土木工程英语介绍怎么说
『壹』 “我的专业是土木工程”用英语怎么说
1.我的专业是土木工程
My major is civil engineering.
2. 我的专业是土木工程表示本科或专科。
I am majored in civil engineering for Bachelor's degree/Associated degree.
3. 我的专业是土木工程表示硕士或博士。
I am pursuing Master's degree /Doctor's degree of the major of civil engineering.
拓展内容
土木工程
civil engineering;civil works
短语
土木工程拓展署Civil Engineering and Development Department ; CEDD
土木工程技术 Civil Engineering Technology
土木工程材料Civil Engineering Materials ; Materials of Civil Engineering ; Management
『贰』 请教土木工程专业英语翻译(急急急)
石工元素和表格的结构行为
1. 介绍
在任何的材料所有的结构元素能受制于下列的行动 (隔绝或组合的演戏): (一) 弯曲; (b) 剪羊毛; (c) 折磨; (d) 扭转; 而且 (e) 伸展操作。
军队和起因于如此的行动的压迫力是压缩、紧张、修剪和扭。 (有压缩力和可拉长的军队可能是两者的轴和弯曲的.)
基本上简单的石工正在墙壁材料, 强壮的在压缩中和相对地弱的在紧张方面。 然后几乎不是令人惊讶的是,大部份的结构石工的现在申请对压力主要地是给墙壁服从的。
结构必须抵抗有压缩力的载入地板和屋顶, 一起与弯曲行动适当的转动和其他的军队。 结构的元素和结构的表格哪一个利用材料的有压缩力力量,而且减少张应力被发展 , 由于弯曲,对可容忍的极限。
增强的附加携带张应力或者预力除去他们扩充结构石工的申请。
在讨论行动在主要的石工元素上面列出了之前首先被讨论。
2. 平原石工元素
2.1 墙壁
墙壁对压缩主要服从载入哪一个可能统一地从地板被分配平板或者墙壁结束而且也可能是当地的, 或点载入从光线,等等,如果墙壁是苗条的顽强反抗可能是重要的。当墙壁受制于载入 (从风或者保有了地球) 它的侧部的时候将会受制于弯曲陪伴弯曲的压迫力和修剪的哪一个将会造成。 很重地侧面地装载了横隔膜墙壁,而且鳍也能受制于校长压迫力。 大多数的墙壁不通常服从的指示张应力和设计者而且细说避免如此的强调,但是由于侧面的风军队,外部的墙壁对弯曲的可拉长的行动在有多层结构的顶端是有义务的。 平坦的屋顶服从的转动高扬能把直接的张应力强加于石工。
2.2 专栏
专栏主要服从指示压缩而且顽强反抗。 当有过度的古怪垂直的载入或重要的侧面载入的时候, 他们也是服从的到弯曲紧张, 弯曲压缩和修剪。
2.3 拱门
拱门基本上被需要抵抗有压缩力的军队而且通常被成形接近地跟随来自载入的推进的线。 在拱门上的向下的负荷在拱门指距中产生侧面和有压缩力的推进。
这些推进一起和依次推动石工单位对抗邻接的拱门推进。 自从推进以后在拱门中不可能总是拱门里面的同中心的压迫力分配将不统一有压缩力。 设计者一定确定张应力不发生或者在可容忍的极限里面被保持。
『叁』 土木工程专业英语翻译!
不排水抗剪强度概况获得Nilcon叶片进行的试验在油箱农场中显示Fig.3.Nilcon叶片试验也进行了不同地点的邻近设施Attawapiskat 。所有Nilcon叶片数据进行编制,并以图,其中每个符号介绍了钻孔钻在不同地点的Attawapiskat包括飞机燃料储存库,驳船码头, laydown领域中显示Fig.2.As显示在图4的不排水抗剪强度的地壳层为30至150 ;和强度下降迅速,深入第一4米不排水抗剪强度的主要粉质粘土层(底层地壳层)随深度约20至30日4 〜 6米深约30到50在14至16米的深度。不同的敏感性4和8之间,这表明中期的敏感性。基于塑性指数一般10至20日, Bjerrum校正因子的外地叶片测试结果被认为是大约1.0 。
图的不排水抗剪强度概况获得Nilcon叶片进行的试验在油箱农场
图4也显示了非常低的不排水抗剪强度剖面测量的位置,钻孔的V - 03 - 395E钻孔通过三点一米厚填补丘在laydown区(见图2 ) 。强度的主要粉质粘土层在这个特别的位置范围从14日至20日,这是非常低的趋势,在其他测试地点Attawapiskat 。这种变化是在不排水强度的关注,在设计研究,并进一步调查叶片通过额外Nilcon测试,化验和调查的历史,填补了现有的投手。调查的结论表明,不排水抗剪强度异常可能是造成过度强调从填补材料,这是最初储存了约6米高。这一损失的实力证实了基础设计关注本网站。比例不排水抗剪强度(下限范围值) ,以现有的垂直有效应力,超过1.0的地壳层,不同大约从0.5到0.3的过渡区,布朗之间的地壳和灰色软,以坚定的存款(在深度4至7米) ,从0.3到0.2以下。常规oedometer (一维固结)试验进行了选定谢尔比管样品从钻孔的V - 03 - 392E和V - 03 - 393E.The解释巩固特色的摘要列于表1.Two价值的比例不排水抗剪强度的先期固结压力, (根据试验结果oedometer ,讨论以下) ,被认为是0.26和0.29 。
『肆』 土木工程常用的英语
土木工程 专业外语词汇大全
1. 综合类大地工程geotechnical engineering
1. 综合类反分析法back analysis method
1. 综合类基础工程foundation engineering
1. 综合类临界状态土力学critical state soil mechanics
1. 综合类数值岩土力学numerical geomechanics
1. 综合类土soil, earth
1. 综合类土动力学soil dynamics
1. 综合类土力学soil mechanics
1. 综合类岩土工程geotechnical engineering
1. 综合类应力路径stress path
1. 综合类应力路径法stress path method
2. 工程地质及勘察变质岩metamorphic rock
2. 工程地质及勘察标准冻深standard frost penetration
2. 工程地质及勘察冰川沉积glacial deposit
2. 工程地质及勘察冰积层(台)glacial deposit
2. 工程地质及勘察残积土eluvial soil, resial soil
2. 工程地质及勘察层理beding
2. 工程地质及勘察长石feldspar
2. 工程地质及勘察沉积岩sedimentary rock
2. 工程地质及勘察承压水confined water
2. 工程地质及勘察次生矿物secondary mineral
2. 工程地质及勘察地质年代geological age
2. 工程地质及勘察地质图geological map
2. 工程地质及勘察地下水groundwater
2. 工程地质及勘察断层fault
2. 工程地质及勘察断裂构造fracture structure
2. 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 deposit
2. 工程地质及勘察海相沉积marine deposit
2. 工程地质及勘察花岗岩granite
2. 工程地质及勘察滑坡landslide
2. 工程地质及勘察化石fossil
2. 工程地质及勘察化学沉积岩chemical sedimentary rock
2. 工程地质及勘察阶地terrace
2. 工程地质及勘察节理joint
2. 工程地质及勘察解理cleavage
2. 工程地质及勘察喀斯特karst
2. 工程地质及勘察矿物硬度hardness of minerals
2. 工程地质及勘察砾岩conglomerate
2. 工程地质及勘察流滑flow slide
2. 工程地质及勘察陆相沉积continental sedimentation
2. 工程地质及勘察泥石流mud flow, debris flow
2. 工程地质及勘察年粘土矿物clay minerals
2. 工程地质及勘察凝灰岩tuff
2. 工程地质及勘察牛轭湖ox-bow lake
2. 工程地质及勘察浅成岩hypabyssal rock
2. 工程地质及勘察潜水ground water
2. 工程地质及勘察侵入岩intrusive rock
2. 工程地质及勘察取土器geotome
2. 工程地质及勘察砂岩sandstone
2. 工程地质及勘察砂嘴spit, sand spit
2. 工程地质及勘察山岩压力rock pressure
2. 工程地质及勘察深成岩plutionic rock
2. 工程地质及勘察石灰岩limestone
2. 工程地质及勘察石英quartz
2. 工程地质及勘察松散堆积物rickle
2. 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lagoon
2. 工程地质及勘察岩爆rock burst
2. 工程地质及勘察岩层产状attitude of rock
2. 工程地质及勘察岩浆岩magmatic rock, igneous rock
2. 工程地质及勘察岩脉dike, dgke
2. 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 rock
2. 工程地质及勘察岩石结构texture of rock
2. 工程地质及勘察岩体rock mass
2. 工程地质及勘察页岩shale
2. 工程地质及勘察原生矿物primary mineral
2. 工程地质及勘察云母mica
2. 工程地质及勘察造岩矿物rock-forming mineral
2. 工程地质及勘察褶皱fold, folding
2. 工程地质及勘察钻孔柱状图bore hole columnar section
3. 土的分类饱和土saturated soil
3. 土的分类超固结土overconsolidated soil
3. 土的分类冲填土dredger fill
3. 土的分类充重塑土
3. 土的分类冻土frozen soil, tjaele
3. 土的分类非饱和土unsaturated soil
3. 土的分类分散性土dispersive soil
3. 土的分类粉土silt, mo
3. 土的分类粉质粘土silty clay
3. 土的分类高岭石kaolinite
3. 土的分类过压密土(台)overconsolidated soil
3. 土的分类红粘土red clay, adamic earth
3. 土的分类黄土loess, huangtu(China)
3. 土的分类蒙脱石montmorillonite
3. 土的分类泥炭peat, bog muck
3. 土的分类年粘土clay
3. 土的分类年粘性土cohesive soil, clayey soil
3. 土的分类膨胀土expansive soil, swelling soil
3. 土的分类欠固结粘土underconsolidated soil
3. 土的分类区域性土zonal soil
3. 土的分类人工填土fill, artificial soil
3. 土的分类软粘土soft clay, mildclay, mickle
3. 土的分类砂土sand
3. 土的分类湿陷性黄土collapsible loess, slumping loess
3. 土的分类素填土plain fill
3. 土的分类塑性图plasticity chart
3. 土的分类碎石土stone, break stone, broken stone, channery, chat, crushed sto
ne, deritus
3. 土的分类未压密土(台)underconsolidated clay
3. 土的分类无粘性土cohesionless soil, frictional soil, non-cohesive soil
3. 土的分类岩石rock
3. 土的分类伊利土illite
3. 土的分类有机质土organic soil
3. 土的分类淤泥muck, gyttja, mire, slush
3. 土的分类淤泥质土mucky soil
3. 土的分类原状土undisturbed soil
3. 土的分类杂填土miscellaneous fill
3. 土的分类正常固结土normally consolidated soil
3. 土的分类正常压密土(台)normally consolidated soil
3. 土的分类自重湿陷性黄土self weight collapse loess
4. 土的物理性质阿太堡界限Atterberg limits
4. 土的物理性质饱和度degree of saturation
4. 土的物理性质饱和密度saturated density
4. 土的物理性质饱和重度saturated unit weight
4. 土的物理性质比重specific gravity
4. 土的物理性质稠度consistency
4. 土的物理性质不均匀系数coefficient of uniformity, uniformity coefficient
4. 土的物理性质触变thixotropy
4. 土的物理性质单粒结构single-grained structure
4. 土的物理性质蜂窝结构honeycomb structure
4. 土的物理性质干重度dry unit weight
4. 土的物理性质干密度dry density
4. 土的物理性质塑性指数plasticity index
4. 土的物理性质含水量water content, moisture content
4. 土的物理性质活性指数
4. 土的物理性质级配gradation, grading
4. 土的物理性质结合水bound water, combined water, held water
4. 土的物理性质界限含水量Atterberg limits
4. 土的物理性质颗粒级配particle size distribution of soils, mechanical composi
tion of soil
4. 土的物理性质可塑性plasticity
4. 土的物理性质孔隙比void ratio
4. 土的物理性质孔隙率porosity
4. 土的物理性质粒度granularity, grainness, grainage
4. 土的物理性质粒组fraction, size fraction
4. 土的物理性质毛细管水capillary water
4. 土的物理性质密度density
4. 土的物理性质密实度compactionness
4. 土的物理性质年粘性土的灵敏度sensitivity of cohesive soil
4. 土的物理性质平均粒径mean diameter, average grain diameter
4. 土的物理性质曲率系数coefficient of curvature
4. 土的物理性质三相图block diagram, skeletal diagram, three phase diagram
4. 土的物理性质三相土tri-phase soil
4. 土的物理性质湿陷起始应力initial collapse pressure
4. 土的物理性质湿陷系数coefficient of collapsibility
4. 土的物理性质缩限shrinkage limit
4. 土的物理性质土的构造soil texture
4. 土的物理性质土的结构soil structure
4. 土的物理性质土粒相对密度specific density of solid particles
4. 土的物理性质土中气air in soil
4. 土的物理性质土中水water in soil
4. 土的物理性质团粒aggregate, cumularpharolith
4. 土的物理性质限定粒径constrained diameter
4. 土的物理性质相对密度relative density, density index
4. 土的物理性质相对压密度relative compaction, compacting factor, percent compa
ction, coefficient of compaction
4. 土的物理性质絮状结构flocculent structure
4. 土的物理性质压密系数coefficient of consolidation
4. 土的物理性质压缩性compressibility
4. 土的物理性质液限liquid limit
4. 土的物理性质液性指数liquidity index
4. 土的物理性质游离水(台)free water
4. 土的物理性质有效粒径effective diameter, effective grain size, effective siz
e
4. 土的物理性质有效密度effective density
4. 土的物理性质有效重度effective unit weight
4. 土的物理性质重力密度unit weight
4. 土的物理性质自由水free water, gravitational water, groundwater, phreatic wa
ter
4. 土的物理性质组构fabric
4. 土的物理性质最大干密度maximum dry density
4. 土的物理性质最优含水量optimum water content
5. 渗透性和渗流达西定律Darcy s law
5. 渗透性和渗流管涌piping
5. 渗透性和渗流浸润线phreatic line
5. 渗透性和渗流临界水力梯度critical hydraulic gradient
5. 渗透性和渗流流函数flow function
5. 渗透性和渗流流土flowing soil
5. 渗透性和渗流流网 flow net
5. 渗透性和渗流砂沸sand boiling
5. 渗透性和渗流渗流seepage
5. 渗透性和渗流渗流量seepage discharge
5. 渗透性和渗流渗流速度seepage velocity
5. 渗透性和渗流渗透力seepage force
5. 渗透性和渗流渗透破坏seepage failure
5. 渗透性和渗流渗透系数coefficient of permeability
5. 渗透性和渗流渗透性permeability
5. 渗透性和渗流势函数potential function
5. 渗透性和渗流水力梯度hydraulic gradient
6. 地基应力和变形变形deformation
6. 地基应力和变形变形模量molus of deformation
6. 地基应力和变形泊松比Poisson s ratio
6. 地基应力和变形布西涅斯克解Boussinnesq s solution
6. 地基应力和变形残余变形resial deformation
6. 地基应力和变形残余孔隙水压力resial pore water pressure
6. 地基应力和变形超静孔隙水压力excess pore water pressure
6. 地基应力和变形沉降settlement
6. 地基应力和变形沉降比settlement ratio
6. 地基应力和变形次固结沉降secondary consolidation settlement
6. 地基应力和变形次固结系数coefficient of secondary consolidation
6. 地基应力和变形地基沉降的弹性力学公式elastic formula for settlement calculat
ion
6. 地基应力和变形分层总和法layerwise summation method
6. 地基应力和变形负孔隙水压力negative pore water pressure
6. 地基应力和变形附加应力superimposed stress
6. 地基应力和变形割线模量secant molus
6. 地基应力和变形固结沉降consolidation settlement
6. 地基应力和变形规范沉降计算法settlement calculation by specification
6. 地基应力和变形回弹变形rebound deformation
6. 地基应力和变形回弹模量molus of resilience
6. 地基应力和变形回弹系数coefficient of resilience
6. 地基应力和变形回弹指数swelling index
6. 地基应力和变形建筑物的地基变形允许值allowable settlement of building
6. 地基应力和变形剪胀dilatation
6. 地基应力和变形角点法corner-points method
6. 地基应力和变形孔隙气压力pore air pressure
6. 地基应力和变形孔隙水压力pore water pressure
6. 地基应力和变形孔隙压力系数Apore pressure parameter A
6. 地基应力和变形孔隙压力系数Bpore pressure parameter B
6. 地基应力和变形明德林解Mindlin s solution
6. 地基应力和变形纽马克感应图Newmark chart
6. 地基应力和变形切线模量tangent molus
6. 地基应力和变形蠕变creep
6. 地基应力和变形三向变形条件下的固结沉降three-dimensional consolidation settl
ement
6. 地基应力和变形瞬时沉降immediate settlement
6. 地基应力和变形塑性变形plastic deformation
6. 地基应力和变形谈弹性变形elastic deformation
6. 地基应力和变形谈弹性模量elastic molus
6. 地基应力和变形谈弹性平衡状态state of elastic equilibrium
6. 地基应力和变形体积变形模量volumetric deformation molus
6. 地基应力和变形先期固结压力preconsolidation pressure
6. 地基应力和变形压缩层
6. 地基应力和变形压缩模量molus of compressibility
6. 地基应力和变形压缩系数coefficient of compressibility
6. 地基应力和变形压缩性compressibility
6. 地基应力和变形压缩指数compression index
6. 地基应力和变形有效应力effective stress
6. 地基应力和变形自重应力self-weight stress
6. 地基应力和变形总应力total stress approach of shear strength
6. 地基应力和变形最终沉降final settlement
7. 固结巴隆固结理论Barron s consolidation theory
7. 固结比奥固结理论Biot s consolidation theory
7. 固结超固结比over-consolidation ratio
7. 固结超静孔隙水压力excess pore water pressure
7. 固结次固结secondary consolidation
7. 固结次压缩(台)secondary consolidatin
7. 固结单向度压密(台)one-dimensional consolidation
7. 固结多维固结multi-dimensional consolidation
7. 固结固结consolidation
7. 固结固结度degree of consolidation
7. 固结固结理论theory of consolidation
7. 固结固结曲线consolidation curve
7. 固结固结速率rate of consolidation
7. 固结固结系数coefficient of consolidation
7. 固结固结压力consolidation pressure
7. 固结回弹曲线rebound curve
7. 固结井径比drain spacing ratio
7. 固结井阻well resistance
7. 固结曼代尔-克雷尔效应Mandel-Cryer effect
7. 固结潜变(台)creep
7. 固结砂井sand drain
7. 固结砂井地基平均固结度average degree of consolidation of sand-drained groun
d
7. 固结时间对数拟合法logrithm of time fitting method
7. 固结时间因子time factor
7. 固结太沙基固结理论Terzaghi s consolidation theory
7. 固结太沙基-伦杜列克扩散方程Terzaghi-Renlic diffusion equation
7. 固结先期固结压力preconsolidation pressure
7. 固结压密(台)consolidation
7. 固结压密度(台)degree of consolidation
7. 固结压缩曲线cpmpression curve
7. 固结一维固结one dimensional consolidation
7. 固结有效应力原理principle of effective stress
7. 固结预压密压力(台)preconsolidation pressure
7. 固结原始压缩曲线virgin compression curve
7. 固结再压缩曲线recompression curve
7. 固结主固结primary consolidation
7. 固结主压密(台)primary consolidation
7. 固结准固结压力pseudo-consolidation pressure
7. 固结K0固结consolidation under K0 condition
8. 抗剪强度安息角(台)angle of repose
8. 抗剪强度不排水抗剪强度undrained shear strength
8. 抗剪强度残余内摩擦角resial angle of internal friction
8. 抗剪强度残余强度resial strength
8. 抗剪强度长期强度long-term strength
8. 抗剪强度单轴抗拉强度uniaxial tension test
8. 抗剪强度动强度dynamic strength of soils
8. 抗剪强度峰值强度peak strength
8. 抗剪强度伏斯列夫参数Hvorslev parameter
8. 抗剪强度剪切应变速率shear strain rate
8. 抗剪强度抗剪强度shear strength
8. 抗剪强度抗剪强度参数shear strength parameter
8. 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 strength
8. 抗剪强度库仑方程Coulomb s equation
8. 抗剪强度摩尔包线Mohr s envelope
8. 抗剪强度摩尔-库仑理论Mohr-Coulomb theory
8. 抗剪强度内摩擦角angle of internal friction
8. 抗剪强度年粘聚力cohesion
8. 抗剪强度破裂角angle of rupture
8. 抗剪强度破坏准则failure criterion
8. 抗剪强度十字板抗剪强度vane strength
8. 抗剪强度无侧限抗压强度unconfined compression strength
8. 抗剪强度有效内摩擦角effective angle of internal friction
8. 抗剪强度有效粘聚力effective cohesion intercept
8. 抗剪强度有效应力破坏包线effective stress failure envelope
8. 抗剪强度有效应力强度参数effective stress strength parameter
8. 抗剪强度有效应力原理principle of effective stress
8. 抗剪强度真内摩擦角true angle internal friction
8. 抗剪强度真粘聚力true cohesion
8. 抗剪强度总应力破坏包线total stress failure envelope
8. 抗剪强度总应力强度参数total stress strength parameter
9. 本构模型本构模型constitutive model
9. 本构模型边界面模型boundary surface model
9. 本构模型层向各向同性体模型cross anisotropic model
9. 本构模型超弹性模型hyperelastic model
9. 本构模型德鲁克-普拉格准则Drucker-Prager criterion
9. 本构模型邓肯-张模型Duncan-Chang model
9. 本构模型动剪切强度
9. 本构模型非线性弹性模量nonlinear elastic model
9. 本构模型盖帽模型cap model
9. 本构模型刚塑性模型rigid plastic model
9. 本构模型割线模量secant molus
9. 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 criterion
9. 本构模型加工软化work softening
9. 本构模型加工硬化work hardening
9. 本构模型加工硬化定律strain harding law
9. 本构模型剑桥模型Cambridge model
9. 本构模型柯西弹性模型Cauchy elastic model
9. 本构模型拉特-邓肯模型Lade-Duncan model
9. 本构模型拉特屈服准则Lade yield criterion
9. 本构模型理想弹塑性模型ideal elastoplastic model
9. 本构模型临界状态弹塑性模型critical state elastoplastic model
9. 本构模型流变学模型rheological model
9. 本构模型流动规则flow rule
9. 本构模型摩尔-库仑屈服准则Mohr-Coulomb yield criterion
9. 本构模型内蕴时间塑性模型endochronic plastic model
9. 本构模型内蕴时间塑性理论endochronic theory
9. 本构模型年粘弹性模型viscoelastic model
9. 本构模型切线模量tangent molus
9. 本构模型清华弹塑性模型Tsinghua elastoplastic model
9. 本构模型屈服面yield surface
9. 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 criterion
9. 本构模型双曲线模型hyperbolic model
9. 本构模型松岗元-中井屈服准则Matsuoka-Nakai yield criterion
9. 本构模型塑性形变理论
9. 本构模型谈弹塑性模量矩阵elastoplastic molus matrix
9. 本构模型谈弹塑性模型elastoplastic molus
9. 本构模型谈弹塑性增量理论incremental elastoplastic theory
9. 本构模型谈弹性半空间地基模型elastic half-space foundation model
9. 本构模型谈弹性变形elastic deformation
9. 本构模型谈弹性模量elastic molus
9. 本构模型谈弹性模型elastic model
9. 本构模型魏汝龙-Khosla-Wu模型Wei Rulong-Khosla-Wu model
9. 本构模型文克尔地基模型Winkler foundation model
9. 本构模型修正剑桥模型modified cambridge model
9. 本构模型准弹性模型hypoelastic model
10. 地基承载力冲剪破坏punching shear failure
10. 地基承载力次层(台)substratum
10. 地基承载力地基subgrade, ground, foundation soil
10. 地基承载力地基承载力bearing capacity of foundation soil
10. 地基承载力地基极限承载力ultimate bearing capacity of foundation soil
10. 地基承载力地基允许承载力allowable bearing capacity of foundation soil
10. 地基承载力地基稳定性stability of foundation soil
10. 地基承载力汉森地基承载力公式Hansen s ultimate bearing capacity formula
10. 地基承载力极限平衡状态state of limit equilibrium
10. 地基承载力加州承载比(美国)California Bearing Ratio
10. 地基承载力局部剪切破坏local shear failure
10. 地基承载力临塑荷载critical edge pressure
10. 地基承载力梅耶霍夫极限承载力公式Meyerhof s ultimate bearing capacity formu
la
10. 地基承载力普朗特承载力理论Prandel bearing capacity theory
10. 地基承载力斯肯普顿极限承载力公式Skempton s ultimate bearing capacity formu
la
10. 地基承载力太沙基承载力理论Terzaghi bearing capacity theory
10. 地基承载力魏锡克极限承载力公式Vesic s ultimate bearing capacity formula
10. 地基承载力整体剪切破坏general shear failure
11. 土压力被动土压力passive earth pressure
11. 土压力被动土压力系数coefficient of passive earth pressure
11. 土压力极限平衡状态state of limit equilibrium
11. 土压力静止土压力earth pressue at rest
11. 土压力静止土压力系数coefficient of earth pressur at rest
11. 土压力库仑土压力理论Coulomb s earth pressure theory
11. 土压力库尔曼图解法Culmannn construction
11. 土压力朗肯土压力理论Rankine s earth pressure theory
11. 土压力朗肯状态Rankine state
11. 土压力谈弹性平衡状态state of elastic equilibrium
11. 土压力土压力earth pressure
11. 土压力主动土压力active earth pressure
11. 土压力主动土压力系数coefficient of active earth pressure
12. 土坡稳定分析安息角(台)angle of repose
12. 土坡稳定分析毕肖普法Bishop method
12. 土坡稳定分析边坡稳定安全系数safety factor of slope
12. 土坡稳定分析不平衡推理传递法unbalanced thrust transmission method
12. 土坡稳定分析费伦纽斯条分法Fellenius method of slices
12. 土坡稳定分析库尔曼法Culmann method
12. 土坡稳定分析摩擦圆法friction circle method
12. 土坡稳定分析摩根斯坦-普拉斯法Morgenstern-Price method
12. 土坡稳定分析铅直边坡的临界高度critical height of vertical slope
12. 土坡稳定分析瑞典圆弧滑动法Swedish circle method
12. 土坡稳定分析斯宾赛法Spencer method
12. 土坡稳定分析泰勒法Taylor method
12. 土坡稳定分析条分法slice method
12. 土坡稳定分析土坡slope
12. 土坡稳定分析土坡稳定分析slope stability analysis
12. 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 repose
12. 土坡稳定分析扬布普遍条分法Janbu general slice method
12. 土坡稳定分析圆弧分析法circular arc analysis
13. 土的动力性质比阻尼容量specific gravity capacity
13. 土的动力性质波的弥散特性dispersion of waves
13. 土的动力性质波速法wave velocity method
13. 土的动力性质材料阻尼material damping
13. 土的动力性质初始液化initial liquefaction
13. 土的动力性质地基固有周期natural period of soil site
13. 土的动力性质动剪切模量dynamic shear molus of soils
13. 土的动力性质动力布西涅斯克解dynamic solution of Boussinesq
13. 土的动力性质动力放大因素dynamic magnification factor
13. 土的动力性质动力性质dynamic properties of soils
13. 土的动力性质动强度dynamic strength of soils
13. 土的动力性质骨架波akeleton waves in soils
13. 土的动力性质几何阻尼geometric damping
13. 土的动力性质抗液化强度liquefaction stress
13. 土的动力性质孔隙流体波fluid wave in soil
13. 土的动力性质损耗角loss angle
13. 土的动力性质往返活动性reciprocating activity
13. 土的动力性质无量纲频率dimensionless frequency
13. 土的动力性质液化liquefaction
13. 土的动力性质液化势评价evaluation of liquefaction potential
13. 土的动力性质液化应力比stress ratio of liquefaction
13. 土的动力性质应力波stress waves in soils
13. 土的动力性质振陷dynamic settlement
13. 土的动力性质阻尼damping of soil
13. 土的动力性质阻尼比damping ratio
14. 挡土墙挡土墙retaining wall
14. 挡土墙挡土墙排水设施
14. 挡土墙挡土墙稳定性stability of retaining wall
14. 挡土墙垛式挡土墙
14. 挡土墙扶垛式挡土墙counterfort retaining wall
14. 挡土墙后垛墙(台)counterfort retaining wall
14. 挡土墙基础墙foundation wall
14. 挡土墙加筋土挡墙r
『伍』 求英语介绍土木工程专业
civil engineering
Profession of designing and executing structural works that serve the general public, including bridges, canals, dams, harbors, lighthouses, roads, tunnels, and environmental works (e.g., water-supply systems).
The modern field includes power plants, aircraft and airports, chemical-processing plants, and water-treatment facilities. Civil engineering today involves site investigations and feasibility studies, structural design and analysis, construction, and facilities maintenance. The design of engineering works requires the application of design theory from many fields (e.g., hydraulics, thermodynamics, nuclear physics). Research in structural analysis and the technology of materials such as steel and concrete has opened the way for new concepts and greater economy of materials. The engineer's analysis of a building problem determines the structural system to be used. Structural designs are rigorously analyzed by computers to determine if they will withstand loads and natural forces.
土木工程
设计和修建各种公用建筑的结构工程设施的科学技术,这些工程包括桥梁、水坝、港口、灯塔、道路、隧道和环境工程(如供水系统)。现代这个领域还包括:发电厂、航空港、化学处理厂和污水处理设备等。现在土木工程涉及的范围还包括场地的测量和研究、结构设计和分析、建造,以及设备的维护。工程设计的工作需要应用许多方面的设计理论(如水力学、热力学和核物理等)。结构分析和材料技术的研发(诸如钢和混凝土)已开发出更新颖的观念和更经济的材料。工程师在分析一种建筑问题时,就已决定该用何种结构系统。计算机可精确分析结构设计以判定结构体是否承受得起载重量和自然力量。
『陆』 “土木工程专业”英语怎么翻译,谢谢大家!
土木的英文是civil engineering
工程的英文是project
专业的英文是subject
所以我认为“土木工程专业”应该是civil engineering project subject.
『柒』 土木工程 用英语怎么说
土木工程
[词典] civil engineering
[例句]
.
英吉利海峡隧道是欧洲最大的内土木工容程。
『捌』 土木工程用英语怎么说
中文: 土木工程 阿拉伯语: �1�1�1�0�1�7�1�1�1�1 �1�9�1�7�1�0�1�4�1�1 德语: Bauingenieurwesen 英语: Civil engineering 西班牙语: Ingeniería civil 法语: Génie civil 日语: 土木工学
『玖』 土木工程英语作文
Civil engineering is the oldest branch of the profession of
engineering after military engineering. Many of the important things in
our lives that we take for granted are the proct of civil engineering.
The
construction of the dams and power stations that provide the
electricity we use every day requires civil engineers.The water and
sewage treatment plants that provide us with safe water supplies require
the expertise of civil engineers.The paths and roads we travel are
civil engineering projects.
In fact most structures, large and small,
require the help of a civil engineer whether in the designing, planning
or managing of the project.
Civil engineers also help to preserve
our environment by assisting in the cleaning up of existing pollution
and planning ways to rece future pollution of our air, land and water
Civil Engineering gives us Quality of Life !
翻译:
土木工程是军事工程学演变而来的工程专业的一个最古老分支.许多我们生活中被认为是理所当然的重要事物都是土木工程的产物.
为我们日常生活供应电力的水坝和发电站,它们的建设就需要土木工程师.为我们提供安全用水的生活用水和污水处理厂也需要土木工程师的专业知识.我们出行交通所必需的道路,正是土木工程的实例.
事实上,许多建筑物,不论大小,在工程的设计、规划和管理阶段都需要土木工程师的协助.
土木工程师也通过清理现存的污染和规划一些方法来减少未来空气、土壤和水中的污染,从而帮助保护我们的环境.
土木工程为我们创造高品质的人生!
『拾』 土木工程专业介绍(英文版)
Civil Engineering Civil Engineering Introction
The so-called large civil. Refers to all and water, soil, culture-related infrastructure-related projects, construction and maintenance. At present, the civil work projects include: roads, water supply, drainage, flood control works and transport. The past, all non-military use of civilian projects, classified into this category, but with the increasingly vast engineering sciences, many of the original content belong to the scope of civil engineering have been a separate section. At present, from the narrow definition, is equivalent to the Civil Engineering civil engineering, or construction (or structural engineering) This small-scale.
Civil Engineering Introction
Business training objectives: the professional training of various civil engineering disciplines to master the basic theory and basic knowledge in housing construction, underground construction (including mine construction), roads, tunnels, bridges, buildings, hydropower stations, ports and offshore structures and facilities, water supply drainage and ground treatment in areas such as planning, design, construction, management and research, engineering and technical personnel, senior.
Operational training requirements: The students mainly study engineering mechanics, geotechnical engineering, structural engineering, municipal engineering, water supply and drainage engineering and hydraulic engineering disciplines, basic theory and knowledge, by the engineering drawing, engineering, surveying, computer applications, professional test, structural design and construction practice areas such as basic training, and have engaged in construction, transportation works, water conservancy and hydropower engineering, port engineering, coastal engineering and water supply and drainage: the planning, design, construction, management and related research capacity.
Graates should be given the following knowledge and ability to:
1. Natural Science has a solid foundation for a better foundation for the humanities and social sciences and foreign language integrated capacity;
2. Master of engineering mechanics, fluid mechanics, rock and soil mechanics, engineering geology and engineering drawing of the basic theory and basic knowledge;
3. Grasp the building materials, structural calculations, component design, ground treatment, water supply and drainage engineering and computer applications, basic knowledge, principles, methods and skills, has engaged in preliminary design of civil structural engineering and research capabilities;
4. Master construction machinery, electrical engineering, engineering, surveying, construction technology and construction organization, construction monitoring, project budget, as well as aspects of the tendering proceres for the basic knowledge and basic skills, has engaged in preliminary engineering, management and research capacity;
5. Familiar with the construction of various types of civil engineering principles, policies and regulations;
6. Understanding of civil engineering disciplines of the trunk and cutting-edge developments in theory;
7. Master the literature of information retrieval and the basic method of inquiry has a certain capacity for scientific research and practical work.
Major Courses:
Trunk disciplines: mechanical, civil engineering, water conservancy projects.
Main courses: engineering mechanics, fluid mechanics, rock mechanics with disabilities, the foundation and infrastructure, engineering geology, engineering, hydrology, engineering drawing, computer applications, construction materials, concrete structures, steel structures, engineering structures, water supply and drainage works, construction technology and管理.
The main practice teaching links include: engineering drawing, awareness training, surveying practices, engineering geology internship, professional practice or proction practice, the structure of curriculum design, graate thesis, such as design or general arrangement for about 40 weeks.
The main experiment: the experimental mechanics of materials, experimental materials, structural testing, soil testing.
Period of Study: Four years
Conferment of academic degrees: Bachelor of Engineering
Similar professional: Architecture, Construction Engineering Technology Civil Engineering and Town Planning Building Environment and Equipment Engineering, Civil Engineering to the drainage works to cross the river bridge and road works