建筑结构中英文翻译
A
acceptable quality:合格质量
acceptance lot:验收批量
aciera:钢材
admixture:外加剂
against slip coefficient between friction surface of high-strength bolted connection:高强度螺栓摩擦面抗滑移系数
aggregate:骨料
air content:含气量
air-dried timber:气干材
allowable ratio of height to sectional thickness of masonry wall or column:砌体墙、柱容许高厚比
allowable slenderness ratio of steel member:钢构件容许长细比
allowable slenderness ratio of timber compression member:受压木构件容许长细比allowable stress range of fatigue:疲劳容许应力幅
allowable ultimate tensile strain of reinforcement:钢筋拉应变限值
allowable value of crack width:裂缝宽度容许值
allowable value of deflection of structural member:构件挠度容许值
allowable value of deflection of timber bending member:受弯木构件挠度容许值
allowable value of deformation of steel member:钢构件变形容许值
allowable value of deformation of structural member:构件变形容许值
allowable value of drift angle of earthquake resistant structure:抗震结构层间位移角限值amplified coefficient of eccentricity:偏心距增大系数
anchorage:锚具
anchorage length of steel bar:钢筋锚固长度
approval analysis during construction stage:施工阶段验算
arch:拱
arch with tie rod:拉捍拱
arch—shaped roof truss:拱形屋架
area of shear plane:剪面面积
area of transformed section:换算截面面积
aseismic design:建筑抗震设计
assembled monolithic concrete structure:装配整体式混凝土结构
automatic welding:自动焊接
auxiliary steel bar:架立钢筋
B
backfilling plate:垫板
balanced depth of compression zone:界限受压区高度
balanced eccentricity:界限偏心距
bar splice:钢筋接头
bark pocket:夹皮
batten plate:缀板
beam:次梁
bearing plane of notch:齿承压面(67)
bearing plate:支承板(52)
bearing stiffener:支承加劲肋(52)
bent-up steel bar:弯起钢筋(35)
block:砌块(43)
block masonry:砌块砌体(44)
block masonry structure:砌块砌体结构(41)
blow hole:气孔(62)
board:板材(65)
bolt:螺栓(54)
bolted connection:(钢结构)螺栓连接(59)
bolted joint:(木结构)螺栓连接(69)
bolted steel structure:螺栓连接钢结构(50)
bonded prestressed concrete structure:有粘结预应力混凝土结构(24) bow:顺弯(71)
brake member:制动构件(7)
breadth of wall between windows:窗间墙宽度(46)
brick masonry:砖砌体(44)
brick masonry column:砖砌体柱(42)
brick masonry structure:砖砌体结构(41)
brick masonry wall:砖砌体墙(42)
broad—leaved wood:阔叶树材(65)
building structural materials:建筑结构材料(17)
building structural unit:建筑结构单元(
building structure:建筑结构(2
built—up steel column:格构式钢柱(51
bundled tube structure:成束筒结构(3
burn—through:烧穿(62
butt connection:对接(59
butt joint:对接(70)
butt weld:对接焊缝(60)
C
calculating area of compression member:受压构件计算面积(67) calculating overturning point:计算倾覆点(46)
calculation of load-carrying capacity of member:构件承载能力计算(10) camber of structural member:结构构件起拱(22)
cantilever beam :挑梁(42)
cap of reinforced concrete column:钢筋混凝土柱帽(27)
carbonation of concrete:混凝土碳化(30)
cast-in—situ concrete slab column structure :现浇板柱结构
cast-in—situ concrete structure:现浇混凝土结构(25)
cavitation:孔洞(39)
cavity wall:空斗墙(42)
cement:水泥(27)
cement content:水泥含量(38)
cement mortar:水泥砂浆(43)
characteriseic value of live load on floor or roof:楼面、屋面活荷载标准值(14) characteristi cvalue o fwindload:风荷载标准值(16)
characteristic value of concrete compressive strength:混凝土轴心抗压强度标准值(30) characteristic value of concrete tensile strength:混凝土轴心抗拉标准值(30) characteristic value of cubic concrete compressive strength:混凝土立方体抗压强度标准值(2 9)
characteristic value of earthquake action:地震作用标准值(16)
characteristic value of horizontal crane load:吊车水平荷载标准值(15)
characteristic value of masonry strength:砌体强度标准值(44)
characteristic value of permanent action·:永久作用标准值(14)
characteristic value of snowload:雪荷载标准值(15)
characteristic value of strength of steel:钢材强度标准值(55)
characteristic value of strength of steel bar:钢筋强度标准值(31)
characteristic value of uniformly distributed live load:均布活标载标准值(14) characteristic value of variable action:可变作用标准值(14)
characteristic value of vertical crane load:吊车竖向荷载标准值(15)
charaeteristic value of material strength:材料强度标准值(18)
checking section of log structural member·,:原木构件计算截面(67)
chimney:烟囱(3)
circular double—layer suspended cable:圆形双层悬索(6)
circular single—layer suspended cable:圆形单层悬索(6)
circumferential weld:环形焊缝(60)
classfication for earthquake—resistance of buildings·:建筑结构抗震设防类别(9)
clear height:净高(21)
clincher:扒钉(?0)
coefficient of equivalent bending moment of eccentrically loaded steel memher(beam-colum n) :钢压弯构件等效弯矩系数(58)
cold bend inspection of steelbar:冷弯试验(39)
cold drawn bar:冷拉钢筋(28)
cold drawn wire:冷拉钢丝(29)
cold—formed thin—walled sectionsteel:冷弯薄壁型钢(53)
cold-formed thin-w al l ed steel st ructure·…:冷弯薄壁型钢结构(50)
cold—rolled deformed bar:冷轧带肋钢筋(28)
column bracing:柱间支撑(7)
combination value of live load on floor or roof:楼面、屋面活荷载组合值(15) compaction:密实度(37)
compliance control:合格控制(23)
composite brick masonry member:组合砖砌体构件(42)
composite floor system:组合楼盖(8)
composite floor with profiled steel sheet:压型钢板楼板(8)
composite mortar:混合砂浆(43)
composite roof truss:组合屋架(8)
compostle member:组合构件(8)
compound stirrup:复合箍筋(36)
compression member with large eccentricity·:大偏心受压构件(32) compression member with small eccentricity·:小偏心受压构件(32) compressive strength at an angle with slope of grain:斜纹承压强度(66) compressive strength perpendicular to grain:横纹承压强度(66) concentration of plastic deformation:塑性变形集中(9)
conceptual earthquake—resistant design:建筑抗震概念设计(9)
concrete:混凝土(17)
concrete column:混凝土柱(26)
concrete consistence:混凝土稠度(37)
concrete floded—plate structure:混凝土折板结构(26)
concrete foundation:混凝土基础(27)
concrete mix ratio:混凝土配合比(38)
concrete wall:混凝土墙(27)
concrete-filled steel tubular member:钢管混凝土构件(8)
conifer:针叶树材(65)
coniferous wood:针叶树材(65)
connecting plate:连接板(52)
connection:连接(21)
connections of steel structure:钢结构连接(59)
connections of timber struct
D
decay:腐朽(71)
decay prevention of timber structure:木结构防腐(70)
defect in timber:木材缺陷(70)
deformation analysis:变形验算(10)
degree of gravity vertical for structure or structural member·:结构构件垂直度(40) degree of gravity vertical forwall surface:墙面垂直度(49)
degree of plainness for structural memer:构件平整度(40)
degree of plainness for wall surface:墙面平整度(49)
depth of compression zone:受压区高度(32)
depth of neutral axis:中和轴高度(32)
depth of notch:齿深(67)
design of building structures:建筑结构设计(8)
design value of earthquake-resistant strength of materials:材料抗震强度设计值(1 design value of load—carrying capacity of members·:构件承载能力设计值(1 designations 0f steel:钢材牌号(53
designvalue of material strength:材料强度设计值(1
destructive test:破损试验(40
detailing reintorcement:构造配筋(35
detailing requirements:构造要求(22
diamonding:菱形变形(71)
diaphragm:横隔板(52
dimensional errors:尺寸偏差(39)
distribution factor of snow pressure:屋面积雪分布系数
dogspike:扒钉(70)
double component concrete column:双肢柱(26)
dowelled joint:销连接(69)
down-stayed composite beam:下撑式组合粱(8)
ductile frame:延性框架(2)
dynamic design:动态设计(8)
E
earthquake-resistant design:抗震设计(9:
earthquake-resistant detailing requirements:抗震构造要求(22)
effective area of fillet weld:角焊缝有效面积(57)
effective depth of section:截面有效高度(33)
effective diameter of bolt or high-strength bolt·:螺栓(或高强度螺栓)有效直径(57) effective height:计算高度(21)
effective length:计算长度(21)
effective length of fillet weld:角焊缝有效计算长度(48)
effective length of nail:钉有效长度(56)
effective span:计算跨度(21)
effective supporting length at end of beam:梁端有效支承长度(46)
effective thickness of fillet weld:角焊缝有效厚度(48)
elastic analysis scheme:弹性方案(46)
elastic foundation beam:弹性地基梁(11)
elastic foundation plate:弹性地基板(12)
elastically supported continuous girder·:弹性支座连续梁(u)
elasticity modulus of materials:材料弹性模量(18)
elongation rate:伸长率(15)
embeded parts:预埋件(30)
enhanced coefficient of local bearing strength of materials·:局部抗压强度提高系数(14) entrapped air:含气量(38)
equilibrium moisture content:平衡含水率(66)
equivalent slenderness ratio:换算长细比(57)
equivalent uniformly distributed live load·:等效均布活荷载(14)
etlectlve cross—section area of high-strength bolt·:高强度螺栓的有效截面积(58) ettectlve cross—section area of bolt:螺栓有效截面面积(57)
euler?s cri t i cal l oad:欧拉临界力(56)
euler?s cri t i cal st ress:欧拉临界应力(56)
excessive penetration:塌陷(62)
F
fiber concrete:纤维混凝仁(28)
filler plate:填板门2)
fillet weld:角焊缝(61)
final setting time:终凝时间()
finger joint:指接(69)
fired common brick:烧结普通砖(43)
fish eye:白点(62)
fish—belly beam:角腹式梁(7)
fissure:裂缝(?0)
flexible connection:柔性连接(22)
flexural rigidity of section:截面弯曲刚度(19)
flexural stiffness of member:构件抗弯刚度(20)
floor plate:楼板(6)
floor system:楼盖(6)
four sides(edges)supported plate:四边支承板(12)
frame structure:框架结构(2)
frame tube structure:单框筒结构(3)
frame tube structure:框架—简体结构(2)
frame with sidesway:有侧移框架(12)
frame without sidesway:无侧移框架(12)
frange plate:翼缘板(52)
friction coefficient of masonry:砌体摩擦系数(44)
full degree of mortar at bed joint:砂浆饱满度(48)
function of acceptance:验收函数(23)
G
gang nail plate joint:钉板连接()
glue used for structural timberg:木结构用胶
glued joint:胶合接头
glued laminated timber:层板胶合木(¨)
glued laminated timber structure:层板胶合结构…61)
grider:主梁((㈠
grip:夹具
grith weld:环形焊缝(6÷))
groove:坡口
gusset plate:节点板(52)
H
hanger:吊环
hanging steel bar:吊筋
heartwood :心材
heat tempering bar:热处理钢筋(28)
height variation factor of wind pressure:风压高度变化系数(16) heliral weld:螺旋形僻缝
high—strength bolt:高强度螺栓
high—strength bolt with large hexagon bea:大六角头高强度螺栓high—strength bolted bearing type join:承压型高强度螺栓连接,
high—strength bolted connection:高强度螺栓连接
high—strength bolted friction—type joint:摩擦型高强度螺栓连接
high—strength holted steel slsteel structure:高强螺栓连接钢结构
hinge support:铰轴支座(51)
hinged connection:铰接(21)
hlngeless arch:无铰拱(12)
hollow brick:空心砖(43)
hollow ratio of masonry unit:块体空心率(46)
honeycomb:蜂窝(39)
hook:弯钩(37)
hoop:箍筋(36)
hot—rolled deformed bar:热轧带肋钢筋(28)
hot—rolled plain bar:热轧光圆钢筋(28)
hot-rolled section steel:热轧型钢(53)
hunched beam:加腋梁(?)
I
impact toughness:冲击韧性(18)
impermeability:抗渗性(38)
inclined section:斜截面(33)
inclined stirrup:斜向箍筋(36)
incomplete penetration:未焊透(61)
incomplete tusion:未溶合(61)
incompletely filled groove:未焊满(61)
indented wire:刻痕钢丝(29)
influence coefficient for load—bearing capacity of compression member:受压构件承载能力影响系数(46)
influence coefficient for spacial action :空间性能影响系数(46)
initial control:初步控制(22)
insect prevention of timber structure:木结构防虫(?o)
inspection for properties of glue used in structural member:结构用胶性能检验(71) inspection for properties of masnory units:块体性能检验(48)
inspection for properties of mortar:砂浆性能检验(48)
inspection for properties of steelbar:钢筋性能检验(39)
integral prefabricated prestressed concrete slab—column structure:整体预应力板柱结构(25) intermediate stiffener:中间加劲肋(53)
intermittent weld:断续焊缝(60)
J
joint of reinforcement:钢筋接头(35)
K
key joint:键连接(69)
kinetic design:动态设计(8)
knot:节子(木节)(70)
L
laced of battened compression member:格构式钢柱(51)
lacing and batten elements:缀材(缀件)(51)
lacing bar:缀条(51)
lamellar tearing:层状撕裂(62)
lap connectlon:叠接(搭接)(59)
lapped length of steel bar:钢筋搭接长度(36)
large pannel concrete structure:混凝土大板结构(25)
large-form cocrete structure:大模板结构(26)
lateral bending:侧向弯曲(40)
lateral displacement stiffness of storey:楼层侧移刚度(20)
lateral displacement stiffness of structure·:结构侧移刚度(20)
lateral force resistant wallstructure:抗侧力墙体结构(12)
leg size of fillet weld:角焊缝焊脚尺寸(57)
length of shear plane:剪面长度(67)
lift—slab structure:升板结构(25)
light weight aggregate concrete:轻骨料混凝土(28)
limit of acceptance:验收界限(23)
limitimg value for local dimension of masonry structure·:砌体结构局部尺寸限值(47) limiting value for sectional dimension:截面尺寸限值(47)
limiting value for supporting length:支承长度限值(47)
limiting value for total height of masonry structure·:砌体结构总高度限值(47)
linear expansion coeffcient:线膨胀系数(18)
lintel:过梁(7)
load bearing wall:承重墙(7)
load-carrying capacity per bolt:单个普通螺栓承载能力(56)
load—carrying capacity per high—strength holt:单个高强螺桂承载能力(56) load—carrying capacity per rivet:单个铆钉承载能力(55)
log:原木(65)
log timberstructure:原木结构(64)
long term rigidity of member:构件长期刚度(32)
longitude horizontal bracing:纵向水平支撑(5)
longitudinal steel bar:纵向钢筋(35)
longitudinal stiffener:纵向加劲肋(53)
longitudinal weld:纵向焊缝(60)
losses of prestress:…预应力损失(33)
lump material:块体(42)
M
main axis:强轴(56)
main beam·:主梁(6)
major axis:强轴(56)
manual welding:手工焊接(59)
manufacture control:生产控制(22)
map cracking:龟裂(39)
masonry:砌体(17)
masonry lintel:砖过梁(43)
masonry member:无筋砌体构件(41)
masonry units:块体(43)
masonry—concrete structure:砖混结构(¨)
masonry—timber structure:砖木结构(11)
mechanical properties of materials·:材料力学性能(17)
melt—thru:烧穿(62)
method of sampling:抽样方法(23)
minimum strength class of masonry:砌体材料最低强度等级(47)
minor axls·:弱轴(56)
mix ratio of mortar:砂浆配合比(48)
mixing water:拌合水(27)
modified coefficient for allowable ratio of height to sectionalthickness of masonry wall :砌体墙容许高厚比修正系数(47)
modified coefficient of flexural strength for timber curved mem—:弧形木构件抗弯强度修正系数(68)
modulus of elasticity of concrete:混凝土弹性模量(30)
modulus of elasticity parellel to grain:顺纹弹性模量(66)
moisture content:含水率(66)
moment modified factor:弯矩调幅系数
monitor frame:天窗架
mortar:砂浆
multi—defence system of earthquake—resistant building·:多道设防抗震建筑
multi—tube supported suspended structure:多筒悬挂结构
N
nailed joint:钉连接,
net height:净高l
net span:净跨度
net water/cementratio:净水灰比
non-destructive inspection of weld:焊缝无损检验
non-destructive test:非破损检验
non-load—bearingwall:非承重墙
non—uniform cross—section beam:变截面粱
non—uniformly distributed strain coefficient of longitudinal tensile reinforcement:纵向受拉钢筋应变不均匀系数
normal concrete:普通混凝土
normal section:正截面
notch and tooth joint:齿连接
number of sampling:抽样数量
O
obligue section:斜截面
oblique—angle fillet weld:斜角角焊缝
one—w ay reinforced(or prest ressed)concret e sl ab……:单向板
open web roof truss:空腹屋架,
ordinary concrete:普通混凝土(28)
ordinary steel bar:普通钢筋(29)
orthogonal fillet weld:直角角焊缝(61)
outstanding width of flange:翼缘板外伸宽度(57)
outstanding width of stiffener:加劲肋外伸宽度(57)
over-all stability reduction coefficient of steel beam·:钢梁整体稳定系数(58)
overlap:焊瘤(62)
overturning or slip resistance analysis :抗倾覆、滑移验算(10)
P
padding plate:垫板(52)
partial penetrated butt weld:不焊透对接焊缝(61)
partition:非承重墙(7)
penetrated butt weld:透焊对接焊缝(60)
percentage of reinforcement:配筋率(34)
perforated brick:多孔砖(43)
pilastered wall:带壁柱墙(42)
pit·:凹坑(62)
pith:髓心(?o)
plain concrete structure:素混凝土结构(24)
plane hypothesis:平截面假定(32)
plane structure:平面结构(11)
plane trussed lattice grids:平面桁架系网架(5)
plank:板材(65)
plastic adaption coefficient of cross—section:截面塑性发展系数(58)
plastic design of steel structure:钢结构塑性设计(56)
plastic hinge·:塑性铰(13)
plastlcity coefficient of reinforced concrete member in tensile zone:受拉区混凝土塑性影响系数(34)
plate—like space frame:干板型网架(5)
plate—like space truss:平板型网架(5)
plug weld:塞焊缝(60)
plywood:胶合板(65)
plywood structure:胶合板结构(64)
pockmark:麻面(39)
polygonal top-chord roof truss:多边形屋架(4)
post—tensioned prestressed concrete structure:后张法预应力混凝土结构(24)
precast reinforced concrete member:预制混凝土构件(26)
prefabricated concrete structure:装配式混凝土结构(25)
presetting time:初凝时间(38)
prestressed concrete structure:预应力混凝土结构(24)
prestressed steel structure:预应力钢结构(50)
prestressed tendon:预应力筋<29)
pre—tensioned prestressed concrete structure·:先张法预应力混凝土结构(24)
primary control:初步控制(22)
production control:生产控制(22)
properties of fresh concrete:可塑混凝土性能(37)
properties of hardened concrete:硬化混凝土性能(38)
property of building structural materials:建筑结构材料性能(17)
purl i n“—”—:檩条(4)
Q
qlue timber structurer:胶合木结构(㈠)
quality grade of structural timber:木材质量等级(?0)
quality grade of weld:焊缝质量级别(61)
quality inspection of bolted connection:螺栓连接质量检验(63)
quality inspection of masonry:砌体质量检验(48)
quality inspection of riveted connection:铆钉连接质量检验(63)
quasi—permanent value of live load on floor or roof,:楼面、屋面活荷载准永久值(15)
R
radial check:辐裂(70)
ratio of axial compressive force to axial compressive ultimate capacity of section:轴压比(35) ratio of height to sectional thickness of wall or column:砌体墙柱高、厚比(48)
ratio of reinforcement:配筋率(34)
ratio of shear span to effective depth of section:剪跨比(35)
redistribution of internal force:内力重分布(13)
reducing coefficient of compressive strength in sloping grain for bolted connection:螺栓连接斜纹承压强度降低系数(68)
reducing coefficient of liveload:活荷载折减系数(14)
reducing coefficient of shearing strength for notch and tooth connection:齿连接抗剪强度降低系数(68)
regular earthquake—resistant building:规则抗震建筑(9)
reinforced concrete deep beam:混凝土深梁(26)
reinforced concrete slender beam:混凝土浅梁(26)
reinforced concrete structure:钢筋混凝土结构(24)
reinforced masonry structure:配筋砌体结构(41)
reinforcement ratio:配筋率(34)
reinforcement ratio per unit volume:体积配筋率(35)
relaxation of prestressed tendon:预应筋松弛(31)
representative value of gravity load:重力荷载代表值(17)
resistance to abrasion:耐磨性(38)
resistance to freezing and thawing:抗冻融性(39)
resistance to water penetration·:抗渗性(38)
reveal of reinforcement:露筋(39)
right—angle filletweld:直角角焊缝(61)
rigid analysis scheme:刚性方案(45)
rigid connection:刚接(21)
rigid transverse wall:刚性横墙(42)
rigid zone:刚域(13)
rigid-elastic analysis scheme:刚弹性方案(45)
rigidity of section:截面刚度(19)
rigidly supported continous girder:刚性支座连续梁(11)
ring beam:圈梁(42)
rivet:铆钉(55)
riveted connecction:铆钉连接(60)
riveted steel beam:铆接钢梁(52)
riveted steel girder:铆接钢梁(52)
riveted steel structure:铆接钢结构(50)
rolle rsupport:滚轴支座(51)
rolled steel beam:轧制型钢梁(51)
roof board:屋面板(3)
roof bracing system:屋架支撑系统(4)
roof girder:屋面梁(4)
roof plate:屋面板(3)
roof slab:屋面板(3)
roof system:屋盖(3)
roof truss:屋架(4)
rot:腐朽(71)
round wire:光圆钢丝(29)
S
safety classes of building structures:建筑结构安全等级(9) safetybolt:保险螺栓(69)
sapwood:边材(65)
sawn lumber+A610:方木(65)
sawn timber structure:方木结构(64)
saw-tooth joint failure:齿缝破坏(45)
scarf joint:斜搭接(70)
seamless steel pipe:无缝钢管(54)
seamless steel tube:无缝钢管(54)
second moment of area of tranformed section:换算截面惯性矩(34) second order effect due to displacement:挠曲二阶效应(13) secondary axis:弱轴(56)
secondary beam:次粱(6)
section modulus of transformed section:换算截面模量(34) section steel:型钢(53)
semi-automatic welding:半自动焊接(59)
separated steel column:分离式钢柱(51)
setting time:凝结时间(38)
shake:环裂(70)
shapefactorofwindload:风荷载体型系数(16)
shear plane:剪面(67)
shearing rigidity of section:截面剪变刚度(19)
shearing stiffness of member:构件抗剪刚度(20)
short stiffener:短加劲肋(53)
short term rigidity of member:构件短期刚度(31)
shrinkage:干缩(71)
shrinkage of concrete:混凝干收缩(30)
silos:贮仓(3)
skylight truss:天窗架(4)
slab:楼板(6)
slab—column structure:板柱结构(2)
slag inclusion:夹渣(61)
sloping grain:…斜纹(70)
slump:坍落度(37)
snow reference pressure:基本雪压(16)
solid—web steel column:实腹式钢柱(
space structure:空间结构(11)
space suspended cable:悬索(5)
spacing of bars:钢筋间距(33)
spacing of rigid transverse wall:刚性横墙间距(46)
spacing of stirrup legs:箍筋肢距(33)
spacing of stirrups:箍筋间距(33)
specified concrete:特种混凝上(28)
spiral stirrup:螺旋箍筋(36)
spiral weld:螺旋形焊缝(60)
split ringjoint:裂环连接(69)
square pyramid space grids:四角锥体网架(5)
stability calculation:稳定计算(10)
stability reduction coefficient of axially loaded compression:轴心受压构件稳定系数<13) stair:楼梯(8)
static analysis scheme of building:房屋静力汁算方案(45)
static design:房屋静力汁算方案(45)
statically determinate structure:静定结构(11)
statically indeterminate structure:超静定结构(11)
sted:钢材(17)
steel bar:钢筋(28)
steel column component:钢柱分肢(51)
steel columnbase:钢柱脚(51)
steel fiber reinforced concrete structure·:钢纤维混凝土结构(26)
steel hanger:吊筋(37)
steel mesh reinforced brick masonry member:方格网配筋砖砌体构件(41)
steel pipe:钢管(54)
steel plateelement:钢板件(52)
steel strip:钢带(53)
steel support:钢支座(51)
steel tie:拉结钢筋(36)
steel tie bar for masonry:砌体拉结钢筋(47)
steel tube:钢管(54)
steel tubular structure:钢管结构(50)
steel wire:钢丝(28)
stepped column:阶形柱(7)
stiffener:加劲肋(52)
stiffness of structural member:构件刚度(19)
stiffness of transverse wall:横墙刚度(45)
stirrup:箍筋(36)
stone:石材(44)
stone masonry:石砌体(44)
stone masonry structure:石砌体结构(41)
storev height:层高(21)
straight—line joint failure:通缝破坏(45)
straightness of structural member:构件乎直度(71)
strand:钢绞线(2,)
strength classes of masonry units:块体强度等级(44)
strength classes of mortar:砂浆强度等级(44)
strength classes of structural steel:钢材强度等级(55)
strength classes of structural timber:木材强度等级(66)
strength classes(grades) of concrete:混凝土强度等级(29)
strength classes(grades) of prestressed tendon:预应力筋强度等级(30) strength classes(grades) of steel bar :普通钢筋强度等级(30)
strength of structural timber parallel to grain:木材顺纹强度(66) strongaxis:强轴(56)
structural system composed of bar:”杆系结构(11)
structural system composed of plate:板系结构(12)
structural wall:结构墙(7)
superposed reinforced concrete flexural member:叠合式混凝土受弯构件(26) suspended crossed cable net:双向正交索网结构(6)
suspended structure:悬挂结构(3)
T
tensile(compressive) rigidity of section:截面拉伸(压缩)刚度(19)
tensile(compressive) stiffness of member:构件抗拉(抗压)刚度(20) tensile(ultimate) strength of steel:钢材(钢筋)抗拉(极限)强度(18)
test for properties of concrete structural members:构件性能检验(40):thickness of concrete cover:混凝土保护层厚度(33)
thickness of mortarat bed joint:水平灰缝厚度(49)
thin shell:薄壳(6)
three hinged arch:三铰拱(n)
tie bar:拉结钢筋(36)
tie beam,…:系梁(22)
tie tod:系杆(5)
tied framework:绑扎骨架(35)
timber:木材(17)
timber roof truss:木屋架(64)
tor-shear type high-strength bolt:扭剪型高强度螺栓(54)
torsional rigidity of section:截面扭转刚度(19)
torsional stiffness of member:构件抗扭刚度(20)
total breadth of structure:结构总宽度(21)
total height of structure:结构总高度(21)
total length of structure:结构总长度(21)
transmission length of prestress:预应力传递长度(36)
transverse horizontal bracing:横向水平支撑(4)
transverse stiffener·:横向加劲肋(53)
transverse weld:横向焊缝(60)
transversely distributed steelbar:横向分布钢筋(36)
trapezoid roof truss:梯形屋架(4)
triangular pyramid space grids:三角锥体网架(5)
triangular roof truss:三角形屋架(4)
trussed arch:椽架(64)
trussed rafter:桁架拱(5)
tube in tube structure:筒中筒结构(3)
tube structure:简体结构(2)
twist:扭弯(71)
two hinged arch:双铰拱(11)
two sides(edges) supported plate:两边支承板(12)
two—way reinforced (or prestressed) concrete slab:混凝土双向板(27)
U
ul t im at e co m pressi ve st rai n of concret e?”:混凝土极限压应变(31)
unbonded prestressed concrete structure:无粘结预应力混凝土结构(25)
undercut:咬边(62)
uniform cross—section beam:等截面粱(6)
unseasoned timber:湿材(65)
upper flexible and lower rigid complex multistorey building·:上柔下刚多层房屋(45) upper rigid lower flexible complex multistorey building·:上刚下柔多层房屋(45) Vvalue of decompression prestress :预应力筋消压预应力值(33)
value of effective prestress:预应筋有效预应力值(33)
verifi cat ion of servi ceabi l i t y lim i t st at es· ”:正常使用极限状态验证(10)
verification of ultimate limit states :承载能极限状态验证(10)
vertical bracing:竖向支撑(5)
vierendal roof truss:空腹屋架(4)
visual examination of structural member:构件外观检查(39)
visual examination of structural steel member:钢构件外观检查(63) visual examination of weld:焊缝外观检查(62)
W
wall beam:墙梁(42)
wall frame:壁式框架(门)
wall—slab structure:墙板结构(2)
warping:翘曲(40),(71)
warping rigidity of section:截面翘曲刚度(19)
water retentivity of mortar:砂浆保水性(48)
water tower:水塔(3)
water/cement ratio·:水灰比(3g)
weak axis·:弱轴(56)
weak region of earthquake—resistant building:抗震建筑薄弱部位(9) web plate:腹板(52)
weld:焊缝(6[))
weld crack:焊接裂纹(62)
weld defects:焊接缺陷(61)
weld roof:焊根(61)
weld toe:焊趾(61)
weldability of steel bar:钢筋可焊性(39)
welded framework:焊接骨架()
welded steel beam:焊接钢梁(
welded steel girder:焊接钢梁(52)
welded steel pipe:焊接钢管(54)
welded steel strueture:焊接钢结构(50)
welding connection·:焊缝连接(59)
welding flux:焊剂(54)
welding rod:焊条(54)
welding wire:焊丝(54)
wind fluttering factor:风振系数(16)
wind reference pressure:基本风压(16)
wind—resistant column:抗风柱(?)
wood roof decking:屋面木基层(64)
Y
yield strength (yield point) of steel:钢材(钢筋)屈服强度(屈服点)
建筑结构设计中英文对照外文翻译文献
中英文对照外文翻译 (文档含英文原文和中文翻译) Create and comprehensive technology in the structure global design of the building The 21st century will be the era that many kinds of disciplines technology coexists , it will form the enormous motive force of promoting the development of building , the building is more and more important too in global design, the architect must seize the opportunity , give full play to the architect's leading role, preside over every building engineering design well. Building there is the global design concept not new of architectural design,characteristic of it for in an all-round way each element not correlated with building- there aren't external environment condition, building , technical equipment,etc. work in coordination with, and create the premium building with the comprehensive new technology to combine together. The premium building is created, must consider sustainable development , namely future requirement , in other words, how save natural resources as much as possible, how about protect the environment that the mankind depends on for existence, how construct through high-quality between architectural design and building, in order to reduce building equipment use quantity and
建筑类外文文献及中文翻译
forced concrete structure reinforced with an overviewRein Since the reform and opening up, with the national economy's rapid and sustained development of a reinforced concrete structure built, reinforced with the development of technology has been great. Therefore, to promote the use of advanced technology reinforced connecting to improve project quality and speed up the pace of construction, improve labor productivity, reduce costs, and is of great significance. Reinforced steel bars connecting technologies can be divided into two broad categories linking welding machinery and steel. There are six types of welding steel welding methods, and some apply to the prefabricated plant, and some apply to the construction site, some of both apply. There are three types of machinery commonly used reinforcement linking method primarily applicable to the construction site. Ways has its own characteristics and different application, and in the continuous development and improvement. In actual production, should be based on specific conditions of work, working environment and technical requirements, the choice of suitable methods to achieve the best overall efficiency. 1、steel mechanical link 1.1 radial squeeze link Will be a steel sleeve in two sets to the highly-reinforced Department with superhigh pressure hydraulic equipment (squeeze tongs) along steel sleeve radial squeeze steel casing, in squeezing out tongs squeeze pressure role of a steel sleeve plasticity deformation closely integrated with reinforced through reinforced steel sleeve and Wang Liang's Position will be two solid steel bars linked Characteristic: Connect intensity to be high, performance reliable, can bear high stress draw and pigeonhole the load and tired load repeatedly.
常用单位的中英文对照翻译
常用单位的中英文对照翻译 单位 Unit. 单位制 system of units 米 meter (m) 毫米 millimeter (mm) 英尺 foot (ft) 英寸 inch (in) 弧度 radian (rad) 度degree (°) 摄氏 Celsius. (C) 华氏 Fahrenheit (F) 磅/平方英寸 pounds per square inch (psi) 百万帕斯卡 million pascal (MPa) 巴 bar 千克(公斤) kilogram (kg) 克 gram (g) 牛顿 newton (N) 吨 ton (t) 千磅 kilopound (kip) 平方米 square meter (m 2) 方毫米 square millimeter (mm2 ) 立方米 cubic meter (m3 ) 升 liter; litre (L) 转/分 revolutions per minute (rpm) 百万分之一 parts per million (ppm) 焦(耳) Joule (J) 千瓦 kilowatt (kW) 伏(特) volt (V) 安(培) ampere (A) 欧(姆)ohm (Ω) (小)时 hour (h) 分 minute (min) 秒 second (s)
管道组成件专业英语(中英文对照) 1 管道组成件 Piping component 1.1 管子 Pipe 管子(按照配管标准规格制造的) pipe 管子(不按配管标准规格制造的其他用管) tube 钢管 steel pipe 铸铁管 cast iron pipe 衬里管 lined pipe 复合管 clad pipe 碳钢管 carbon steel pipe 合金钢管 alloy steel pipe 不锈钢 stainless steel pipe 奥氏体不锈钢管 austenitic stainless steel pipe 铁合金钢管 ferritic alloy steel pipe 轧制钢管 wrought-steel pipe 锻铁管 wrought-iron pipe 无缝钢管 seamless (SMLS) steel pipe 焊接钢管 welded steel pipe 电阻焊钢管 electric-resistance welded steel pipe 电熔(弧)焊钢板卷管 electric-fusion (arc)-welded steel-plate pipe 螺旋焊接钢管 spiral welded steel pipe 镀锌钢管 galvanized steel pipe 热轧无缝钢管 hot-rolling seamless pipe 冷拔无缝钢管 cold-drawing seamless pipe 水煤气钢管 water-gas steel pipe 塑料管 plastic pipe 玻璃管 glass tube 橡胶管 rubber tube 直管 run pipe; straight pipe 1.2 管件 Fitting 弯头 elbow 异径弯头 reducing elbow 带支座弯头 base elbow k半径弯头 long radius elbow 短半径弯头 short radius elbow
土木工程外文文献翻译
专业资料 学院: 专业:土木工程 姓名: 学号: 外文出处:Structural Systems to resist (用外文写) Lateral loads 附件:1.外文资料翻译译文;2.外文原文。
附件1:外文资料翻译译文 抗侧向荷载的结构体系 常用的结构体系 若已测出荷载量达数千万磅重,那么在高层建筑设计中就没有多少可以进行极其复杂的构思余地了。确实,较好的高层建筑普遍具有构思简单、表现明晰的特点。 这并不是说没有进行宏观构思的余地。实际上,正是因为有了这种宏观的构思,新奇的高层建筑体系才得以发展,可能更重要的是:几年以前才出现的一些新概念在今天的技术中已经变得平常了。 如果忽略一些与建筑材料密切相关的概念不谈,高层建筑里最为常用的结构体系便可分为如下几类: 1.抗弯矩框架。 2.支撑框架,包括偏心支撑框架。 3.剪力墙,包括钢板剪力墙。 4.筒中框架。 5.筒中筒结构。 6.核心交互结构。 7. 框格体系或束筒体系。 特别是由于最近趋向于更复杂的建筑形式,同时也需要增加刚度以抵抗几力和地震力,大多数高层建筑都具有由框架、支撑构架、剪力墙和相关体系相结合而构成的体系。而且,就较高的建筑物而言,大多数都是由交互式构件组成三维陈列。 将这些构件结合起来的方法正是高层建筑设计方法的本质。其结合方式需要在考虑环境、功能和费用后再发展,以便提供促使建筑发展达到新高度的有效结构。这并
不是说富于想象力的结构设计就能够创造出伟大建筑。正相反,有许多例优美的建筑仅得到结构工程师适当的支持就被创造出来了,然而,如果没有天赋甚厚的建筑师的创造力的指导,那么,得以发展的就只能是好的结构,并非是伟大的建筑。无论如何,要想创造出高层建筑真正非凡的设计,两者都需要最好的。 虽然在文献中通常可以见到有关这七种体系的全面性讨论,但是在这里还值得进一步讨论。设计方法的本质贯穿于整个讨论。设计方法的本质贯穿于整个讨论中。 抗弯矩框架 抗弯矩框架也许是低,中高度的建筑中常用的体系,它具有线性水平构件和垂直构件在接头处基本刚接之特点。这种框架用作独立的体系,或者和其他体系结合起来使用,以便提供所需要水平荷载抵抗力。对于较高的高层建筑,可能会发现该本系不宜作为独立体系,这是因为在侧向力的作用下难以调动足够的刚度。 我们可以利用STRESS,STRUDL 或者其他大量合适的计算机程序进行结构分析。所谓的门架法分析或悬臂法分析在当今的技术中无一席之地,由于柱梁节点固有柔性,并且由于初步设计应该力求突出体系的弱点,所以在初析中使用框架的中心距尺寸设计是司空惯的。当然,在设计的后期阶段,实际地评价结点的变形很有必要。 支撑框架 支撑框架实际上刚度比抗弯矩框架强,在高层建筑中也得到更广泛的应用。这种体系以其结点处铰接或则接的线性水平构件、垂直构件和斜撑构件而具特色,它通常与其他体系共同用于较高的建筑,并且作为一种独立的体系用在低、中高度的建筑中。
建筑学毕业专业外文翻译文献doc资料
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Xia dong liang 【Abstract】:The association space refers to the indoor and outdoor space for communication between residents.The article presents an overall discussion of the necessity,hierarchy and functionality of association space,with a wish to create positive and healthy association atmosphere and stimulate good communication among residents so that the residential area can become a homeland full of love and harmony. 【Keyword】:residential area;association space;necessity;hierarchy;Functionality 【Foreword】:As the housing system reform and the rapid development of real estate, urban residential areas large urban settlements have emerged on the layout of residential buildings, public buildings, public green space, life and living facilities such as roads, to provide urban residents live in the community and The establishment, is an integral part of the city. Exchanges between the living room area residents is to communicate and exchange of indoor and outdoor space. At this stage, people's living standards greatly improved the living environment of continuous improvement district. Developers should not only focus on residential construction and the reasonable comfort, paying greater attention to the construction of residential environment. However, the current environment in the construction of residential areas, they are often the natural ecology of greening the environment is much more to consider, and the promotion of exchanges between the residents of the space environment to consider less, environmental construction can not meet the occupants of the psychological characteristics and needs. From the basic physiological needs gradually to meet the psychological and cultural fields of promoting a higher level, the residential area is not only the function of living, but also people's thinking and feelings of the local exchange. Therefore, the strengthening of exchanges between the residential areas of space construction, increase residential neighbourhood affinity, should be developed in the planning and construction of residential areas should also consider the issue. How to conduct exchanges between the residential areas of space planning and design, improve people's quality of life, the author of his own real estate development
段落翻译 中英文对照
1. The Dragon Boat Festival, also called the Duanwu Festival, is celebrated on the fifth day of the fifth month according to the Chinese calendar. For thousands of years, the festival has been marked by eating Tzung Tzu and racing dragon boats. The most important activities of this festival are the dragon boat races. Competing teams drive their colorful dragon boats forward to the rhythm(节奏,韵律) of beating drums. These exciting races were inspired by the villager's attempts to rescue Chu Yuan from the Mi Lo River. This tradition has remained unbroken for centuries. A very popular dish during the Dragon Boat festival is tzung tzu. This tasty dish consists of rice dumplings with meat, peanut, egg yolk(蛋黄), or other fillings wrapped in bamboo leaves. The tradition of tzung tzu is meant to remind us of the village fishermen scattering rice across the water of the Mi Low River in order to appease the river dragons so that they would not devour Chu Yuan. 一,端午节 龙舟节也叫做端午节,它位于每年农历的五月初五,经过几千年的时间,划龙舟和吃粽子已经成为这个节日的标志。 端午节最重要的活动是龙舟竞赛,比赛的队伍在热烈的鼓声中划著他
中英对照建筑学经典词汇
外立面:facade 跨度:Span 坡道:ramp 砍墙:Hom wall 墙面:Metope 铝合金:aluminium alloy 透明中空玻璃:transparent insulating glass 隔墙:partition 檩条;purlin 库板:panel, board 加气砼砌块: aerated concrete block 矿棉:mineral wool 水泥砂浆:cement mortar 抹灰/粉刷:plastering 轻钢龙骨:lightgage steel joist 石膏板:Plasterboard 托盘架: pallet rack 台阶坡道散水工程Steps ramp apron work 零星工程:Piecemetal works Drumming line 灌装站 Isotainer yard 标准槽灌堆场 Eurotint building 胶衣配色间 防火分区:fire compartment 石砌块墙体:masonry wall 内外:interior exterior 液压卸货平台:hydraulic dock leveler 地勘报告:geology survey 土层分布:soil layer distribution 预应力砼管桩:pre-stressed concrete tubular pile 岩土:geotechnical/rock soil 荷载:load 电缆桥架:Cable tray 沉降:sedimentation 密度:density 防爆荧光灯:anti-blast fluorescent lamp 插座:outlet 探测器:detector/sensor 配电盘,开关板; switch board 管架:pipe bridge 开工:commencement 开办费:Preliminary cost 维护:maintenance 建立:setup 主体:main body
框架结构设计外文翻译
毕业设计(论文)外文资料翻译 系:机械工程系 专业:土木工程 姓名: 学号: 外文出处:Design of prestressed (用外文写) concrete structures 附件: 1.外文资料翻译译文;2.外文原文。
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建筑学专业毕业设计方案外文翻译二44
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学历学位中英文翻译对照
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建筑专业词汇中英文对照
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建筑物的三面图elevati on 设计图plan 比例尺scale 预制to prefabricate 挖土,掘土excavation 基foun dati ons, base, subgrade 打地基to lay the foundations 砌好的砖歹U course of bricks 脚手架scaffold, scaffolding 质量合格证书certificatio n of fitn ess 原材料raw material 底板bottom plate 垫层cushi on 侧壁sidewall 中心线center line 条形基础strip footing 附件accessories 型辛钢profile steel 钢板steel plate 熔渣slag 飞溅weldi ng spatter 定位焊tacking 弓I弧gen erati ng of arc 熄弧que nching of arc 焊道weldi ng bead 坡口beveled edges 夕卜观检查visual inspection 重皮double-sk in 水平方向弧度radia n in horiz on tai direct ion 成型moldi ng 直线度straightness accuracy 焊缝角变形welding line angular distortion 水平度levelness 铅垂度verticality
建筑外文文献及翻译
外文原文 Study on Human Resource Allocation in Multi-Project Based on the Priority and the Cost of Projects Lin Jingjing , Zhou Guohua SchoolofEconomics and management, Southwest Jiao tong University ,610031 ,China Abstract----This paper put forward the a ffecting factors of project’s priority. which is introduced into a multi-objective optimization model for human resource allocation in multi-project environment . The objectives of the model were the minimum cost loss due to the delay of the time limit of the projects and the minimum delay of the project with the highest priority .Then a Genetic Algorithm to solve the model was introduced. Finally, a numerical example was used to testify the feasibility of the model and the algorithm. Index Terms—Genetic Algorithm, Human Resource Allocation, Multi-project’s project’s priority . 1.INTRODUCTION More and more enterprises are facing the challenge of multi-project management, which has been the focus among researches on project management. In multi-project environment ,the share are competition of resources such as capital , time and human resources often occur .Therefore , it’s critical to schedule projects in order to satisfy the different resource demands and to shorten the projects’ duration time with resources constrained ,as in [1].For many enterprises ,the human resources are the most precious asset .So enterprises should reasonably and effectively allocate each resource , especially the human resource ,in order to shorten the time and cost of projects and to increase the benefits .Some literatures have
中文姓氏的英文翻译对照表
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常--Chiong 车--Che 陈--Chen/Chan/Tan 成/程--Cheng 池--Chi 褚/楚--Chu 淳于--Chwen-yu D: 戴/代--Day/Tai 邓--Teng/Tang/Tung 狄--Ti 刁--Tiao 丁--Ting/T 董/东--Tung/Tong 窦--Tou 杜--To/Du/Too 段--Tuan 端木--Duan-mu 东郭--Tung-kuo 东方--Tung-fang E: F: 范/樊--Fan/Van 房/方--Fang 费--Fei 冯/凤/封--Fung/Fong 符/傅--Fu/Foo G: 盖--Kai 甘--Kan 高/郜--Gao/Kao 葛--Keh 耿--Keng 弓/宫/龚/恭--Kung 勾--Kou 古/谷/顾--Ku/Koo 桂--Kwei
建筑专业词汇中英对照(精心整理版)
1DESIGN BASIS 设计依据 计划建议书planning proposals 设计任务书design order 标准规范standards and codes 条件图information drawing 设计基础资料basic data for design 工艺流程图process flowchart 工程地质资料engineering geological data 原始资料original data 设计进度schedule of design 2STAGE OF DESIGN 设计阶段 方案scheme, draft 草图sketch 会谈纪要summary of discussion 谈判negotiation 可行性研究feasibility study 初步设计preliminary design 基础设计basic design 详细设计detail design 询价图enquiry drawing 施工图working drawing, construction drawing 竣工图as built drawing 3CLIMATE CONDITION 气象条件 日照sunshine 风玫瑰wind rose 主导风向prevailing wind direction 最大(平均)风速maximum (mean) wind velocity 风荷载wind load 最大(平均)降雨量maximum (mean) rainfall 雷击及闪电thunder and lightning 飓风hurricane 台风typhoon 旋风cyclone 降雨强度rainfall intensity 年降雨量annual rainfall 湿球温度wet bulb temperature 干球温度dry bulb temperature 冰冻期frost period
建筑学 外文翻译 外文文献 英文文献 绿色建筑
原文: DOCTORAL FORUM NA TIONAL JOURNAL FOR PUBLISHING AND MENTORING DOCTORAL STUDENT RESEARCH VOLUME 7, NUMBER 1, 2010 Green buildings Priscilla D. Johnson PhD Student in Educational Leadership Whitlowe R. Green College of Education Prairie View A&M University Prairie View, Texas William Allan Kritsonis, PhD Professor and Faculty Mentor PhD Program in Educational Leadership Whitlowe R. Green College of Education Prairie View A&M University Member of the Texas A&M University System Prairie View, Texas Hall of Honor (2008) William H. Parker Leadership Academy, Graduate School Prairie View A&M University Member of the Texas A&M University System Prairie View, Texas Visiting Lecturer (2005) Oxford Round Table University of Oxford Oxford, England Distinguished Alumnus (2004) College of Education and Professional Studies Central Washington University Ellensberg, Washington Abstract: Green building refers to do its best to maximize conservation of resources (energy, land, water, and wood),protecting the environment and reduce pollution in its life cycle. Provide people with healthy, appropriate and efficient use of space, and nature in harmony symbiosis buildings. I described more details of green building design’notion, green building’design, as well as the significance of the concept of green building and improve the effectiveness analysis of