桩机pipeculvert管涵pipe drainage 管道排水pit test 坑探pitching method 铺砌法plain stage ofslope 边坡平台plainterrain 平原区plan view( 路线 ) 平面图plane design( 城市道路 ) 平面设计plane sketch( 道路 ) 平面示意图planimetric photo 综合法测图plant mixingmethod 厂拌法plasticityindex 塑限plasticityindex 塑性指数poisson'sratio 泊松比polished stone va l石料磨光值pontoon bridge 浮桥porosity 空隙率portable pendulum tester 摆式仪possible trafficcapacity可能通行能力post-tensioningmethod 后张法pot holes 路面坑槽preliminary survey 初测preloadingmethod 预压法prestressed concrete 预应力混凝土prestressed concrete bridge 预应力混凝土桥prestresed steel bar drawing jack 张拉预应力钢筋千斤顶pretensioningmethod 先张法prime coat 透层prod tive arterialroad 生产干线prod tive branch road 生产支线profiledesign 纵断面设计profilometer 路面平整度测定仪proportioning of cementconcrete 水泥混凝土配合比protection forest fire-proof road 护林防火道路provincial trunkhighway 省干线公路 ( 省道 ) Rrailroad grade crossing ( 铁路) 道口ramp 匝道rebound deflection 回弹弯沉reclaimed asphalt mixture 再生沥青混合料reclaimed bituminous pavement 再生沥青路面reconnaissance 踏勘red clay 红粘土reference stake 护桩reflection crack 反射裂缝refuge island 安全岛regulating str ture 调治构造物reinforced concrete 钢筋混凝土reinforced concrete bridge 钢筋混凝土桥reinforced concrete pavement reinforced earth retaining wall 钢筋混凝土路面加筋土挡土墙relative moisture content (of soil) ( 土的) 相对含水量relief road 辅道residential street 居住区道路resultant gradient 合成坡度retaining wall 挡土墙revelling of pavement 路面松散reverse curve 反向曲线reverse loop 回头曲线ridge crossing line 越岭线ridge line 山脊线right bridge 正交桥right bridge 正桥rigid frame bridge 刚构桥rigid pavement 刚性路面rigid-type base 刚性基层ring and radial road system 环形辐射式道路系统ripper 松土机riprap 抛石road 道路road alignment 道路线形road appearance 路容road area percitizen ( 城市 ) 人均道路面积road area ratio ( 城市 ) 道路面积率road axis 道路轴线road bed 路床road bitumen 路用沥青roadcondition 路况road conditionsurvey 路况调查road crossing ( 平面) 交叉口 road crossingdesign 交叉口设计road engineering 道路工程road feasibility st y ( 道路工程 ) 可行性研究road improvement 改善工程road intersection 道路交叉 ( 路线交叉 )road mixing method 路拌法road network 道路网road networkplanning道路网规划 road planting 道路绿化road project ( 道路工程) 方案图 road trough 路槽road way 路幅rock breaker 凿岩机rock filled gabion石笼roller 压路机rolled cementconcrete 碾压式水泥混凝土rolling terrain 微丘区rotary interchange 环形立体交叉rotary intersection 环形交叉roundabout 环形交叉route development 展线rout of road 道路路线route selection 选线routine maintenance 小修保养r ble 片石running speed 行驶速度rural road 郊区道路Ssaddle back 垭口safety belt 安全带safety fence 防护栅salty soil 盐渍土sand 砂sanddrain (sand pile) 砂井sand gravel 砂砾sand hazard 沙害sand mat of s grade 排水砂垫层sand patch test 铺砂试验sand pile 砂桩sand protection facilities 防沙设施sand ratio 砂率sand sweeping 回砂sand sweeping equipment 回砂机sandy soil 砂性土saturated soil 饱和土scraper 铲运机seal coat 封层secondary trunk road ( 厂内) 次干道，( 城市) 次干路seepage well 渗水井segregation 离析semi-rigid type base 半刚性基层separate facilties 分隔设施separator 分隔带sheep-foot roll 羊足压路机 ( 羊足碾)shelter belt 护路林shield 盾构( 盾构挖掘机)shield tunnelling method 盾构法shoulder 路肩shrinkagelimit 缩限side ditch 边沟side slope 边坡side walk 人行道sieveanalysis 筛分sightdistance 视距sight distance ofintersection 路口视距sight line 视线sighttriangle视距三角形silty soil 粉性土simple supported beam bridge 简支梁桥singl direction thrustedpier 单向推力墩single-sizeaggregat 同粒径集料siphonculvert 倒虹涵skewbridge 斜交桥skewbridge 斜桥skid road 集材道路slab bridge 板桥slabculvert 盖板涵slab staggering 错位slide 滑坡slope protection 护坡slump 坍落度snowhazard雪害snowplough 除雪机snow protection facilities 防雪设施softground 软弱地基soft soil软土softening point tester (ring ball) ( 沥青 ) 软化点议仪method ( 环—球法 )softening point (of bitumen) 沥青）软化点sol ility (of bitumen) ( 沥青 ) 溶解度space headway 车头间距space mean speed 空间平均速度span 跨径span by span method 移动支架逐跨施工法spandrelarch 腹拱spandrel str ture 拱上结构specialvehicle特种车辆speed-change lane 变速车道splittingtest 劈裂试验spot speed 点速度spreading in layers 层铺法springing 弹簧现象stabilizer 稳定土拌和机stabilized soil base course 稳定土基层stage for heating soil and broken rock 碎落台staggered junction 错位交叉stand axial loading 标准轴截steel bridge 钢筋冷墩机steel bridge 钢桥steel extension machine 钢筋拉伸机stiffness modulus 劲度stone coating test 石料裹覆试验stone crusher 碎石机stone spreader 碎石撒布机stopping sight distance 停车视距阻车堤stopping tr k heap (厂矿道路)街道streetstreet drainage 街道排水street planting 街道绿化street trees 行道树strengthening layer 补强层strengthening of str ture 加固stringer 纵梁striping test for aggregate 集料剥落试验str tural approach limit of tunnel 隧道建筑限界s -high type pavement 次高级路面s grade 路基s grade drainage 路基排水s mersible bridge 漫水桥s sidence 沉陷s soil 地基s str ture 下部结构super elevation 超高super elevation runoff 超高缓和段superstr ture 上部结构supported type abutment 支撑式桥台surface course 面层surface evenness 路面平整度surface frostheave 路面冻胀surface permeameter 路面透水度测定仪surface roughness 路面粗糙度surface slipperinness 路面滑溜surface water 地表水surface-curvature apparatus 路面曲率半径测定仪surrounding rock 围岩suspension bridge 悬索桥swich-back curve 回头曲线TTintersection 丁字形交叉(T 形交叉) T-shaped rigid frame bridge 形刚构桥tack coat 粘层tangent length 切线长tar 焦油沥青technical standard of road 道路技术标准Telford 锥形块石Telford base( 锥形 ) 块石基层terrace 台地thermal insulationberm 保温护道thermal insulationcourse 隔温层thirtieth highest ann l hourly 年第30 位最大小时volume 交通量through bridge 下承式桥throughtraffic 过境交通tie bar 拉杆timberbridge 木桥time headway 车头时距time mean speed 时间平均速度toe of slope( 边)坡脚tongand groove joint 企口缝top of slope ( 边 ) 坡顶topographic feature 地貌topographic map 地形图topographic survey 地形测量topography 地形township road 乡公路( 乡道)traffic assignment 交通量分配traffic capacity 通行能力traffic composition 交通组成traffic density 交通密度traffic distribution 交通分布traffic flow 交通流traffic generation 交通发生traffic island 交通岛traffic mirror 道路反光镜traffic planning 道路交通规划traffic safety device 交通安全设施交通量观测站traffic sq re 交通广场traffic stream 车流traffic survey 交通调查traffic volume 交通量traffic volume observationstationtraffic volume 交通量预测traffic volume survey 交通量调查transition curve 缓和曲线transition slab at bridge head 桥头搭板transition zone of cross section 断面渐变段transition zone of curve widening 加宽缓和段transitional gradient 缓和坡段transverse beam 横梁transverse joint 横缝traverse 导线traverse survey 导线测量trencher 挖沟机triaxial test 三轴试验trip 出行trjoint 真缝trumpet interchange 喇叭形立体交叉trunk highway 干线公路truss bridge 桁架桥tunnel ( 道路) 隧道tunnel boring machine 隧道掘进机tunnel ling 衬砌tunnel portal 洞门tunnel support 隧道支撑turnaround loop 回车道，回车场turning point 转点two-way curved arch bridge 双曲拱桥two-way ramp 双向匝道type of dry and damp soil base 土基干湿类型UU-shaped abutment U 形桥台under-ground pipes comprehensive design 管线综合设计\underground water 地下水underground water level 地下水位underpass grade separation 下穿铁路立体交叉universal photo 全能法测图urban road 城市道路Vvalley line 沿溪线variableload 可变荷载vehicle stream车流vehicular gap 车( 辆)间净距verge 路肩vertical alignment 纵面线形vertical curb 立缘石(侧石)verticalcurve 竖曲线vertical profile 路线 ) 纵断面图map (viameter 路面平整度测定仪vibratory roller 振动压路机WORD格式viscosimeter ( 沥青) 粘度仪viscosity (of bitumen) ( 沥青) 粘 ( 滞 ) 度void ratio 孔隙比Wwashout 水毁waste 弃土waste bank 弃土堆water cement ratio 水灰比water content 含水量water level 水位water red ing agent 减水剂water stability 水稳性water-bound macadam 水结碎石路面wearing course 磨耗层weaving 交织weaving point 交织点weaving section 交织路段wheel tracking test 车辙试验width of s grade 路基宽度workability 和易性YY intersection 形交叉专业资料整理。

道路桥梁英语词汇absolute datum 绝对基面abutment 桥台abutment pier 制动墩acceleration lane 加速车道accidental load 偶然荷载accommodation lane 专用车道acoustic barrier 隔音墙acting circles of blasting 爆破作用圈additional stake 加桩adjacent curve in one direction 同向曲线admixture 外加剂admixture 反坡安全线aerial photogrammetry 航空摄影测量aerophoto base 航摄基线aerophoto interpretation 航摄像片判读ageing 老化aggregate 集料 ( 骨料 )air hardining 气硬性alignment design ( 城市道路 ) 平面设计，线形设计alignment element 线形要素alligator cracking 路面龟裂allowable rebound deflection 容许 ( 回弹 ) 弯沉alternative line 比较线anchored bulkhead abutment 锚锭板式桥台anchored bulkhead abutment 锚锭板式挡土墙anchored retaining wall 锚杆式挡土墙anionic emulsified bitumen 阴离子乳化沥青ann l average daily traffic 年平均日交通量anti-creep heap ( 厂矿道路 ) 挡车堆anti-dizzling screen 防炫屏 ( 遮光栅 )antiskid heap ( 厂矿道路 ) 防滑堆approach span 引桥aquitard 隔水层arch bridge 拱桥arch culvert 拱涵arch ring 拱圈arterial highway 干线公路arterial road ( 厂内 ) 主干道， ( 城市 ) 主干路asphalt distributor 沥青洒布车asphalt mixing plant 沥青混合料拌和设备asphalt remixer 沥青混合料摊铺机asphalt remixer 复拌沥青混合料摊铺机asphalt sand 沥青砂asphalt sprayer 沥青洒布机asphaltic bitumen 地沥青at-grade intersection 平面交叉auxiliary lane 附加车道average consistency (of soil) 土的 ) 平均稠度average gradient 平均纵坡aximuth angle 方位角Bbalance weight retaining wall 衡重式挡土墙base course 基层base line 基线basic traffic capacity 基本通行能力beam bridge 梁桥beam level deflectometer 杠杆弯沉仪bearing 支座bearing angle 象限角bearing pile 支承桩bearing platform 承台bed course 垫层bench mark 水准点benched s grade 台口式路基bending strength 抗弯强度Benkelman beam 杠杆弯沉仪 ( 贝克曼弯沉仪 ) bent cap 盖梁berm 护坡道binder 结合料binder course 联结层bitumen 沥青bitumen ( 沥青混合料 ) 抽提仪bitumen-aggregate ratio 油石比bituminous concrete pavement 沥青混凝土混合料bituminous concrete mixture 沥青混凝土路面bituminous concrete moxture 沥青碎石混合料bituminous macadam pavement 沥青碎石路面bituminous moxture 沥青混合料bituminous pavement 沥青路面bituminous penetration pavement 沥青贯入式路面biuminous surface treatment ( 沥青 ) 表面处治blasting crater 爆破漏斗blastion for loosening rock 松动爆破blasting for throwing rock 抛掷爆破blasting procedure 土石方爆破bleeding 泛油blind ditch 盲沟blind drain 盲沟block pavement 块料路面block stone 块石blow up 拱胀boring 钻探boring log ( 道路 ) 地质柱状图boring machine 钻孔机borrow earth 借土borrow pit 取土坑boundary frame on crossing 道口限界架boundary frame on road 道路限界架boundary line of road constr tion 道路建筑限界bowstring arch bridge 系杆拱桥box culvert 箱涵branch pipe of inlet 雨水口支管branch road ( 城市 ) 支路， ( 厂内 ) 支道bridge 桥梁bridge decking 桥面系bridge deck pavement 桥面铺装bridge floor expantion and contraction installation traction installation 桥面伸缩装置bridge gerder erection equpment 架桥机bridge on slope 坡桥bridge site 桥位bridle road 驮道broken chainage 断链broken stone 碎石broken back curve 断背曲线buried abutment 埋置式桥台bus bay 公交 ( 车辆 ) 停靠站bypass 绕行公路Ccable bent tower 索塔cable saddle 索鞍cable stayed bridge 斜拉桥 ( 斜张桥 )Cableway erecting equipment 缆索吊装设备California bearing ratio (CBR) 加州承载比 (CBR)California bearing ratio tester 加州承载比 (CBR) 测定仪camber cruve 路拱曲线cantilever beam bridge 悬臂梁桥cantilever beam bridge 悬臂式挡土墙capacity of intersection 交叉口通行能力capacity of network 路网通行能力capillary water 毛细水carriage way 车行道 ( 行车道 )cast-in-place cantilever method 悬臂浇筑法cationic emulsified bitumen 阳离子乳化沥青cattle-pass 畜力车道cement concrete 水泥混凝土cemint concrete pavement 水泥混凝土混合料cement concrete pavement 水泥混凝土路面center-island 中心岛center lane 中间车道center line of raod 道路中线center line survey 中线测量center stake 中桩central reserve 分隔带channelization 渠化交通channelization island 导流岛channelized intrersection 分道转弯式交叉口chip 石屑chute 急流槽circular curve 圆曲线circular curve 环路circular test 环道试验city road 城市道路civil engineering fabric 土工织物classified highway 等级公路classified highway 等级道路clay-bound macadam 泥结碎石路面clearance 净空clearance above bridge floor 桥面净空clearce of span 桥下净空climatic zoning for highway 公路自然区划climbing lane 爬坡车道cloverleaf interchange 苜蓿叶形立体交叉coal tar 煤沥青cobble stone 卵石coefficient of scouring 冲刷系数cohesive soil 粘性土cold laid method 冷铺法cold mixing method 冷拌法cold-stretched steel bar 冷拉钢筋column pier 柱式墩combination-type road system 混合式道路系统compaction 压实compaction test 击实试验compaction test apparatus 击实仪compactness test 压实度试验composite beam bridge 联合梁桥composite pipe line 综合管道 ( 综合管廊 )compound curve 复曲线concave vertical curve 凹形竖曲线concrete joint cleaner ( 水泥混凝土 ) 路面清缝机concrete joint sealer ( 水泥混凝土 ) 路面填缝机concrete mixing plant 水泥混凝土( 混合料 ) 拌和设备concrete paver 水泥混凝土 ( 混合料 ) 摊铺机concrete pump 水泥混凝土 ( 混合料 ) 泵concrete saw ( 水泥混凝土 ) 路面锯缝机cone penetration test 触探试验conflict point 冲突点conical slope 锥坡consistency limit (of soil) ( 土的 ) 稠度界限consolidated s soil 加固地基consolidation 固结constr tion by swing 转体架桥法constr tion height of bridge 桥梁建筑高度constr tion joint 施工缝constr tion load 施工荷载constr tion survey 施工测量continuous beam bridge 连续梁桥contourline 等高线contraction joint 缩缝control point 路线控制点converging 合流convex vertining wall 凸形竖曲线corduroy road 木排道counterfout retaining wall 扶壁式挡土墙counterfort abutmen 扶壁式桥台country road 乡村道路county road 县公路 ( 县道 ) ，乡道creep 徐变critical speed 临界速度cross roads 十字形交叉cross slope 横坡cross walk 人行横道cross-sectional profile 横断面图cross-sectional survey 横断面测量crown 路拱crushed stone 碎石crushing strength 压碎值culture 地物culvert 涵洞curb 路缘石curb side strip 路侧带curve length 曲线长curve widening 平曲线加宽curved bridge 弯桥cut 挖方cut corner for sight line ( 路口 ) 截角cut-fill transition 土方调配cut-fill transition 土方调配图cutting 路堑cycle path 自行车道cycle track 自行车道Ddeceleration lane 减速车道deck bridge 上承式桥deflection angle 偏角deflection test 弯沉试验degree of compaction 压实度delay 延误density of road network 道路（网）密度depth of tunnel 隧道埋深design elevation of s grade 路基设计高程design freqncy ( 排水 ) 设计重现期design hourly volume 设计小时交通量design of evevation ( 城市道路 ) 竖向设计design of vertical alignment 纵断面设计design speed 计算行车速度 ( 设计车速 )design traffic capacity 设计通行能力design vehicle 设计车辆design water level 设计水位desiged dldvation 设计高程designed flood freqncy 设计洪水频率deslicking treatment 防滑处理Deval abrasion testion machine 狄法尔磨耗试验机（双筒式磨耗试验机）diamond interchange 菱形立体交叉differential photo 微分法测图direction angle 方向角directional interchange 定向式立体交叉diverging 分流dowel bar 传力杆drain opening 泄水口drainage by pumping station ( 立体交叉 ) 泵站排水drainage ditch 排水沟dressed stone 料石drop water 跌水dry concrtet 干硬性混凝土d tility (of bitumen) ( 沥青 ) 延度d tilometer ( 沥青 ) 延度仪dummy joint 假缝dynamic consolidation 强夯法Eeconomic speed 经济车速econnomical hauling distance 土方调配经济运距element support 构件支撑elevation 高程 ( 标高 )embankment 路堤emergency parking strip 紧急停车带emulsified bitumen 乳化沥青erecting by floating 浮运架桥法erection by longit inal pulling method 纵向拖拉法erection by protrusion 悬臂拼装法erection with cableway 缆索吊装法evaporation pond 蒸发池expansion bearing 活动支座expansive soil 膨胀土expansion joint 胀缝expressway ( 城市 ) 快速路external distance 外 ( 矢 ) 距Ffabricated bridge 装配式桥fabricated steel bridge 装拆式钢桥factories and mines road 厂矿道路factory external transportation line 对外道路factory-in road 厂内道路factory-out road 厂外道路fast lane 内侧车道faulting of slab ends 错台feeder highway 支线公路ferry 渡口fibrous concrete 纤维混凝土field of vision 视野fill 填方filled spandrel arch bridge 实腹拱桥final survey 竣工测量fineness 细度fineness modulus 细度模数fixed bearing 固定支座flare wing wall abutment 八字形桥台flared intersection 拓宽路口式交叉口flash 闪点flash point tester (open cup method) 闪点仪( 开口杯式) flexible pavement 柔性路面flexible pier 柔性墩floor system 桥面系flush curb 平缘石foot way 人行道ford 过水路面forest highway 林区公路forest road 林区道路foundation 基础free style road system 自由式道路系统free way 高速公路free-flow speed 自由车速freeze road 冻板道路freezing and thawing test 冻融试验frost boiling 翻浆frozen soil 冻土full depth asphalt pavement 全厚式沥青 ( 混凝土 ) 路面function planting 功能栽植Ggeneral scour under bridge opening 桥下一般冲刷geological section ( 道路 ) 地质剖面图geotextile 土工织物gradation 级配gradation of stone ( 路用 ) 石料等级grade change point 变坡点grade compensation 纵坡折减grade crossing 平面交叉grade length limitation 坡长限制grade of side slope 边坡坡度grade separation 简单立体交叉grade-separated junction 立体交叉graded aggregate pavement 级配路面brader 平地机grain composition 颗粒组成granular material 粒料gravel 砾石gravity pier (abutment) 重力式墩、台gravity retaining wall 重力式挡土墙green belt 绿化带gridiron road system 棋盘式道路系统ground control-point survey 地面控制点测量ground elevation 地面高程ground stereophoto grammetry 地面立体摄影测量g rd post 标柱g rd rail 护栏g rd wall 护墙gully 雨水口gutter 街沟 ( 偏沟 )gutter apron 平石gutter drainage 渠道排水Hhalf-through bridge 中承式桥hard shoulder 硬路肩hardening 硬化hardness 硬度haul road 运材道路heavy maintenance 大修hectometer stake 百米桩hedge 绿篱height of cut and fill at ceneter stake 中桩填挖高度high strength bolt 高强螺栓high type pavement 高级路面highway 公路highway landscape design 公路景观设计hill-side line 山坡线 ( 山腰线 )hilly terrain 重丘区horizontal alignment 平面线形horizontal curve 平曲线hot laid method 热铺法hot mixing method 热拌法hot stability (of bitumen) ( 沥青 ) 热稳性hydraulic computation 水力计算hydraulic computation 水硬性Iimaginary intersection point 虚交点immersed tunnelling method 沉埋法inbound traffic 入境交通incremental launching method 顶推法industrial district road 工业区道路industrial solid waste ( 路用 ) 工业废渣industrial waste base course 工业废渣基层inlet 雨水口inlet s merged culvert 半压力式涵洞inlet uns merged culvert 无压力式涵洞inorganic binder 无机结合料instrument station 测站intensity of rainstorm 暴雨强度intercepting detch 截水沟interchange 互通式立体交叉interchange woth special bicycle track 分隔式立体交叉intermediate maintenance 中修intermediate type pavement 中级路面intersection ( 平面 ) 交叉口intersection angle 交叉角，转角intersection entrance 交叉口进口intersection exit 交叉口出口intersection plan 交叉口平面图intersection point 交点intersection with widened corners 加宽转角式交叉口Jjack-in method 顶入法Kkilometer stone 里程碑Lland slide 坍方lane 车道lane-width 车道宽度lateral clear distance of curve ( 平曲线 ) 横净距lay-by 紧急停车带level of service 道路服务水平leveling course 整平层leveling survey 水准测量light-weight concrete 轻质混凝土lighting facilities of road 道路照明设施lime pile 石灰桩line development 展线linking-up road 联络线，连接道路liquid asphaltic bitumen 液体沥青liquid limit 液限living fence 绿篱load 荷载loading berm 反压护道lading combinations 荷载组合loading plate 承载板loading plate test 承载板试验local scour near pier 桥墩局部冲刷local traffic 境内交通location of line 定线location survey 定测lock bolt support with shotcrete 喷锚支护loess 黄土longit inal beam 纵梁longit inal gradient 纵坡longit inal joint 纵缝loop ramp 环形匝道。

道路工程术语标准第条道路road供各种车辆和行人等通行的工程设施。

按其使用特点分为公路、城市道路、厂矿道路、林区道路及乡村道路等。

第条公路highway联结城市、乡村，主要供汽车行驶的具备一定技术条件和设施的道路。

第条城市道路city road；urban road在城市范围内，供车辆及行人通行的具备一定技术条件和设施的道路。

第条厂矿道路factories and mines road主要供工厂、矿山运输车辆通行的道路。

第条林区道路forest road建在林区，主要供各种林业运输工具通行的道路。

第条乡村道路country road建在乡村、农场，主要供行人及各种农业运输工具通行的道路。

第条道路工程road engineering以道路为对象而进展的规划、勘测、设计、施工等技术活动的全过程及其所从事的工程实体。

第条道路网road network在一定区域内，由各种道路组成的相互联络、交织成网状分布的道路系统。

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在城市范围内由各种道路组成的称城市道路网。

第条道路(网)密度density of road network在一定区域内，道路网的总里程与该区域面积的比值。

第条道路技术标准technical standard of road根据道路的性质、交通量及其所处地点的自然条件，确定道路应到达的各项技术指标和规定。

第条设计车辆design vehicle道路设计所采用的汽车车型，以其外廓尺寸、重量、运转特性等特征作为道路设计的依据。

第条特种车辆special vehicle外廓尺寸、重量等方面超过设计车辆限界的及特殊用途的车辆。

第条计算行车速度(设计车速) design speed道路几何设计(包括平曲线半径、纵坡、视距等)所采用的行车速度。

第条道路建筑限界boundary line of road construction为保证车辆和行人正常通行，规定在道路的一定宽度和高度范围内不允许有任何设施及障碍物侵入的空间范围。

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附录一英文翻译原文AUTOMATIC DEFLECTION AND TEMPERATURE MONITORING OFA BALANCED CANTILEVER CONCRETE BRIDGEby Olivier BURDET, Ph.D.Swiss Federal Institute of Technology, Lausanne, SwitzerlandInstitute of Reinforced and Prestressed Concrete SUMMARYThere is a need for reliable monitoring systems to follow the evolution of the behavior of structures over time.Deflections and rotations are values that reflect the overall structure behavior. This paper presents an innovative approach to the measurement of long-term deformations of bridges by use of inclinometers. High precision electronic inclinometers can be used to follow effectively long-term rotations without disruption of the traffic. In addition to their accuracy, these instruments have proven to be sufficiently stable over time and reliable for field conditions. The Mentue bridges are twin 565 m long box-girder post-tensioned concrete highway bridges under construction in Switzerland. The bridges are built by the balanced cantilever method over a deep valley. The piers are 100 m high and the main span is 150 m. A centralized data acquisition system was installed in one bridge during its construction in 1997. Every minute, the system records the rotation and temperature at a number of measuring points. The simultaneous measurement of rotations and concrete temperature at several locations gives a clear idea of the movements induced by thermal conditions. The system will be used in combination with a hydrostatic leveling setup to follow the long-term behavior of the bridge. Preliminary results show that the system performs reliably and that the accuracy of the sensors is excellent.Comparison of the evolution of rotations and temperature indicate that the structure responds to changes in air temperature rather quickly.1.BACKGROUNDAll over the world, the number of structures in service keeps increasing. With the development of traffic and the increased dependence on reliable transportation, it is becoming more and more necessary to foresee and anticipate the deterioration of structures. In particular,for structures that are part of major transportation systems, rehabilitation works need to be carefully planned in order to minimize disruptions of traffic. Automatic monitoring of structures is thus rapidly developing.Long-term monitoring of bridges is an important part of this overall effort to attempt to minimize both the impact and the cost of maintenance and rehabilitation work of major structures. By knowing the rate of deterioration of a given structure, the engineer is able to anticipate and adequately define the timing of required interventions. Conversely, interventions can be delayed until the condition of the structure requires them, without reducing the overall safety of the structure.The paper presents an innovative approach to the measurement of long-term bridge deformations. The use of high precision inclinometers permits an effective, accurate and unobtrusive following of the long-term rotations. The measurements can be performed under traffic conditions. Simultaneous measurement of the temperature at several locations gives a clear idea of the movements induced by thermal conditions and those induced by creep and shrinkage. The system presented is operational since August 1997 in the Mentue bridge, currently under construction in Switzerland. The structure has a main span of 150 m and piers 100 m high.2. LONG-TERM MONITORING OF BRIDGESAs part of its research and service activities within the Swiss Federal Institute of Technology in Lausanne (EPFL), IBAP - Reinforced and Prestressed Concrete has been involved in the monitoring of long-time deformations of bridges and other structures for over twenty-five years [1, 2, 3, 4]. In the past, IBAP has developed a system for the measurement of long-term deformations using hydrostatic leveling [5, 6]. This system has been in successful service in ten bridges in Switzerland for approximately ten years [5,7]. The system is robust, reliable and sufficiently accurate, but it requires human intervention for each measurement, and is not well suited for automatic data acquisition. One additional disadvantage of this system is that it is only easily applicable to box girder bridges with an accessible box.Occasional continuous measurements over periods of 24 hours have shown that the amplitude of daily movements is significant, usually amounting to several millimeters over a couple of hours. This is exemplified in figure 1, where measurements of the twin Lutrive bridges, taken over a period of several years before and after they were strengthened by post-tensioning, areshown along with measurements performed over a period of 24 hours. The scatter observed in the data is primarily caused by thermal effects on the bridges. In the case of these box-girder bridges built by the balanced cantilever method, with a main span of 143.5 m, the amplitude of deformations on a sunny day is of the same order of magnitude than the long term deformation over several years.Instantaneous measurements, as those made by hydrostatic leveling, are not necessarily representative of the mean position of the bridge. This occurs because the position of the bridge at the time of the measurement is influenced by the temperature history over the past several hours and days. Even if every care was taken to perform the measurements early in the morning and at the same period every year, it took a relatively long time before it was realized that the retrofit performed on the Lutrive bridges in 1988 by additional post-tensioning [3, 7,11] had not had the same effect on both of them.Figure 1: Long-term deflections of the Lutrive bridges, compared to deflections measured in a 24-hour period Automatic data acquisition, allowing frequent measurements to be performed at an acceptable cost, is thus highly desirable. A study of possible solutions including laser-based leveling, fiber optics sensors and GPS-positioning was performed, with the conclusion that, provided that their long-term stability can be demonstrated, current types of electronic inclinometers are suitable for automatic measurements of rotations in existing bridges [8].3. MENTUE BRIDGESThe Mentue bridges are twin box-girder bridges that will carry the future A1 motorway from Lausanne to Bern. Each bridge, similar in design, has an overall length of approximately 565 m, and a width of 13.46 m, designed to carry two lanes of traffic and an emergency lane. The bridges cross a deep valley with steep sides (fig. 2). The balanced cantilever design results from a bridge competition. The 100 m high concrete piers were built using climbing formwork, after which the construction of the balanced cantilever started (fig. 3).4. INCLINOMETERSStarting in 1995, IBAP initiated a research project with the goal of investigating the feasibility of a measurement system using inclinometers. Preliminary results indicated that inclinometers offer several advantages for the automatic monitoring of structures. Table 1 summarizes the main properties of the inclinometers selected for this study.One interesting property of measuring a structure’s rotations, is that, for a given ratio of maximum deflection to span length, the maximum rotation is essentially independent from its static system [8]. Since maximal allowable values of about 1/1,000 for long-term deflections under permanent loads are generally accepted values worldwide, developments made for box-girder bridges with long spans, as is the case for this research, are applicable to other bridges, for instance bridges with shorter spans and other types of cross-sections. This is significant because of the need to monitor smaller spans which constitute the majority of all bridges.The selected inclinometers are of type Wyler Zerotronic ±1°[9]. Their accuracy is 1 microradian (μrad), which corresponds to a rotation of one millimeter per kilometer, a very small value. For an intermediate span of a continuous beam with a constant depth, a mid-span deflection of 1/20,000 would induce a maximum rotation of about 150 μrad, or 0.15 milliradians (mrad).One potential problem with electronic instruments is that their measurements may drift overtime. To quantify and control this problem, a mechanical device was designed allowing the inclinometers to be precisely rotated of 180° in an horizontal plane (fig. 4). The drift of each inclinometer can be very simply obtained by comparing the values obtained in the initial and rotated position with previously obtained values. So far, it has been observed that the type of inclinometer used in this project is not very sensitive to drifting.5. INSTRUMENTATION OF THE MENTUE BRIDGESBecause a number of bridges built by the balanced cantilever method have shown an unsatisfactory behavior in service [2, 7,10], it was decided to carefully monitor the evolution of the deformations of the Mentue bridges. These bridges were designed taking into consideration recent recommendations for the choice of the amount of posttensioning [7,10,13]. Monitoring starting during the construction in 1997 and will be pursued after the bridges are opened to traffic in 2001. Deflection monitoring includes topographic leveling by the highway authorities, an hydrostatic leveling system over the entire length of both bridges and a network of inclinometers in the main span of the North bridge. Data collection iscoordinated by the engineer of record, to facilitate comparison of measured values. The information gained from these observations will be used to further enhance the design criteria for that type of bridge, especially with regard to the amount of post-tensioning [7, 10, 11, 12, 13].The automatic monitoring system is driven by a data acquisition program that gathers and stores the data. This system is able to control various types of sensors simultaneously, at the present time inclinometers and thermal sensors. The computer program driving all the instrumentation offers a flexible framework, allowing the later addition of new sensors or data acquisition systems. The use of the development environment LabView [14] allowed to leverage the large user base in the field of laboratory instrumentation and data analysis. The data acquisition system runs on a rather modest computer, with an Intel 486/66 Mhz processor, 16 MB of memory and a 500 MB hard disk, running Windows NT. All sensor data are gathered once per minute and stored in compressed form on the hard disk. The system is located in the box-girder on top of pier 3 (fig. 5). It can withstand severe weather conditions and will restart itself automatically after a power outage, which happened frequently during construction.6. SENSORSFigure 5(a) shows the location of the inclinometers in the main span of the North bridge. The sensors are placed at the axis of the supports (①an d⑤), at 1/4 and 3/4 (③an d④) of the span and at 1/8 of the span for②. In the cross section, the sensors are located on the North web, at a height corresponding to the center of gravity of the section (fig.5a). The sensors are all connected by a single RS-485 cable to the central data acquisition system located in the vicinity of inclinometer ①. Monitoring of the bridge started already during its construction. Inclinometers①,②and③were installed before the span was completed. The resulting measurement were difficult to interpret, however, because of the wide variations of angles induced by the various stages of this particular method of construction.The deflected shape will be determined by integrating the measured rotations along the length of the bridge (fig.5b). Although this integration is in principle straightforward, it has been shown [8, 16] that the type of loading and possible measurement errors need to be carefully taken into account.Thermal sensors were embedded in concrete so that temperature effects could be taken into account for the adjustment of the geometry of the formwork for subsequent casts. Figure 6 shows the layout of thermal sensors in the main span. The measurement sections are located at the same sections than the inclinometers (fig. 5). All sensors were placed in the formwork before concreting and were operational as soon as the formwork was removed, which was required for the needs of the construction. In each section, seven of the nine thermal sensor (indicated in solid black in fig. 6) are now automatically measured by the central data acquisition system.7. RESULTSFigure 7 shows the results of inclinometry measurements performed from the end ofSeptember to the third week of November 1997. All inclinometers performed well during that period. Occasional interruptions of measurement, as observed for example in early October are due to interruption of power to the system during construction operations. The overall symmetry of results from inclinometers seem to indicate that the instruments drift is not significant for that time period. The maximum amplitude of bridge deflection during the observed period, estimated on the basis of the inclinometers results, is around 40 mm. More accurate values will be computed when the method of determination ofdeflections will have been further calibrated with other measurements. Several periods of increase, respectively decrease, of deflections over several days can be observed in the graph. This further illustrates the need for continuous deformation monitoring to account for such effects. The measurement period was .busy. in terms of construction, and included the following operations: the final concrete pours in that span, horizontal jacking of the bridge to compensate some pier eccentricities, as well as the stressing of the continuity post-tensioning, and the de-tensioning of the guy cables (fig. 3). As a consequence, the interpretation of these measurements is quite difficult. It is expected that further measurements, made after the completion of the bridge, will be simpler to interpret.Figure 8 shows a detail of the measurements made in November, while figure.9 shows temperature measurements at the top and bottom of the section at mid-span made during that same period. It is clear that the measured deflections correspond to changes in the temperature. The temperature at the bottom of the section follows closely variations of the air temperature(measured in the shade near the north web of the girder). On the other hand, the temperature at the top of the cross section is less subject to rapid variations. This may be due to the high elevation of the bridge above ground, and also to the fact that, during the measuring period, there was little direct sunshine on the deck. The temperature gradient between top and bottom of the cross section has a direct relationship with short-term variations. It does not, however, appear to be related to the general tendency to decrease in rotations observed in fig. 8.8. FUTURE DEVELOPMENTSFuture developments will include algorithms to reconstruct deflections from measured rotations. To enhance the accuracy of the reconstruction of deflections, a 3D finite element model of the entire structure is in preparation [15]. This model will be used to identify the influence on rotations of various phenomena, such as creep of the piers and girder, differential settlements, horizontal and vertical temperature gradients or traffic loads.Much work will be devoted to the interpretation of the data gathered in the Mentue bridge. The final part of the research project work will focus on two aspects: understanding the very complex behavior of the structure, and determining the most important parameters, to allow a simple and effective monitoring of the bridges deflections.Finally, the research report will propose guidelines for determination of deflections from measured rotations and practical recommendations for the implementation of measurement systems using inclinometers. It is expected that within the coming year new sites will be equipped with inclinometers. Experiences made by using inclinometers to measure deflections during loading tests [16, 17] have shown that the method is very flexible and competitive with other high-tech methods.As an extension to the current research project, an innovative system for the measurement of bridge joint movement is being developed. This system integrates easily with the existing monitoring system, because it also uses inclinometers, although from a slightly different type.9. CONCLUSIONSAn innovative measurement system for deformations of structures using high precision inclinometers has been developed. This system combines a high accuracy with a relatively simple implementation. Preliminary results are very encouraging and indicate that the use of inclinometers to monitor bridge deformations is a feasible and offers advantages. The system is reliable, does not obstruct construction work or traffic and is very easily installed. Simultaneous temperature measurements have confirmed the importance of temperature variations on the behavior of structural concrete bridges.10. REFERENCES[1] ANDREY D., Maintenance des ouvrages d’art: méthodologie de surveillance, PhD Dissertation Nr 679, EPFL, Lausanne, Switzerland, 1987.[2] BURDET O., Load Testing and Monitoring of Swiss Bridges, CEB Information Bulletin Nr 219, Safety and Performance Concepts, Lausanne, Switzerland, 1993.[3] BURDET O., Critères pour le choix de la quantitéde précontrainte découlant de l.observation de ponts existants, CUST-COS 96, Clermont-Ferrand, France, 1996.[4] HASSAN M., BURDET O., FAVRE R., Combination of Ultrasonic Measurements and Load Tests in Bridge Evaluation, 5th International Conference on Structural Faults and Repair, Edinburgh, Scotland, UK, 1993.[5] FAVRE R., CHARIF H., MARKEY I., Observation à long terme de la déformation des ponts, Mandat de Recherche de l’OFR 86/88, Final Report, EPFL, Lausanne, Switzerland, 1990.[6] FAVRE R., MARKEY I., Long-term Monitoring of Bridge Deformation, NATO Research Workshop, Bridge Evaluation, Repair and Rehabilitation, NATO ASI series E: vol. 187, pp. 85-100, Baltimore, USA, 1990.[7] FAVRE R., BURDET O. et al., Enseignements tirés d’essais de charge et d’observations à long terme pour l’évaluation des ponts et le choix de la précontrainte, OFR Report, 83/90, Zürich, Switzerland, 1995.[8] DAVERIO R., Mesures des déformations des ponts par un système d’inclinométrie,Rapport de maîtrise EPFL-IBAP, Lausanne, Switzerland, 1995.[9] WYLER AG., Technical specifications for Zerotronic Inclinometers, Winterthur, Switzerland, 1996.[10] FAVRE R., MARKEY I., Generalization of the Load Balancing Method, 12th FIP Congress, Prestressed Concrete in Switzerland, pp. 32-37, Washington, USA, 1994.[11] FAVRE R., BURDET O., CHARIF H., Critères pour le choix d’une précontrainte: application au cas d’un renforcement, "Colloque International Gestion des Ouvrages d’Art: Quelle Stratégie pour Maintenir et Adapter le Patrimoine, pp. 197-208, Paris, France, 1994. [12] FAVRE R., BURDET O., Wahl einer geeigneten Vorspannung, Beton- und Stahlbetonbau, Beton- und Stahlbetonbau, 92/3, 67, Germany, 1997.[13] FAVRE R., BURDET O., Choix d’une quantité appropriée de précontrain te, SIA D0 129, Zürich, Switzerland, 1996.[14] NATIONAL INSTRUMENTS, LabView User.s Manual, Austin, USA, 1996.[15] BOUBERGUIG A., ROSSIER S., FAVRE R. et al, Calcul non linéaire du béton arméet précontraint, Revue Français du Génie Civil, vol. 1 n° 3, Hermes, Paris, France, 1997. [16] FEST E., Système de mesure par inclinométrie: développement d’un algorithme de calcul des flèches, Mémoire de maîtrise de DEA, Lausanne / Paris, Switzerland / France, 1997.[17] PERREGAUX N. et al., Vertical Displacement of Bridges using the SOFO System: a Fiber Optic Monitoring Method for Structures, 12th ASCE Engineering Mechanics Conference, San Diego, USA, to be published,1998.译文平衡悬臂施工混凝土桥挠度和温度的自动监测作者Olivier BURDET博士瑞士联邦理工学院，洛桑，瑞士钢筋和预应力混凝土研究所概要：我们想要跟踪结构行为随时间的演化，需要一种可靠的监测系统。

桥梁bridge公路干道highway工程工程学engineering公路工程highway engineering路基roadbase路面pavement构造物建造构成制造construct施工（名）construction试验室laboratory现场检测field test（名）试验检验（不）进行试验experiment 试验检测测量test质量上流社会的quality合格，取得资格qualify材料material沥青柏油以沥青铺（一般指沥青路）asphalt 沥青（指原材料）bitumen沥青的bituminous沥青混合料bituminous mixture混凝土concrete钢筋混凝土RC (reinforced concrete)信誉信用贷款credit进度快慢tempo计划plan评定evaluation检查（名）检验inspection标准水准规格标准的合格的standard技术性的工业的technical技术技巧技术的工艺的专门的technic水泥cement碎石路碎石路macadam砂砾碎石砂砾层gravel钢筋reinforcing steel bar或reinfored steel石石头石场石的石制的stone检查员inspector测量（名）measuring测量（及）检测（及）勘测测绘（名）survey 设备仪器装置device申请application铺路工人paver经理manager加强reinforce（被加强的reinforced ）sign 签字署名通知list 表名册目录列举tabulation 制表列表表格mapping 绘图制图camera 照相机photo 照片给。

拍照拍照lime 石灰petrol 汽油diesel-oil 柴油planer 计划者planed 有计划的根据计划的pile 柱桩把桩打入用桩支撑weld 焊接焊牢焊接点welder 焊接者焊工laborer 劳动者劳工辅助工manpower 人力劳动力人力资源雇佣使用利用employ职业租用受雇employment项目条款item关税税款税impostresign 放弃辞去辞职document 公文文件证件time limit from project 工期weighbridge 地磅台秤transbit 经纬仪mention 提到说起表扬career 职业经历skill 技术技能trade 行业商业owe 欠债organization 组织机构团体traffic 交通交往通行交易买卖spend 预算花钱浪费interest 股息股份兴趣cost 费用成本花费wage 薪水报酬earning 工资收入利润cash 现金现款把...兑现tax 税负担向...纳税deficit 赤字不足额业主owner（北美用）、employer（英语国用）发展商（房屋等业主）client 或developer承包商contractor总承包商prime contractor或general contractor 分承包商nominated contractor专业承包商specialist contractor咨询公司consulting firm 或consultants咨询工程师consulting engineer建筑师architect建筑工程经理constraction manager项目经理program manager材料供应商supplier建筑经济学contraction economics亚洲开发银行asian development bank世界银行集团world bank group学会institute协会association组织结构organizational styucture基础设施infrastructure环境environment质量管理体系qulity management system 质量方针quality policy质量目标quality objective职能，函数，职务function计量的metrological鉴定qualification评审review效率efficiency验证verification顾客,消费者customer过程process产品product项目,预计的，计划的project程序procedure特性characteristic记录record检验inspection文件document信息information能力capabitily 满意satisfaction投标邀请书invitation for bids公开招标unlimited competitive open biding 投标者须知instruction to bidders银行保函bank guarantee担保公司security company支付保函payment guarantee资质说明statement of qualification单位成本cost per unit成本计划cost plan成本价price cost业主要求client´s requirements投标书tender 或bid 或proposal 合同条件condition of contract合同协议书agreement图纸drawings工程量表bill of quantities投标保证bid security保价offer开标tender 或bid评标bid evaluation施工项目work items总价合同lump sum contract专题报告subjective report审核audit 审核员auditor测量控制measurement control测量设备measureing equipment技术专家technical expert习惯，惯例custom选择selection确定，决定definition合格conformity不合格nonconformity缺陷defect预防措施preventive action纠正措施corrective action返工rework降级regrade返修repair报废serap让步concession放行release。

Unit 1 Highway Introduction公路简介(1) Road classification道路分类Road路,道路,公路, highway公路;干道, freeway高速公路;高速干道, expressway高速公路, street街,街道,(2) Road concept道路概念Road layout道路布局,planning 城市规划,土地规划, spacing 间隔, network网状物;网状系统, location位置;场所,所在地, terrain 地形;地势, drainage排水系统,排水设备;下水道, survey 测量,勘测,测绘(3) Road structure道路结构Alignment线型surface面,表面, subgrade路基,地基curvature弯曲, (几何)曲率, gradient 坡度,倾斜度, ditch沟;壕沟,水道,渠道, turnout产量,产额,4) Materials材料Gravel 砂砾,碎石,石子dirt污物;烂泥;灰尘,泥土, soil土,泥土,土壤, asphalt沥青;柏油, cement水泥, concrete 混凝土的, 具体的Rubble毛石，块石, flag薄层，薄层砂岩, stone石,石头,石块, slab石板，厚板,平板;厚片, grout薄泥浆;水泥浆,石灰浆lime石灰, cement水泥,胶结材料Bottom layer底层/intermediate layer中间层/upper layer上层/top layer顶层The Empire帝国/ the Dark Ages黑暗时代/ the Middle Ages中世纪Topograph地形图/topography地形;地形学;地形测量学/topographic地形(学)上的Turnpike收费公路/toll system收费系统/ETC –Electronic Toll Collection电子收费3. Highway types公路类型Freeway高速公路;高速干道: freeway/expressway高速公路Controlled access highway控制进入高速公路Conventional highway传统的公路Highway公路;干道: arterial highway干线公路/bypass旁道,旁路/divided highway双向分隔行驶的公路;双向之间有分车带的公路/through street通过街/through highway通过公路Parkway停车道Scenic highway风景公路Street街,街道: Cul-de-Sac street小路尽头的街道/dead end street尽头街道/frontage street正街/local street地方街道Road路,道路,公路: frontage road街面道路/local road地方道路/toll road 收费道路(bridge桥,桥梁, tunnel隧道,地道)1. Technical termsCross section横断面/ Profile 纵断面(图),剖面(图)/Plan view平面视图Longitudinal section/ Transverse section 纵/横截面Lane/ Multilane/ Multiple lanes行车/多通道/多车道Roadway巷道Through traffic/ Local traffic/ Traffic island通过交通/交通/交通岛MedianRoadbed/ curb/ shoulder路基/ 路边,(人行道旁的)镶边石,边栏/肩Right-of-way 公路用地Surface course表面过程/ Wearing course磨损过程/ Basecourse基层/Flexible pavement柔性路面/ Rigid pavement刚性路面Cohesion凝聚力/ cohesive有粘着力的;凝聚性的;有结合力的Roadbase基层/ Subbase基层Crack/ Break/ Stress/ Distress裂纹/打破/压力/痛苦,窘迫的Modulus of elasticity弹性模量2. Main points1 Geometric Cross Section on Highway几何截面的公路上1.1 Lane巷1.2 Median位数1.3 Outer separation外部分离1.4 Roadbed路基1.5 Roadside路边1.6 Roadway巷1.7 Shoulder肩1.8 Travel way旅行方式Unit 4 Asphalt and Mix Asphalt沥青和沥青混合Technical termsMix/ mixture/ compound混合/混合物/复合Petroleum石油/ crude oil原油/ gasoline汽油/ diesel柴油/ gas可燃气;煤气;沼气/ petrol汽油Bitumen沥青/ bituminous 沥青的;含沥青的/ pitch搭(帐篷);扎(营)/asphalt沥青/ asphaltum沥青/ tar焦油;柏油,沥青Hydrocarbon碳氢化合物/ hydrau液Destructive distillation破坏性蒸馏Disulfate硫酸盐Emulsify乳化/ emulsion乳胶;乳状液/Dilute稀释/ diluents稀释剂/solvent有溶解力的/ cutter stock刀具的库存Oxygen氧,氧气/ oxidize使氧化/ oxidation 氧化(作用)/ oxidization 氧化/ dioxide二氧化物/ hydrogen氢/ sulphur硫磺Waterproof不透水的,防水的Acid/ alkalis/ salt/ alcohol酸/碱/盐/酒精Liquid/ fluid/ liquor/ liquefy液/液/液/液化Semi-solid半固态/ hard-brittle solid硬脆性固体/ water-thin liquidBinder粘结剂,捆缚(或包扎)用具;绳索,带子/ sticky粘的;涂有粘胶物质的;泥泞的/ viscous粘的/ adhesive粘的;粘着的;有粘性的/ viscosity粘质;粘性Hard-surface硬地/ hard-face硬面/ hard-surfaced road坚硬的路Tack coat粘结层Cut-back asphalt稀释沥青Penetration. 针入度Versatility多样化的/ flexibility易曲性;适应性,灵活性;弹性/ durability耐久性/ ability能力;能耐/ capacity 容量, 能力,才能,接受能力,理解力/ compactability紧/Rigidity 坚硬;严格;刚直;死板/ strength强度;(酒等的)浓度/ hardness硬性;硬度/ elastic 有弹性的,有弹力的/ rigid坚硬的;坚固的;不易弯曲的/ modules of elasticity弹性模数/Cold temperature cracking低温开裂/ warm temperature rutting高温车辙Performance 履行;实行;完成,演出/ grade等级;级别;阶段/ Performance Grading性能分级(PG)Aggregate使聚集Bin (贮藏谷物等的)箱子,容器,仓/ dryer干燥剂,催干剂/ pug mill练泥机/ drum鼓状物;圆桶/ tank (贮水,油,气等的)柜,罐,箱,槽latex乳汁;乳胶sulphur extended asphalt硫磺沥青混合料sulphur dioxide二氧化硫hydrogen sulphide硫化氢1. Technical termsStability 稳定,稳定性/ stabilize 使稳定,使稳固/availability有效;有益;可利用性/ available 可利用的,可得到的/Sense 感觉;意识;观念/ sensitivity敏感性;感受性Solubility 可溶性, 溶解度/ soluble 可溶解的/ solution溶解,解答;解决(办法); /Rutting车辙/ rust锈,铁锈;(脑子等的)迟钝;(能力等的)荒废/ tar焦油;柏油,沥青Roadstone石马路By-product副产品/ coke 焦,焦炭,焦煤/ coal gas 煤气/ kerosene煤油,火油Residue 残余,剩余,滤渣,残余物/ residual残留的;剩余的/ remain剩下,余留strengthen 加强;增强;巩固/ strength 力,力量, 强度/ deformation 毁坏;变形/ deform 使变形/ reform 改革,革新,改良elastic有弹性的,有弹力的/elasticity 弹性;弹力/plastic可塑的,塑性的/plasticity 可塑性;适应性;柔软性/chipping碎屑permanent永久的,永恒的;永远的, 固定性的;常在的/ temporary 临时的;暂时的,一时的poise使平衡;使平稳/ Dyne达因/ Newton 牛顿stiffness劲度/ stiff 硬的,僵直的,僵硬的/ stress压力;紧张;应力/ strain拉紧;拖紧;伸张/ fatigue疲劳,劳累Deduce演绎,推论/ deduction 扣除,减除,推论;演绎(法/ composition 构成;构图;成分penetration test渗透测试/ softening point test软化点试验/ ring and ball test环和球试验internal diameter 内部直径/ external diameter外部直径sample样品,样本;例子,实例/ water bath水浴arbitrary反复无常的,任性多变的;独断的,专制的/ pragmatic 实际的;实干的/ pragmatism 实用主义/fluidity 流动性;流状;易变(性)/ segregate分离/ susceptibility敏感性/ susceptible 敏感的, rheology流变学/ rheological 流变rolled asphalt碾压沥青synthetic polymer 合成聚合物/ additive附加的epoxy resin环氧树脂impart to传授/ deter威慑住,吓住;使断念/ deterrent 威慑的;遏制的container terminal集装箱码头/ airfield apron机场停机坪Unit 5 Cement and Concrete水泥和混凝土A. Technical termsCement水泥,胶结材料/ chalk粉笔/ matrix矩阵Cementitious 水泥Calcium钙/ calciferous钙/Lime石灰/ limestone石灰石Silica 硅土,二氧化硅/ silicate硅酸盐Aluminium铝/ alumina氧化铝/ aluminate铝sinter烧结coarse clinker粗水泥熟料calcium aluminate 铝酸钙/ calcium silicate硅酸钙hydrate水合物/ cure治疗/Work工作/ workable 可使用的,可运转的/ workability可使用性Shrinkage收缩/ swell膨胀/ swellable膨胀/ swellability溶胀strain拉紧;拖紧;伸张grout薄泥浆;水泥浆constituent组织/ ingredient成分/ component组成Thermal热的;热量的/ thermal coefficient of expansion热膨胀热系数Compressive strength抗压强度/ tensile strength拉伸强度Compressive压缩/ tensile 拉伸Reinforce加固/ reinforcing bar钢筋/ reinforced concrete钢筋混凝土Stiffness劲度Vulnerable脆弱的Efflorescence 风化/ weather天气/ weathering气候Column 柱/ volume体积/Pressure vessel压力容器1. Technical termsPrestress预应力Crew船员Contract 合同/ contractor承包商Resident engineer驻地工程师Inspector检查员Structural member结构构件Steel strand钢绞线Bridge girder桥主梁Pier cap墩帽Deck slab甲板Pretensioning先张法/ post-tensioning后张法Precast预制/ cast -in-place就地浇Box girder箱梁Predetermined stress预定压力Stretch拉伸/ relax 放松/ shorten 缩短/ induce诱导Duct 输送管;导管/ conduit导水管,导管/ pipe管,导管,输送管/ tube 管;筒/ canal管,道/ vessel 容器Anchor 锚/ Anchorage锚具corrosion腐蚀;侵入rebar钢筋/ reel卷轴tarpaulin 防水油布condense压缩/ condensation冷凝require要求/ requisite必要/ prerequisite不可缺的;事先需要的uniform 制服/ uniformity统一vary使多样化/ various不同的;各种各样的,形形色色的/ variable / variationcamber deflection 上弯翘起挠度creep蠕变Standard Specification 标准规范/ Sampling Guide取样指南Couple一双（对）/ coupler联结器Stir搅拌/ stirrup镫筋,箍筋/Web网络/ flange凸缘/ rib肋,肋骨/ side form形式Flimsy脆弱的Galvanize strip steel 镀锌带钢/ sheet steel钢片Weld焊接;熔接;锻接，使结合/ seam 缝;接缝,缝合处,接合口;裂缝Helical螺旋/helically螺旋形的/ helicopter直升飞机Contra-flexure反向弯曲/ parabolic curve抛物曲线Uplift隆起的Wobble摆动/ twist扭转;扭弯;旋转/ spall破碎Case事实，实例，案件/ Encase装箱Increment增加;增加量;增额Slack松弛的,不紧的;不严的Pressure gauge压力表/ load cell负载单元/ stretcher担架/ dynamometer动力计;力量计;握力计Dead end 尽头;困境/ stressing end强调结束Elongation measurement伸长测量法Spliced strand拼接链Tendon筋腱、预应力钢索、钢筋束Inject注射/ eject 逐出,轰出；喷射,吐出/ injection /ejectionVent通风孔,排气孔/ slut邋遢女子/ inlet valve入口阀Unit 6 Measuring Technology and Equipment测量技术及设备A. Technical termsSurvey测量/ surveyor测量员Horizontal/vertical/plumb/slope/ plan/plane垂直/水平/垂直/倾斜/计划/飞机Elevation高程Odometer 测距仪Circumference 圆周;周长/ circle圆/ circulate流通；传播/ circular 圆Tape带子,线带Tacheometry 视距测量Stadia 视距Theodolite /transit 经纬仪Rod 测杆、标尺Telescope望远镜Topographic survey地形测量Topographic mapping地形测绘Hydrographic mapping水文图Electronic distance measurement(EDM)电子距离测量Terrain地形;地势Electromagnetic电磁(体)的Velocity/speed速度/速度Band传送带；带,细绳Infrared/ ultraviolet 红外/紫外Module/ modulate模块/调节Passive/ active/ positive/ negative 被动/主动/积极/消极Perpendicular/ parallel 垂直/平行Clinometer / abney 测斜仪/水准仪Sextant六分仪/ sexagesimal 六十分数Compass界线;周围,圆规Protractor 量角器Unit 8 The Subgrade Design and Construction Technology路基设计与施工技术A. Technical termsUppermost / top soil 最上面/土壤Embankment / excavation路堤/挖掘Fill / cut填充/切割Foundation建立,创办；基础;基本原则Organic / inorganic / organ / organization有机/无机/机关/组织Imported soil / borrow sources进口/借用来源Dense / density / condense密/密度/凝结Moisture content含水量Classification分类;分级Differ / different / difference / differentiate不同的/不同/不同/分化Cobble / gravel / sand / silt / clay卵石/砾/砂/泥/粘土Fine grained soil细粒土Dry mass / dry matter干质量／干物质Semi-weathered半风化In-situ在原处;在原位置Infer推断Resilient modulus 回弹模量Manual 手的;手工的;用手操作的；体力的Backcalculate 反演计算Overlay覆盖;铺在...上面;镀；压倒Prototype原型;标准;模范Frost冰冻/ thaw融化,融解/ heave举起,拉起, /Guide / guidance / guideline指导/指南/指导方针Expansive soil 膨胀土Bentonitic shale 膨胀土页岩Soil modifier土壤改良剂Culvert阴沟;地下电缆管道；涵洞桥Form / formulate / formulation / formula形式/制定/公式化；规划;构想/公式Title——Highway Subgrade Construction公路路基施工1. Technical termsExcavation挖掘;开凿Borrow pit借土坑Sidestep回避Borrow ditch借沟Dispose / disposal处理/处置Surplus material剩余材料Approach接近,靠近Conforming / nonconforming material合格/不合格材料Top soil / superficial coatTurf 草皮土壤/表层stake mark危险标记subgrade edge路基边缘top of slope / foot of slope顶坡/坡脚berm 便道peg 桩facility 设施silt 泥沙,淤泥/ scour 冲刷permeable有渗透性的;可穿过的/ torrent 急流earthwork 土方量over-excavation挖blast 爆炸,爆破/ fetch soil 取土transverse 横向的;横断的;横切的/ longitudinal excavation纵向开挖hauling牵引backfill 回填self-dumper 自卸车segment / segmental部分；线段side wall侧壁rock filling填石/ borrow filling 借方填筑compaction machine压实机/ rolling passes碾压cut off切断;中断provided 以...为条件;假如(that)bench长凳;长椅；法官席;法官;法庭tamp / tamper 夯具Unit 9 Pavement Design and Construction Technology 路面设计与施工技术A. Technical termsSkid / skidding 打滑/集材/拖曳Free-draining自由排水Standing water站在水Imported/treated material进口/处理材料Platform平台,台Bound/unbound material绑定/绑定材料Bitumen-based material沥青基材料Unbound granular material松散颗粒材料Ingress入口Regular / Regularity /regulate定期/规律/调节Permeable / impermeable / permeability 渗透/渗透/渗透impermeability不渗透性Texture组织,结构,质地Tolerance忍耐,忍耐力；宽容,宽大Deep-seated 根深蒂固/由来已久/顽固的Remedy / remedial / diagnose药物/治疗/诊断Propagate / Propagation / propaganda路床面宣传/传播/宣传Formation 形态,结构Deem 认为Clear-cut 轮廓鲜明的/ 清晰的/ 皆伐Onset 开始Design life设计寿命Roadwork道路工程Discount折扣;打折扣1. Technical termsMacadam碎石Impetus 动力/推动Rubble瓦砾Avenue / street / road 路/街/路Stone Matrix Asphalt (SMA) 沥青玛蹄脂碎石混合料Sprayer喷雾器Gritting machine 铺砂机Mixing plant搅拌设备Spreader散布者；(涂奶油用的)奶油刀Paver摊铺机Roller 滚动物;滚柱;滚筒;滚轴Road binder道路粘合剂Guss asphalt/concrete 摊铺地沥青/混凝土Stone quarry 采石场Wear and tear磨损Unit 10 Highway Alignment Design 公路线形设计A. Technical termsHorizontal/vertical alignment水平/垂直对齐Configuration. 结构;表面配置Safe operating speed安全操作速度Sight distance视距Highway capacity / traffic volume公路容量/交通量tangent正切;切线Superelevation 超高Rate of grade change速度等级变化Horizontal/vertical curve 水平/垂直曲线criteria(判断、批评的)标准,准则,尺度simple circular curve简单的圆曲线spiral transition curve 螺旋缓和曲线compound curve 复合曲线sharp curve锐曲线sharp/slight curvature 急剧的；锋利的;尖的/轻微弯曲swept path扫路centerline. 中线runoff决赛;终投票outline外形;轮廓minimum curve radii最小曲线半径long / length / lengthen长/长度/延长reverse curve 反向曲线superelevation transition超高过渡providing / provided (that) 假如…urban / suburban / rural城市/郊区/农村stopping/passing sight distance停止/超车视距multiple decision point多个决策点sight line瞄准线middle ordinate 中距/正矢no-passing zone禁区1. Technical termsGrade line分数线Crest/sag vertical curve嵴/凹形竖曲线Auxiliary lane辅助车道Maximum/minimum grade最高/最低等级Detrimental有害的warp使变形;使弯曲;Standpoint观点Climbing lane爬坡车道Offset补偿;抵消Ramp exit gore匝道出口高尔Headlight beam前照灯光束Encroach侵犯Ponding water积水Water table地下水位Pavement box路面盒Prism棱柱(体),角柱(体)Balance point平衡点Unit 14 Bridge Introduction 桥梁简介A. Technical termsPipeline / cycle track / pedestrian管道/周期轨道/行人Superstructure / substructure上层建筑/结构Single storey building单层建筑物Handrail扶手/ guardstone守护石Bearing 关系,关联；举止,风度;体态Plan view平面视图Pier墩,墩/abutment桥墩;桥基;桥台；毗邻;接界处/wingwall翼墙/approach接近,靠近/apron 裙板Rivetment 固结Masonry石造工程;石造建筑Retaining wall挡土墙Subsoil / Earthfill地基/填土Well foundation 井筒基础Footpath小径,(乡间)小路Parapet wall 栏杆、女儿墙Topple 倾覆Buckle 受弯屈服Arch bridge 拱桥/Three Gorge三峡/ span墩距;跨度slab bridge / 板桥T-beam T梁bow string girder bridge 弓弦梁桥suspension bridge吊桥Cable-stayed bridge斜拉桥steel bridge桥梁钢rainbow bridge彩虹桥Niagara river 尼亚加拉河Shutter百叶窗;活动遮板Head room头部空间Tie beam系梁Thrust用力推；刺；插;塞;挤出(路)Arch rib 拱肋Suspender / stay吊带/保持Tower塔;塔楼;高楼Orthotropic deck正交异性桥面Continuous girder连续梁Three-dimensional三维Stiffening girder加劲梁Transverse/longitudinal/radial bracing横向/纵向/径向支撑Moment of inertia转动惯量Truss bridge桁架桥Rigid frame bridge刚构桥Axial force轴向力Portal frame门架Clearance清除,清扫;出空；空地;空隙Spandrel braced arch 腹拱、肩拱Trussed arch桁架拱桥1. Technical termsInclement恶劣的Investigation / FBI调查/调查局Reconnaissance侦察;勘察;事先考查Feasibility可行性;可能性Right angle直角Erosion侵蚀;腐蚀Whirl / cross current / scour旋转/交叉电流/冲刷render给予,提供；使得,使成为inerodable strata地层High Flood Level(HFL)高水位Discharge排出(液体,气体等)；允许...离开;释放;解雇Waterway航道Pier thickness桥墩厚度High flood大洪水Current meter电流表Velocity rod流速杆Free board自由板Catchment area汇水盆地,汇水区域Watershed转折点;关键时刻；流域Boring 钻孔、钻探Rainfall降雨,下雨;降雨量Span墩距;跨度Culvert涵洞桥Ordinary Flood Level(OFL)普通洪水水位Low Water Level(LWL)低水位Afflux 雍水Head room头部空间Viaduct 高架桥Trestled bent栈桥弯曲Causeway 漫水桥Submersible潜水Cross-drainage横向排水Temporary/ permanent bridge临时/永久性桥Deck/through/semi-through bridge上/下/中承式桥Formation 建造、路床面Pony小马；小型的东西Headway进展Vertical lift bridge 垂直升降桥Bascule bridge开合式桥Swing bridge 旋开式桥Box/pipe/arch culvert盒/管/拱涵Cast iron铸铁;生铁Bearing capacity承载能力Earth cushion地垫Unit 15 Bridge Superstructure桥梁上部结构A. Technical termsWeight limit重量限制supplier供应者Span Arrangement跨径布置Bridge Project Manager大桥项目经理Redundant多余的,过剩的specification 规格;明细单;详细计划书Fracture critical骨折的关键Collapse倒塌；崩溃,瓦解Ability / Inability能力/能力Bolt螺栓stringer纵梁;纵桁span / single-span / multi-span跨度/单跨/连栋continuous spans连续跨越steel/concrete superstructure bridge钢筋混凝土桥梁rolled beam 辊压梁cover plate盖板welded plate girder焊接板梁box girder 箱梁truss扎,捆,缚,绑；用构架支撑cable stayed斜拉tied arch 系杆拱桥vertical/inclined web垂直/斜腹板top/bottom flange plate顶部/底部法兰盘hollow rectangular/trapezoidal section空心的矩形/梯形截面aesthetics美学torsional resistance扭阻力curved bridge曲线桥stringer / floor beam斯特林格/地板梁top/bottom chord顶部/底部和弦vertical/diagonal member垂直/斜成员lateral/sway bracing侧/斜撑axial load/force轴向载荷/力量concrete deck / steel girder混凝土桥面/钢大梁Box beam箱梁Strongback定位板Fabricate / fabrication / fabricator制造/生产/制造Balanced cantilever平衡悬臂Strain gage应变计Homogeneity / non-homogeneity 均匀/非均匀性Erratic 不定、无规律的Deflection偏斜;偏向;挠曲;偏度;挠度Mid-span / middle span / side span跨中/ 中跨/ 边跨Yield出产;结出(果实);产生(效果,收益等)Non-linearity非线性的Prescribe规定,指定Limiting strain极限应变flexure弯曲;弯曲部分,曲率neutral axis中性轴centroid距心lever arm杠杆臂resultant compression/tension/force/load由此产生的压缩/拉伸/ /载荷equivalent stress block等效应力块investigation / FBI调查/调查局under-reinforced / over-reinforced少筋/ 超筋stress intensity应力强度product产品,产物;产量;出产nomenclature学术用语;术语表Unit 16 Bridge Substructure桥梁下部结构A. Technical termsCap-and column type pier柱式墩帽Strut 支撑、加固T-type pierT型Hammerhead pier锤头码头Taper逐渐减少;逐渐变弱Rectangular/oval column矩形或椭圆柱Wall type pier墙式墩Strut and tie model拉压杆模型footing(稳固的)地位;基础single column/multi-column单/多列concentrated load集中荷载wall abutment墙台caisson 沉箱gutter 槽stepped/terraced wall configuration加强/梯田壁配置stub abutment直式桥台integral abutment整体式桥台wingwall 翼墙bridge seat 桥座backwall 背墙stem柄,把,杆approach slab 搭板contour轮廓;轮廓线；外形;结构1. Technical termsSpread footing扩展基础Cofferdam 围堰Negative skin friction / downdrag force负摩/下拉荷载力Friction pile摩擦桩End bearing pile端承桩Drilled caisson钻孔灌注Constructibility可构成性Embedment嵌入Casing箱;盒Confinement curbing约束控制Wire mesh basket 网笼Gabion 枝条筐streambed河床Unit 20 ——Construction Management and Cost Estimate 施工组织与概预算A. Technical termsSchedule 进度表Event / task / action /activity活动/任务/行动/活动Ultimate disposition 最后安排Expense / expenditure / cost费用/费用/成本Recast重铸Uncertainty不确定;不确信;易变;不可靠Production rate / productivity生产效率/生产力Gantt chart / bar chart甘特图表/图表Superimpose叠加Critical Path Method (CPM)关键路径法Critical task关键任务Logic diagram逻辑图Superintendent监督人,监管者Activity-on-the-arrow (AOA)活动箭Activity-on-the-node (AON)节点活动Dummy activity 虚拟工序Early start time / late start time开始时间早/晚开始时间Early finish time / late finish time最早完成时间/最晚完成时间Double line / bold line / color highlighted line / dash line双行线/颜色/大胆突出线/虚线Float / total float / free float 浮动/总时差/自由浮动interfering float 时差Preceding activity / succeeding activity前面的活动/后继活动Title——Construction Cost Estimate 建筑成本预算1. Technical termsBreakdown故障,损坏,崩溃;破裂Parameter / parametric参数/参数Direct/indirect cost直接/间接成本Finance / budget财务/预算Craftman钱包Scheme / schematic计划/方案Unit cost/price单位成本/价格Lump sum总金额Site visit网站访问Checklist核对用的清单Take-off脱下;移去；起飞；休假Overhead / profit / bond费用/利润/债券Escalation / contingence升级/偶然Shift 转移;替换,推卸Craft行业,职业Ownership and operating cost所有权和经营成本Dozer / bulldozer推土机/推土机Vendor 卖主Tax税;税金Markup 售价Similarity / dissimilarity相似/相异Unit 21 Tendering and Contract 投标与合同A. Technical termsTender敏感的,嫩的;柔软的；温柔的,体贴的Bid / bidder招标投标Agreement同意,一致；协定,协议Bond结合力;联结,联系Insurance保险;保险契约Makeup补足；编造；组成Owner / architect / designer / supplier / party业主/建筑师/设计师/供应商/派对Public agency / private company公共部门/私营公司Responsibility职责,任务;义务,负担General/special/technical provision一般/特殊/技术discretion判断力;辨别力；谨慎,考虑周到addenda补遗;追加；附加物Title——Types of construction contracts and bonds建筑合同和担保的类型1. Technical termsNegotiation / renegotiation协商/谈判Arctic / Antarctic北极/南极Cost plus a fixed fee成本加固定费用Cost plus a percentage成本加百分比Incentive刺激;鼓励;动机Thrifty 节约Innovation革新,改革,创新Compensate补偿,赔偿;酬报Procure 获得、实施Popular / popularity / population流行/流行/人口Recoup 收回surety / obligee担保/债权人forfeiture 没收、罚金penal / penalty刑法/处罚underwrite / constraint认购/约束default 违约option选择;选择权;选择自由lien 扣留权、留置权。