Weld Symbols

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）保护气体shielding gas变形 deformation波浪变形buckling distortion补焊repair welding残余应力residual-stress层状撕裂 Lamellar Tear插销试验Implant T est常规力学性能convention mechanics performance超声波探伤 ultrasonic inspection衬垫焊welding with backing船形焊fillet welding in the flat position磁粉探伤 magnetic particle inspection粗滴过渡 globular transfer脆性断裂 brittlement fracture淬火 vt. quench n. ~ing错边变形 dislocating distortion搭接 lap welding打底焊backing welding单道焊single-pass welding单面焊welding by one side导电嘴wire guide ;contact tube等离子弧焊plasma welding低合金钢 low alloy steel点焊 spot welding电弧动特性 dynamic characteristic电弧焊 electric arc welding电弧静特性 static characteristic电极electrode电流current电压voltage电源power supply;power source电阻焊 resistance welding调修correct定位焊 tack welding短路过渡 short circuiting transfer段焊tack断续焊intermittent welding堆焊surfacing;build up welding对接butt welding钝边 root face多层焊multi-layer welding多道焊multi-pass welding二氧化碳气体保护焊 carbon-dioxide arc welding 反接reversed polarity;positive electrode返修焊rewelding飞溅splash飞溅spatter分段多层焊 block sequence welding分段退焊 backstep sequence封底焊back welding;sealing welding缝焊seam welding根部间隙 root gap;root opening固体夹杂solid inclusions过热区overheated zone焊道bead焊缝seam welding焊缝凹度concavity焊缝成形系数 form factor(of the weld )焊缝代号welding symbols焊缝厚度 weld throat thickness焊缝金属weld metal焊缝宽度weld width焊缝凸度 convexity焊根root of weld焊后热处理 postweld heat treatment焊机welding machine焊剂fluxes焊脚尺寸 fillet weld size；size of a fillet weld焊接变位机welding positioner焊接变位机positioner焊接材料 welding material焊接残余变形 welding residual deformation焊接翻转机welding tilter焊接工艺welding technology焊接工艺参数 welding condition(welding parameter) 焊接工艺评定evaluation about technology of welding 焊接工作台 welding bench焊接规范welding norm ;welding specifation焊接机器人 welding robot焊接技术 welding technique焊接夹具 fixture焊接缺陷 crack imcomplete penatration焊接热循环 weld thermal cycle焊接熔池 welding pool焊接顺序welding sequence焊接速度 welding speed焊接位置 position of welding焊接温度场 welding temperature field焊接性weldability焊接性weldability焊接应力 welding stress焊瘤overlap焊枪welding gun焊丝 welding wire焊条 welding rod;electrode焊趾 toe of weld横焊horizontal position welding横向收缩变形transverse shringkage distortion 后热postheat弧长length of arc弧坑裂纹 crater crack划线criibing混合比mixing ratio基本尺寸 basic dimensions激光焊laser beam welding夹紧力clamping force间隙 gap减压器pressure regulator交流 alternating current角变形angular distortion角接 fillet welding接头 joint近缝区Near Weld Zone开焊接坡口bevelling快速割嘴 nozzle for high-flame cutting 扩散焊diffusion welding冷裂纹Cold Cracking立焊vertical position welding连续焊continuous welding流量 the rate of flow流量计flowmetre螺旋变形twisting distortion埋弧焊 submerged arc welding脉冲氩弧焊 plused argon arc welding密封性检验 leak test摩擦焊 friction welding母材basic material内应力 internal stress耐压检验 pressure test挠曲变形bending distortion扭曲变形 distormation喷射过渡 spray transfer喷嘴nozzle疲劳性能 fatigue property平焊flat position welding坡口 groove坡口角度groove angle气孔gas cavity气密性检验 air tight test气体保护电弧焊 gas shielding arc welding 钎焊brazing;soldering切割 cut氢致裂纹 Hgdrogen induced Crack清根back chipping缺陷imperfection缺陷分级 classification for imperfection 热烈纹heat crack热烈纹 Hot Cracking热应力thermal stress热影响区 Heat Affected ZoneAactual weld-throat thick-ness焊缝厚度all-around weld (整周焊缝)环焊缝angle butt weld斜对接焊angle weld角焊appearance of weld焊缝成形arc-seam weld电弧缝焊arc-spot weld电弧点焊arc-weld电弧焊arc welding 弧焊aspect ratio of weld焊缝成形系数at weld edge在焊缝边上attachment weld连接焊缝automatic spot weld自动点焊法automatic weld自动焊接axis of a weld焊缝中心线; 焊接轴线axis of weld焊缝轴线; 焊接轴线arc seam weld电弧缝焊缝arc spot weld 电弧焊点arc strike 碰弧as–brazed 钎接态as–welded 焊态argon (shielded) arc welding氩弧焊接argon tungsten-arc welding钨极氩弧焊argon-arc welding氩弧焊argonaut welding自动氩弧焊atomic H welding氢原子焊atomic hydrogen welding原子氢焊atomic-hydrogen welding原子氢焊接austenite welding不锈钢焊接autogenous pressure welding自动压合热焊autogenous welding气焊automatic arc welding head自动电弧焊接机头automatic arc welding machine自动电焊机; 自动弧焊机automatic drying line for welding electrode电焊条自动烘焙线automatic slag pool welding自动电渣焊automatic spot welding自动点焊automatic submerged arc welding自动埋弧焊automatic submerged slag welding of rail钢轨自动埋弧电弧焊automatic submerged-arc welding machine埋弧自动焊机automatic transverse welding横向自动焊automatic welding自动焊; 自动焊接automatic welding head自动焊头automatic welding machine自动焊接机automatic welding of circumferential seams环缝自动焊automatic welding process自动焊接工艺规程automation of welding焊接自动化arc-welded pipe弧焊管arc-welded steel pipe电弧焊接钢管around openings for welded attachments环绕焊接附件孔口as welded焊态（金属加工微信提供）as-welded焊后状态automatic arc welded tube自动电弧焊缝管air-acetylene welding空气-乙炔焊接argon arc welding 氩弧焊automatic slag-pool welding 自动电渣焊aircomatic welding 自动调弧氩弧焊, 惰性气体保护金属极弧焊aluminothermic welding 铸焊, 铝热剂焊接austenite welding 不锈钢(焊条)焊接automatic submerged arc welding 自动埋弧焊argon shielded arc welding 氩护电弧焊all-welded全焊接all-welded construction全焊结构automatic spot weld 自动点焊法AC & D. C. arc welding machine交直流弧焊机AC arc welding交流电弧焊AC gas metal-arc welding process交流熔化极气保护焊AC gas tungsten arc welding交流钨极气保护焊AC welding set交流焊机; 交流焊接变压器AC-dc welding machine交直流两用焊机acetylene welding气焊; 乙炔焊; 乙炔焊接acetylene welding torch乙炔焊炬; 乙炔接焊吹管air-acetylene welding空气-乙炔焊接all-position welding全位置焊接alloy steel gas welding rod合金钢气焊条alternating current arc welding交流电弧焊alternating current welding machine交流电焊机aluminium alloy arc welding electrode铝合金焊条aluminothermic welding铝热焊; 铸焊angle backwards welding后倾焊axial bend test纵弯试验angle butt welding斜口对接焊angle forwards welding前倾焊annealing welding wave退火焊波antogenous welding氧炔焊apparatus for butt welding平接压焊夹具arc braze welding电弧钎焊arc flash welding电弧闪光焊arc spot welding电铆焊arc stud welding柱钉电弧焊; 螺柱电弧焊arc voltage feedback controlling arc welding弧压反馈电弧焊arc welding电弧焊; 电弧焊接; 弧焊arc welding electrode电弧焊条（金属加工微信提供）arc welding generator电弧焊接用发电机; 弧焊发电机arc welding generator with independent excitation自激弧焊发电机; 他激电焊发电机arc welding generator with self-excitation自激电焊发电机arc welding machine弧焊机; 电焊机; 电弧焊机arc welding mask电弧焊遮罩arc welding process电弧焊接工艺过程arc welding rectifier弧焊整流器arc welding robot弧焊机器人arc welding set电弧焊机组arc welding transformer弧焊变压器arc-welding electrode电弧焊用焊条arc-welding plant电焊厂arcogen welding电弧氧乙炔焊air-acetylene welding空气-乙炔焊接aircomatic welding自动调弧氩弧焊, 惰性气体保护金属极弧焊aluminothermic welding铸焊, 铝热剂焊接argon arc welding氩弧焊（金属加工微信提供）argon shielded arc welding氩护电弧焊austenite welding不锈钢(焊条)焊接automatic slag-pool welding自动电渣焊automatic submerged arc welding自动埋弧焊Bback of weld焊缝背面back gouging 背面清根backing 衬垫backing gas 背面保护气base metal 母材backing groove of weld焊缝反面坡口backing weld底焊; 底焊焊缝bare metal arc weld裸焊条电弧焊bead weld珠焊; 堆焊bead-on-plate weld堆焊焊缝beading weld凸焊beam-to-beam weld梁间焊接; 梁式引线焊接block sequence weld分段多层焊bond weld钢轨接头焊接bridge seam weld桥缝焊接; 桥线焊brize weld硬焊braze 钎接接头brazer 钎接工brazing 钎接butt weld对接焊缝butt weld ends对头焊接端butt-weld碰焊; 平式焊接; 对头焊接butt-weld in the downhand position对接平焊butt-weld joint对头焊接butt-weld pipe mill对焊管轧机button spot weld按电钮点焊back hand welding后退焊; 反手焊接back step welding反手焊接back ward welding反手焊接back welding底焊; 退焊法back-step welding分段退焊法backhand welding逆向焊; 右焊法; 后焊法; 向后焊backing welding打底焊backstep welding分段逆焊; 分段退焊; 反向焊; 逐步退焊法; 逆向焊backstep welding sequence分段退焊次序backward welding后倾焊; 后退焊; 向右焊balanced welding对称焊bare welding rod光焊条bare wire arc welding光焊丝电弧焊bead welding窄焊道焊接bench arc welding machine台式弧焊机bevel welding斜角焊blacksmith welding锻工焊接; 锻焊block sequence welding分段多层焊; 分段连续焊接block welding块焊接big diameter welded tube大口径焊缝管blacksmith welded joint煅接接头butt welded (bw)对焊机butt welded seam对焊缝butt-welded drill对头焊接钻头butt-welded joint对焊接头butt-welded pipe对缝焊接管butt-welded rail ends对焊轨端butt-welded tube对缝焊管; 对焊钢管; 对口焊接钢管butt-welded with square ends方头对焊braze welding硬焊, 铜焊, 钎焊butt welding对接焊, 对焊butt weld对接焊缝blasting welding factory爆破焊接厂braze welding 硬焊, 铜焊, 钎焊butt welding 对接焊, 对焊butt weld 对接焊缝backing run; backing weld打底焊道block welding sequence分段多层焊body welding machine罐身焊接机both sides welding双面焊接brass welding rod黄铜焊条braze welding钎焊; 钎焊接; 钎接; 铜焊braze-welding钎接焊bridge spot welding带接合板点焊; 单面衬垫点焊; 单面搭板点焊bridge welding桥接焊; 盖板焊brize welding硬焊build (built) up welding堆焊build-up welding堆焊building-up by welding堆焊butt resistance welding电阻对焊; 对接电阻焊butt seam welding对接滚焊butt seam welding machine对接缝焊机butt welding对接焊; 平对焊butt welding machine对接焊机butt welding process对接焊法butt-welding对接焊butt-welding machine对焊机Ccap weld最后焊层; 盖面焊缝carbon content of weld materials焊接材料的碳含量cast-weld construction铸焊结构caulk weld填缝焊contour weld 特形焊接concave fillet weld 凹角焊carbon arc weld 碳极弧焊capability of welding vertically upwards直上焊接能力capacitor-discharge welding电容放电焊接carbon arc welding碳弧焊; 碳极弧焊carbon in materials for welding焊接用材料中的碳carbon-dioxide arc welding二氧化碳保护焊carriage of automatic welding machine自动焊机走架cascade welding阶梯式焊; 山形多层焊cascade welding sequence串级叠置法cast welding铸焊concave fillet weld凹形角焊缝carbon arc weld碳极弧焊concave fillet weld凹角焊contour weld特形焊接cement-welding金属陶瓷焊接centralized installation of welding machine多站焊接chain intermittent fillet welding并列断续角焊缝; 链式断续角焊chemical welding化学焊circular seam welding环缝对接焊circular seam-welding machine环形滚焊机cleaning before welding焊接前的清理cleaning of welding deposits焊接沉积的清理closed butt gas pressure welding闭式加压气焊cold welding冷焊; 冷压焊cold-pressure welding冷压焊combined cutting and welding torch焊割两用炬combined cutting and-welding blow-pipe焊割两用炬combined thermit welding加压铸焊complete penetraction and fusion in welding全焊透complete fusion 完全熔合caulking weld密实焊缝chain intermittent fillet weld链式分段角焊; 并列间断角焊缝chain intermittent weld并列焊接circular weld环形焊缝circumferential weld环缝; 环焊缝cleft weld裂口焊closed weld底边无缝焊; 无间隙焊缝closed-chamber fusion weld闭室熔焊cluster weld丛聚焊缝coil weld 卷板对接焊; 卷板对接焊; 板卷焊cold weld 冷压接commutator-controlled weld 换向控制焊接complete penetration butt weld 贯穿对焊composite weld 紧密焊缝; 强度密封焊缝concave filled weld 凹形角焊缝concave filler weld 凹角焊concave fillet weld 凹面填角焊concave weld 凹焊缝; 凹面焊; 凹形焊缝; 轻型焊connective weld 联系焊缝continuous butt-weld mill 连续式炉焊管机组continuous fillet weld连续(填)角焊缝; 连续角焊缝; 连续贴角焊continuous weld 连续焊缝continuous weld process连续式炉焊管法contour weld 特形焊接convex fillet weld 凸角焊缝; 凸形角焊缝convex weld 凸焊缝; 凸形焊缝copper weld wire 包铜钢丝corner flange weld 单卷边角焊缝corner weld 角焊corner-flange weld 卷边角焊缝; 卷边角焊缝crack of weld 焊部裂纹cross weld十字交叉焊缝; 横向焊缝cross-wire weld十字焊crotch weld 楔接锻接; 楔接焊接cup weld 带盖板焊缝condenser (discharge) spot-welding machine 电容器放电点焊机condenser discharge spot welding 电容储能点焊; 电容贮能点焊constant current welding machine 恒流电焊机constant energy welding machine 恒功率电焊机constant voltage welding machine 恒压电焊机constant-current arc welding power source 垂降特性弧焊电源constant-current welding source 恒流式焊接电源constant-power welding source 恒功率式焊接电源constant-pressure pressure welding 恒压压力焊constant-temperature pressure welding恒温压力焊constant-voltage welding machine恒电压焊机constant-voltage welding source恒压式焊接电源; 平特性焊接电源consumable electrode welding 熔化极电弧焊consumable guide electroslag welding自耗定向电渣焊contact welding 接触焊continuous feed welding 连续送丝电弧焊continuous welding 连续焊; 连续焊接contour welding 绕焊controlled arc welding 可控电弧焊接controlled atmosohere arc welding 充气室电弧焊controlled atmospere arc welding 充气式电弧焊controlled tungsten-arc welding 自动控制弧长的钨极电弧焊controlled-transfer welding 可控过渡电弧焊convex fillet welding 凸面角焊缝copper arc welding electrode 铜焊条copper welding rod 铜焊条copper-alloy arc welding electrode 铜合金焊条copper-aluminium welding rod 铜铝焊条copper-nickel welding rod 铜镍焊条copper-silicon welding rod 铜硅焊条copper-tin welding rod 铜锡焊条copper-zinc welding rod 铜锌焊条core welding-wire 焊芯core wire for welding rod 焊条芯线corrosion due to welding 焊接腐蚀cosmetic welding 盖面焊cover chain welding 链节式药皮包丝焊接CO2 arc welding machine 二氧化碳弧焊机cracking test for automatic welding 自动焊抗裂试验crankshaft flashbutt welding 曲轴电阻弧花压焊cross welding 横向焊缝cyc-arc welding 圆环电弧焊cast welded rail joint 铸焊钢轨接头continuous welded rail 连续焊接钢轨carbon arc welding 碳弧焊carbon dioxide gas arc welding二氧化碳气体保护焊Ddepth of weld焊接深度dissimilar weld metal不同的焊接金属; 不同金属的焊接distance between the toes of a weld焊缝宽度double groove weld双面坡口焊缝double-bevel groove weld双斜边坡口焊缝; 双斜坡口焊double-flanged butt weld双弯边对接焊缝double-V groove weld双斜边坡口焊缝; 双斜坡口焊downhand weld平焊缝duplex spot weld双点点焊接头deck welding重力焊double fillet welded T-joint双面丁字形焊接double-welded butt joint双面焊对接接头double-welded lap joint双面焊搭接接头deep fillet welding深熔角焊downhand welding俯焊downward welding平焊, 俯焊downhand weld 平焊缝double-bevel groove weld 双斜边坡口焊缝, K形坡口焊缝deep fillet welding深角焊deep penetration welding深熔焊deep penetration welding electrode深熔焊条deep welding深焊die welding模焊; 冲模堆焊diesel engine driven DC arc welding machine柴油机驱动直流弧焊机differential-excited welding generator差激电焊发电机diffusion welding扩散焊接direct spot welding双面点焊direct welding双面点焊direction of welding焊接方位; 焊接方向discontinuous welding断续焊dot welding点焊double carbon-arc welding间接碳弧焊double side welding双面焊接down-hand welding俯焊downhand welding平焊downward welding in the inclined position下坡焊downward welding in the vertical position向下立焊dual-arc welding双弧焊double-bevel groove weld双斜边坡口焊缝, K形坡口焊缝downhand weld平焊缝Eedge joint weld边缘焊edge weld端接焊; 端接焊缝; 端面焊缝; 对边焊electric resistance weld mill电阻焊管机electric weld-pipe mill电焊管机groove weld坡口焊; 坡口焊缝; 有坡口焊缝; 凹槽焊electric-weld pipe mill电焊管机emporary weld临时点定焊缝excess weld metal焊缝补强金属; 补强; 补强焊料; 补强金属excess weld metal(焊缝的)余高explosive weld爆炸焊接electric welded anchor cable电焊锚链electric welded steel pipe电焊钢管electric-resistance-welded steel pipe电阻焊钢管electric-welded pipe电焊管electrically welded tube电焊管expanded and welded tube joint胀焊electric butt welding welding电阻接触焊electrogas welding气电焊electrogas flux-cored welding气电管状焊条焊接electro-beam welding电子束焊接electrode [electrical arc] welding电弧焊electron-bombardment welding真空电子束焊electronic arc welding直流电弧焊electrons leaves welding电子束焊接electropercussive welding电冲击焊, 电接触焊, 电点焊electroslag welding电渣焊electrostatic percussion welding静电焊接eutectic welding低温焊exothermic welding铝热焊edge seam welding端面接头滚焊edge welding边缘焊接edgewise welding沿边焊接electric and pressure welding电压力焊接electric arc spot welding电弧点焊electric arc welding generators电弧焊接发电机electric arc welding machine电弧焊机electric butt welding电阻接触焊electric resistance welding电阻焊接; 热电阻焊electric slag welding电渣焊electric spot welding电点焊electric welding电焊electric welding cast copper solder铸铜电焊条electric welding equipment电焊设备electric welding generator电焊发电机electric welding hammer电焊锤electric welding machine电焊机electric welding plant电焊厂electric welding pliers电焊钳electric welding rod电焊条electric welding strip电焊片electric-arc welding电弧焊electric-resistance seam-welding电阻缝焊explosive welding爆炸焊接edge weld端接焊缝explosive weld 爆炸焊接explosive weld爆炸焊接Fface of weld焊缝表面; 焊接面fibrous weld纤维状焊缝field weld现场焊接filler weld填角焊缝fillet weld角焊缝; 填角焊; 贴角焊fillet weld in normal shear (搭接接头的)正面角焊缝fillet weld in parallel shear侧面角焊缝; 侧面填角焊fillet weld in the flat position角接平焊; 水平角焊缝fillet weld in the horizontal position横向角焊缝fillet weld size焊角尺寸; 填角焊缝尺寸flame weld火焰焊接flange weld卷边焊缝; 卷边焊缝flange-to-web weld卷边焊缝; 卷边焊缝flanged butt weld弯边对接焊flanged edge weld卷边焊; 卷边焊flash butt weld闪光焊flash weld闪速对焊flat faced fillet weld平顶角焊缝焊接flat fillet weld平角焊ing of fillet weld角焊缝平焊; 船形角焊flush fillet weld平角焊flush weld削平补强的焊缝; 平焊接; 无加强高的焊缝forge weld锻焊焊缝forged weld (焊后锻压的)锻压焊缝form factor of the weld焊缝成形系数formation of weld焊缝成形front fillet weld正侧面填角焊缝; 正面填角焊front(al) fillet weld正面角焊缝full fillet weld满角焊缝; 全角焊full penetration butt weld满对接焊full weld满焊full-fillet weld满角焊full-sized weld全尺寸焊缝full-strength weld (与母材等强)等强焊缝fillet welding (填角焊)贴角焊fillet welding in the downhand position船形角焊fillet welding in the flat position船形焊fillet welding in the horizontal position横角焊fillet welding in the vertical position立角焊fine welding精密焊接fine wire welding细丝焊fire cracker welding躺焊fire welding锻焊; 锻接fixed welding machine固定式焊机fixed-position welding定位焊接flame welding熔气焊flare welding喇叭形坡口焊接flash butt welding闪光对焊; 闪光对接焊flash welding闪光电弧焊; 闪光焊; 闪焊; 火花电弧焊; 火花对焊flash-butt welding电阻闪光焊接flashover welding闪光焊flat position welding平焊; 顶面平卧焊flat position welding of fillet weld角焊缝平焊; 船形角焊flat welding平卧焊（金属加工微信提供）flexible welding rod软焊条flexible wire for electric welding电焊软线flow welding流注焊接; 浇焊fluid welding流焊flux-cored welding包芯焊条焊接fly-wheel type friction welding贮能摩擦焊; 储能摩擦焊flywheel friction welding惯性摩擦焊forehand welding向前焊; 向左焊; 左焊法; 左向焊; 正手焊forge welding锻焊; 锻接焊forward welding正手焊; 左焊法; 左向焊; 前进焊; 前倾焊; 向前焊friction welding摩擦焊; 摩擦焊接friction welding machine摩擦焊接机frontal fillet welding正面角焊full automatic welding全自动焊full-automatic arc welding全自动电弧焊full-fillet welding满角焊full-fusion thermit welding热剂铸焊full-fusion welding全熔合焊full-length welding满焊fusion pressure welding熔化压接fusion thermit welding热剂熔焊; 熔化铝热焊fusion type plasma arc welding熔透型等离子弧焊fusion type welding熔透型焊接法fusion welding熔焊接fillet welded joint填角焊缝forge-welded (monolayered) cylinder锻焊式单层圆筒forged and welded vessel锻焊式容器fine welding精密焊接fine wire welding细丝焊接fire cracker welding躺焊fixed-position welding定位焊接flare welding喇叭形坡口焊接flash butt welding闪光对接焊flat position welding(顶面)平卧焊flux-cored welding包芯焊条焊接flat position of welding平焊位置forehand welding顺手焊接foreward welding左焊法fusion welding熔焊fusion pressure welding熔化压接fusion thermit welding熔化铅热焊furnace butt-welded pipe对接炉焊管flywheel type friction welding; inertia welding储能摩擦焊fusion welding metal熔焊金属fabrication weldability工艺焊接性Ggap weld特殊点焊; 双极单点焊gas-pressure weld气压焊girth weld环形焊缝gravity weld倚焊groove-weld joint有坡口焊接接头galvanized and welded steel pipe镀锌焊缝钢管galvanized electric welded mesh镀锌电焊网galvanized welded tube镀锌焊缝管galvanized welded wire mesh镀锌电焊网gas welded joint气焊接头guided-bend test for butt welded joint对接接头靠模弯曲试验gas-electric welding气电联合焊接gas metal arc welding气体保护金属极电弧焊, 熔化极气体保护焊gas shielded arc welding气体保护焊, 气体保护弧焊gas shielded magnetic flux arc welding磁性焊剂气体保护焊gas torch welding炬焊gas tungsten arc welding钨电极惰性气体保护焊girth welding环缝焊接gravity welding重力焊, 重力式电弧焊gas carbon-arc welding气保护碳弧焊gas electric welding气电联合焊接gas metal arc welding气体保护金属极电弧焊gas metal-arc welding气保护金属极电弧焊gas shield welding气体保护弧焊gas shielded arc welding气体保护电弧焊; 气体保护焊gas shielded arc welding machine气保护弧焊机gas shielded arc-welding machine气体保护弧焊机gas shielded magnetic flux arc welding磁性焊剂气体保护电弧焊gas shielded metal-arc welding气体保护金属弧焊gas shielded welding气体保护焊gas torch welding气炬焊gas tungsten arc welding气体保护钨极电弧焊gas tungsten-arc welding气保护钨极电弧焊gas tungstun arc welding钨极气体保护焊gas welding气焊; 乙炔焊gas welding device气焊设备gas welding equipment气焊设备gas welding machine气焊机gas welding outfit气焊机gas welding rod气焊焊丝gas welding rubber hose气焊橡胶管gas welding technique气焊工艺gas welding torch butt气焊进气硬管gas welding tube mill瓦斯焊接机gas welding work气焊工作gas-arc welding气电焊; 气体保护电弧焊gas-arc welding gun气电焊焊嘴gas-press welding气压焊gas-pressure welding machine气压焊接机gas-shielded stud welding气保护柱钉焊接girth welding环缝横向焊接gravity type arc welding重力焊gravity type welding倚焊gravity welding重力焊; 重力式电弧焊groove welding槽焊; 坡口焊; 开槽焊guided automatic welding导向自动焊接gun welding machine手提式点焊机; 点焊枪gas-pressure weld 气压焊groove weld 坡口焊gas-pressure weld气压焊groove weld坡口焊Hhammer weld锻焊hand weld手焊焊缝height of reinforcement of weld加强焊缝高度helical-weld pipe螺旋焊管high performance weld flux高性能焊剂horizontal fillet weld横向角缝焊接horizontal weld横向焊缝horizontal-vertical fillet weld横向垂直角焊缝hot weld encapsulation热焊封袋hydraulic automatic weld液压自动焊接hydraulic weld process液压焊接法horizontal bend test横弯试验handhole with butt welded flange对焊法兰手孔helically welded tube螺旋焊接管helically-welded case螺旋焊接壳体high frequency welded spiral fin tube高频焊接high strength welded pipe高强度焊接管high strength welded steelpipe高强度焊接钢管high-frequency electric welded steel pipe高频电焊钢管high-frequency straight seam welded pipe高频直缝焊接钢管holes in joints of welded vessels焊接容器接头处的孔hammer welding锻接（金属加工微信提供）hard facing arc welding表面加硬电弧焊heated-tool welding热烙铁焊接helium shielded welding氦气保护焊接hidden arc welding潜弧焊, 埋弧焊high-frequency induction welding高频感应焊接horizontal fillet welding水平角焊接horizontal-rolled-position welding滚动水平焊, 水平转动焊接hydrogen atomic welding原子氢焊接high strength weldable aluminium alloy高强度可焊铝合金属high strength weldable aluminium alloy高强度可焊铝合金hafnium welding wire铪焊丝hammer welding锻焊; 锻接; 锤焊hammered resistance welding锤锻电阻焊; 电阻加热锻焊hand welding holdet手焊焊把hard-welding硬质合金熔焊hammer welded pipe锻焊管heliarc weld氦弧焊horizontal position of welding横焊位置（未完待续）。

A review of the application of weld symbolson drawings - Part 1Weld symbols have been used for many years and are a simple way of communicating design office details to a number of different industrial shop floor personnel such as welders, supervisors, and inspectors. Subcontractors are often required to interpret weld symbols on engineering drawings, from perhaps the main contractor or client. It is essential that everyone should have a full understanding of weld symbol requirements to ensure that the initial design requirement is met.There are a number of standards which relate to weld symbols including British, European, International and American (American Welding Society) standards. Most of the details are often similar or indeed, the same, but it is essential that everyone concerned knows the standard to be used. One of the first requirements therefore is:Which standard?The UK has traditionally used BS 499 Part 2. This standard has now been superseded by BS EN 22553, however in many welding and fabrication organisations there will be old drawings used that make reference to out of date standards such as BS 499 Pt 2.BS EN 22553 is almost identical to the original ISO 2553 standard on which it was based. Therefore we can say, for at least this article's scope, there are no significant differences, but it is essential that the reader consults the specific standard. The American system is also similar in many respects but will not be covered here.Basic requirementsAll the standards have the same requirements in relation to the following items:∙Arrow line and arrow head∙Reference lineThe arrow line can be at any angle (except 180 degrees) and can point up or down. The arrow head must touch the surfaces of the components to be joined and the location of the weld. Any intended edge preparation or weldment is not shown as an actual cross sectional representation, but is replaced by a line. The arrow also points to the component to be prepared with single prepared components. See Figs. 1-4.Fig. 1.Fig. 2.Fig. 3.Fig. 4.Symbol typesTo the basic set-up of the arrow and reference line, the design draughtsperson can apply the appropriate symbol, or symbols for more complex situations.The symbols, in particular for arc and gas welding, are often shown as cross sectional representations of either a joint design or a completed weld. Simple, single edge preparations are shown in Fig. 5.For resistance welding, a spot weld and seam weld are shown in Fig. 6:Fig. 5.Fig. 6.Joint and/or weld shapeThe above examples can be interpreted as either the joint details alone or the completed weld, however, for a finished weld it is normal to find that an appropriate weld shape is specified. Using the examples above, there are a number of options and methods to specify an appropriate weld shape or finish.Butt welded configurations would normally be shown as a convex profile (Fig.7 'a', 'd' and 'f') or as a dressed-off weld as shown in 'b' and 'c'. Fillet weld symbols are always shown as a 'mitre' fillet weld (a right angled triangle) and a convex or concave profile can be superimposed over the original symbol's mitre shape. See Fig. 7.Fig. 7.Part 2 of this explanation of weld symbols covering more complex situations will appear in the next issue.A review of the application of weld symbols on drawings - Part 2Part 1 of this article which appeared in the May/June issue of Connect, dealt with the most basic weld symbols as they appear on engineering drawings. As previously mentioned, it is essential that all concerned in any project are aware of which Standard is being applied.Weld sizingIn order that the correct size of weld can be applied, it is common to find numbers to either the left or to the right of the symbol.For fillet welds, numbers to the left of the symbol indicate the design throat thickness, leg length, or both design throat thickness and leg length requirements. Figure 1 gives examples of symbols used in different Standards.Fig.1For fillet welds:Superseded BS499 Pt 2 givesa = design throat thicknessb = leg lengthISO 2553/EN 22553 requirementsa = design throat thickness z = leg lengths = penetration throat thicknessFor butt joints and welds, an S with a number to the left of a symbol refers to the depth of penetration as shown inFig.2.Fig.2When there are no specific dimensional requirements specified for butt welds on a drawing using weld symbols, it would normally be assumed that the requirement is for a full penetration butt weld ( Fig.3).Fig.3Numbers to the right of a symbol or symbols relate to the longitudinal dimension of welds, eg for fillets, the number of welds, weld length and weld spacing for non-continuous welds, as Fig.4.Fig.4On fillet welded joints made from both sides, a staggered weld can be shown by placing a 'Z' through the reference line ( Fig.5).Fig.5Supplemetary symbolsWeld symbols indicate the type of preparation to use or the weld type. However, there may still be occasions where other information is required. The basic information can therefore be added to in order to provide further details as shown in Figs.6, 7 and 8.Fig.6Fig.7Fig.8Weld all roundFor a Rectangular Hollow Section (RHS) welded to a plate, for example:Weld in the field or on siteThe box attached to the arrow can be used to contain, or point to, other information.Welding process typeISO 4063 gives welding processes specific reference numbers. As shown in Fig.9 the appropriate process number is placed in the tail of the arrow. Other processes are given a unique number. In this example, 135 refers to MAGwelding.Fig.9There are a number of additional symbols given in the Standards ( eg ISO 22553) which refer to additional welding or joint requirements. Figure 10shows the requirement for a sealing run.Fig.10Compound joints/weldsA compound weld could be a 'T' butt weld which requires fillet welds to be added to increase the throat thickness as shown in Fig.11.Fig.11The broken reference lineThe main feature that distinguishes weld symbol standards is that for ISO 2553 and BS EN 22553, there is an additional feature of a broken reference line.This method is used when a weldment or weld preparation needs to be specified on the 'other side' of the arrow as shown in Fig.12.Any symbol that is used to show a joint or weld type feature on the other side of the arrow line is always placed on a dotted line .BS 499 and AWS require symbols to be placed above the reference line (which indicate the other side) or below the reference line (indicating the arrow side).SummaryWeld symbols are a very useful way of communicating welding requirements from the design office to the shop floor.It is essential that the 'rules' of the standard used are correctly applied by drawing office personnel. However, it is also important that shop floor personnel are able to read and understand the details of weld symbols.Much of this requirement can be met by reference to the standard being used within the organisation and by the drawing office personnel considering the needs of the end user such as the welders, welding supervisors, welding inspection personnel and welding engineers in order to minimise costly mistakes due to misinterpretation.Fig.12Training of all personnel in the correct use of weld symbol specifications also plays an important role in ensuring that weld symbols are both correctly applied and correctly read.Drawing of Weld Symbols。

Welding and Welding SymbolsThe science of welding and allied processes plays a major part in engineering design and manufacturing activities;the general versatility and in some cases the sophistication of welding processes enables the designer to create a vast range of fabrications to meet their design intent.In general,welding may be described as the process of uniting two pieces of material(usually metal but other materials can be welded)by raising the temper-ature of the material in the vicinity of the joint so it becomes plastic or molten,creating the join.The welding process can be carried out with or without pressure and with or without added material.There are two main classes of welding,each with a subset of differing processes;these classes are fusion welding and welding with mon exam-ples of fusion welding are arc,gas and electron beam welding;common examples of pressure welding are spot,ultrasonic and diffusion welding.Fusion weldin g is a process whereby the material in the vicinity of the joint becomes molten,fusing the parts together.The heat required to melt the material is usually provided by a gasflame or electric arc.Afiller material can be used to build up the material around the welded joint if need be;a good example of the use of afiller material is afillet weld.To prevent oxidation of the weld during the fusion process aflux can be utilized to form a barrier:‘stick’(consumable electrode)arc welding or submerged arc welding are good examples.Another method commonly used is to provide an inert atmosphere around the weld.This is achieved by shrouding the weld at the point of fusion with an inert gas such as carbon dioxide or argon.Metal inert gas(MIG)and tungsten inert gas(TIG)are good examples of this method.Welding with pressure is a process whereby the areas on the parts to be joined are held together under mechanical pressure and the surfaces at the area to be welded are heated to and maintained in a plastic state.Heating for this process is usually provided by resis-tance to an electric current(often called resistance welding).‘Spot’welding is probably the most widely recognized method of this type of welding process.Designers should be aware that although the use of welded fabrications facilitates a wide range of design options,there are some limitations which need to be considered.The following considerations are provided as a guide and are not exhaustive.Welding introduces heat into the part and this can lead to distortion caused by stresses within the mate-rial;distortion can also occur when machining a wel-ded part.Heat can also alter the mechanical properties of the material,especially in the area of the weld.Post welding heat treatment of the part,such as annealing or normalizing or the use of weld chills,i.e.thermally conductive material such as copper placed on the surface near the weld zone,can overcome most heat related problems.It should be noted that in large welded fabrications heat treatment may be required during the fabrication process.The use of electron beam or laser welding techniques introduces very little heat into the part and as a result the parts welded by these methods generally don’t require any heat treatment.The choice offiller material can be critical to the strength and performance of a weld.Generally,the filler material should be of the same type as or compatible with the parent material;many examples of weld failure can be attributed to using a dissimilar material as afiller.Accessibility to perform the welding process should be considered;often there is not sufficient space to complete a weld leading to redesign and/or rework.Inspection of welds is usually by non-destructive testing methods such as dye penetrate,ultrasonic or X-Ray,so,as above,accessibility to perform the inspection is crucial.Designers considering using complex welds or experiencing welding problems are advised to contactManual of Engineering Drawing.DOI:10.1016/B978-0-08-096652-6.00033-4277 CopyrightÓ2012Elsevier Ltd.All rights reserved.the Welding Institute()for professional advice and guidance.The Indication and Application of Welding Symbols on DrawingsGeneralThe authors feel that it essential that the reader should be made aware that currently two Standards exist for the indication of welding symbols,both of which are widely used worldwide:the International Standard ISO2553and the American Standard AWS A2.4 For one Standard only to be chosen,for mutual acceptance,it would mean half the global users of either Standard would have to change over to the dictates of the other.Many meetings between these two Standards committees have been held to resolve this issue e even the possibility of having a totally new system has been discussed;however,none of the options considered has proved to be acceptable to either committee.In an effort tofind a resolution to break this apparent deadlock a questionnaire was distributed to all member bodies requesting their opinions on the best way forward.The result was to include both systems in one cohabitation Standard,as long as they did not conflict with each other.This has now been achieved with the revision of ISO2553:2012,which clearly and unambiguously identifies and illustrates the two systems.The ISO version is identified as System A and the American version is identified as System B,thus achieving one acceptable global Standard.These systems must never be shown mixed and drawings must clearly indicate which system and units are used.The content of this chapter is in accordance with the content of BS EN ISO2553:2012.The system A is illustrated unless stated otherwise.The following notes are meant as a guide to the method of applying the more commonly used welding symbols relating to the simpler types of welded joints on engineering drawings.Where complex joints involve multiple welds it is often easier to detail such constructions on separate drawing sheets.Refer to BS EN ISO2553:2012for the full specification of symbolic representations for welds.Each type of weld is characterized by a symbol given in Table33.1.Note that the symbol is repre-sentative of the shape of the weld,or the edgeManual of Engineering Drawingpreparation,but does not indicate any particular welding process and does not specify either the number of runs to be deposited or whether or not a root gap or backing material is to be used.These details would be provided on a welding procedure schedule for the particular job.It may be necessary to specify the shape of the weld surface on the drawing asflat,convex or concave and a supplementary symbol,shown in Table33.2,is then added to the elementary symbol.An example of each type of weld surface application is given in Table33.3.A joint may also be made with one type of weld on a particular surface and another type of weld on theback and in this case elementary symbols representing each type of weld used are added together.The last example in Table33.3shows a single-V butt weld with a backing run where both surfaces are required to have aflatfinish.A welding symbol is applied to a drawing by using reference lines and an arrow line as shown in Fig.33.1. The reference lines(one continuous and one dashed) should be drawn parallel to the bottom edge of the drawing frame.The dashed reference line can be positioned above or below the continuous reference line but it is preferable to position it below.The arrow line forms an angle with the continuous reference line. The side of the joint nearer to the arrowhead is known as the arrow side and the opposite side of the joint is known as the other side.The continuous reference line relates to the arrow side and the dashed reference line relates to the other side.The welding symbol should be positioned on the reference lines as indicated in Table33.4and Fig.33.1.1 = Arrow Line2 = Reference Lines3 = Weld Symbol4 = Tail (optional)4 JointFIGURE33.1Chapter|33Welding and Welding SymbolsSketch(a)shows the symbol for a single-V butt weld positioned on the continuous reference line; this is because the weld is on the arrow side of the joint.Sketch(b)shows the same symbol positioned on the dashed reference line;this is because the weld ison the other side of the joint(opposite to the arrow line).Sketch(c)shows the symbol applied to a double-V butt weld;in this case the dashed line is omitted and both symbols are positioned on the continuous refer-ence line.There is no requirement to show the dashed reference line when specifying symmetrical welds or spot and seam welds made at the interface between two components.Sketch(d)showsfilet welds on a cruciform joint where the top weld is on the arrow side and the bottom weld is on the other side of the joint.In these cases,for the top weld the weld symbol is positioned on the continuous reference line and for the bottom weld the symbol is positioned on the dashed reference line.The positioning of the symbol is the same for drawings infirst or third angle projection.Additional symbols can be added to the reference line as shown in Fig.33.2.Welding can be done in the factory or on site when plant is erected.A site weld is indicated by aflag.A continuous weld all round a joint is shown by a circle at the intersection of the arrow and the reference line.Note that if a continuous weld is to be undertaken at site then both symbols should be added to the drawing.The tail is an optional element which can be added to the end of the continuous reference line(see Fig.33.3)where additional complementary information can be included as part of the welding symbol.(The projection welding process is indicated in the example in Fig.33.3).The following information can be specified:(a)the level of quality,for example in accordancewith ISO5817,ISO10042,ISO13919,etc.; (b)the welding process,reference number or abbre-viation in accordance with ISO4063;(c)thefiller material,for example in accordance withISO14171,ISO14341,etc.;(d)the welding position,for example in accordancewith ISO6947;(e)any supplementary information to be consideredwhen making the joint.The information shall be listed and separated by a forward slash(/)(see Fig.33.4).A closed tail shall only be used to indicate reference to a specific instruction,e.g.reference to a welding procedure or specification(see Fig.33.5).Repetition of additional information on symbols on a drawing is not advised.A single general note on the drawing should be used instead.Useful Standards for the draughtsman are as follows:BS499-1,which gives a glossary for welding, brazing and thermal cutting and includes seven sections relating to welding with pressure,fusion welding,brazing,testing,weld imperfections,and thermal cutting;BS499-1Supplement,which gives definitions for electrical and thermal characteristics of weldingequipment.(a)FIGURE33.2Indication of(a)site welds and(b)continuous welds.FIGURE33.3FIGURE33.4FIGURE33.5Manual of Engineering DrawingEuropean arc welding symbols in chart form are illustrated in BS 499-2C.Symbolic representation on drawings for welded,brazed and soldered joints are illustrated in BS EN ISO 22553.Welded and allied processes,nomenclature of processes and reference numbers are given in BS EN ISO 4063:2010.Dimensioning of WeldsThe dimensions of a weld may be added to a drawing in the following manner (Fig.33.6).Dimensions relating to the cross-section of the weld are symbolized by z and are given on the left-hand side of the symbol.The cross-sectional dimension to be indicated for a fillet weld is the leg length.If the design throat thickness is to be indicated then the leg-length dimension is prefixed with the letter z and the design throat thickness with the letter a .Longitudinal dimensions are symbolized by l and are given on the right-hand side of the symbol.If the weld is not continuous then distances between adjacent weld elements are indicated in parentheses.Unless dimensional indication is added to the contrary,a fillet weld is assumed to be continuous along the entire length of the weld.Leg-length dimensions of fillet welds of 3,4,5,6,8,10,12,16,18,20,22,and 25mm are the preferred sizes.Applications of dimensions to different types of fillet welds are given in Table 33.5in order to indicatethe scope of the British Standard,which should be consulted to fully appreciate this topic.In Table 33.5,(1)shows dimensions applied to continuous fillet welds,(2)shows dimensions applied to intermittent fillet welds,and (3)shows dimensions applied to staggered intermittent filletwelds.FIGURE 33.6Chapter |33Welding and Welding Symbols。

I have found over the years that there are many people out there who can weld. Some went to school. Some learned on their own in a garage somewhere. Some of those who say they can weld, don't weld very well at all.Because of this, I thought I would put together some information to help those of you unfamiliar with welding symbols if you're trying to follow a drawing.Elements Of A Welding Symbol:• A welding symbol may include the following elements:•Reference Line•Arrow•Basic Weld Symbol•Dimensions & Other Data•Supplementary Symbols•Finish Symbols•Tail•Specifications, Process, Or Other ReferencesReference Line:A reference line is a horizontal line with all the other required information drawn on or around it. It must be placed on the drawing near the joint it describes.Arrow:The arrow is the other required part of a welding symbol and is placed at one or the other end of the reference line and connects the reference line to the joint that is to be welded.Quite often, there are two sides to the joint to which the arrow points, and therefore two potential places for a weld. For example, when two steel plates are joined together into a T shape, welding may be done on either side of the stem of the T.The weld symbol distinguishes between the two sides of a joint by using the arrow and the spaces above and below the reference line. The side of the joint to which the arrow points is known as the arrow side, and its weld is made according to the instructions given below the reference line. The other side of the joint is known as the other side, and its weld is made according to the instructions given above the reference line. The below and above rules apply regardless of the arrow's direction.Basic Symbols:Each type of weld has its own basic symbol, which is typically placed near the center of the reference line (and above or below it, depending on which side of the joint it's on). The symbol is a small drawing that can usually be interpreted as a simplified cross-section of the weld. In the descriptions below, the symbol is shown in both its arrow-side and other-side positions.Fillet Weld Groove WeldsPlugWeldWeld All Around & Field Weld:There are two other elements that may be seen on the reference line that provide information about the weld. One is a circle around the place where the leader line connects to the reference line and indicates the weld is “all around”. This means the weld extends all the way around the joint the a rrow is pointing at.The all around element is only used when it is possible to weld all the way around a single surface (see below).The other element seen on the reference line resembles a flag and is located where the leader line joins the reference line. This element is called a "field weld" and means the weld will be done in another location. For instance, this weld may be applied at the job site not in the shop. Sometimes clarification will be given in the welding symbol tail or as a specification on the print.Field Weld SymbolFillet Weld:The fillet weld (pronounced "fill-it") is used to make lap joints, corner joints, and T joints. As its symbol suggests, the fillet weld is roughly triangular in cross-section, although its shape is not always a right triangle or an isosceles triangle. Weld metal is deposited in a corner formed by the fit-up of the two members and penetrates and fuses with the base metal to form the joint. (Note: for the sake of graphical clarity, the drawings below do not show the penetration of the weld metal. Recognize, however, that the degree of penetration is important in determining the quality of the weld.)The perpendicular (straight up and down) leg of the triangle is always drawn on the left side of the symbol, regardless of the orientation of the weld itself. The leg size is written to the left of the weld symbol. If the two legs of the weld are to be the same size, only one dimension is given; if the weld is to have unequal legs (much less common than the equal-legged weld), both dimensions are given and there is an indication on the drawing as to which leg is longer.The welding symbol above shows that the weld is to be done on the other side and the thickness of the weld is 5/16.The length of the weld is given to the right of the symbol.If no length is given, then the weld is to be placed between specified dimension lines (if given) or between those points where an abrupt change in the weld direction would occur (like at the end of the plates in the example above).The Length & Pitch of Intermittent Welds:An intermittent weld is one that is not continuous across the joint, but rather is a given length of weld separated by a given space between them. This method of welding may be used to control heat distortion or where the joint strength requirements allow. Intermittent welding can save time and money if a long weld is not necessary.Used more frequently than the length alone, the length and pitch (length first, spacing second) are two numbers located at the right of the fillet weld symbol.The length appears first as before followed by a hyphen then the pitch is shown.The pitch refers to a dimension from the center of one weld to the center of the next weld.The pitch is not the space between welds but a measurement from center to center of the welds. To get the spacing for layout subtract the length of one weld from the pitch.The intermittent welds may be chain intermittent or staggered intermittent. Chain intermittent the welds on both sides of the joint are opposite each other and resemble a chain. Staggered intermittent the welds on the opposite side are usually started in the gap between the welds on the first side. The welds then appear staggered.If the welds are staggered the fillet weld symbol will be staggered on the reference line.Contours:Some welding symbols may show a contour finish that details how the fillet weld shape must be finished after welding. The contour may be flat or convex (having a surface that is curved or rounded outward) and the element to describe this is placed above the slope on the fillet weld symbol. A letter to indicate the method of finish may be given above the finish element.Groove Welds:The groove weld is commonly used to make edge-to-edge joints, although it is also often used in corner joints, T joints, and joints between curved and flat pieces. As suggested by the variety of groove weld symbols, there are many ways to make a groove weld, the differences depending primarily on the geometry of the parts to be joined and the preparation of their edges. Weld metal is deposited within the groove and penetrates and fuses with the base metal to form the joint. (Note: for the sake of graphical clarity, the drawings below generally do not show the penetration of the weld metal. Recognize, however, that the degree of penetration is important in determining the quality of the weld.Groove Weld Size - The groove weld size is given in two dimensions and like the fillet weld it is placed to the left of the weld symbol. The first size given is the depth of the groove and is the dimension used to prepare the edge preparation. The depth of groove is measured from the surface of the joint to the bottom of the preparation.The depth of groove does not include weld reinforcement or root penetration. The second size given is the actual weld size and is enclosed in parentheses to distinguish it from the groove size, or depth of groove.The actual weld size is again measured from the surface of the groove through the bottom of the groove but now includes the expected penetration of the weld. On a square groove only the weld size is given.The weld size does not include face reinforcement or root reinforcement.Groove Opening & Angle - Two other important elements for preparing and welding the groove are the root opening and the groove angle. The root opening, when used, dimensions the space between the joint to be welded and is placed inside the weld symbol. The groove angle is also placed inside the weld symbol and is given in degrees.The groove angle for a V groove is given as the included angle so that means the edge bevel or chamfer for each piece is 1/2 of the degrees given.For example; A 45 degree included angle means bevel each member at 22 1/2 degrees. J grooves angles may be detailed elsewhere on the drawing. The root opening and groove angle are separate elements and may or may not appear together depending on the joint requirements.On some drawings the root opening or groove angle will be covered in a note or specification on the drawing for all similar symbols, and does not appear on the symbol.The Welder must always read all information given on a drawing.Contour & Finishing - The same contour symbols that apply to fillet welds may be used with groove welding and are placed above the weld symbol.Square Groove - The square groove weld, in which the "groove" is created by either a tight fit or a slight separation of the edges. The amount of separation, if any, is given on the weld symbol.V-Groove - The V-groove weld, in which the edges of both pieces are chamfered, either singly or doubly, to create the groove. The angle of the V is given on the weld symbol, as is the separation at the root (if any).If the depth of the V is not the full thickness--or half the thickness in the case of a double V--the depth is given to the left of the weld symbol.If the penetration of the weld is to be greater than the depth of the groove,the depth of the effective throat is given in parentheses after the depth of the V.Bevel Groove - The bevel groove weld, in which the edge of one of the pieces is chamfered and the other is left square. The bevel symbol's perpendicular line is always drawn on the left side, regardless of the orientation of the weld itself. The arrow points toward the piece that is to be chamfered. This extra significance is emphasized by a break in the arrow line. (The break is not necessary if the designer has no preference as to which piece gets the edge treatment or if the piece to receive the treatment should be obvious to a qualified welder.) Angle and depth of edge treatment, effective throat, and separation at the root are described using the methods discussed in the V-groove section above.U-Groove - The U-groove weld, in which the edges of both pieces are given a concave treatment. Depth of edge treatment, effective throat, and separation at the root are described using the methods discussed in the V-groove section.J-Groove - The J-groove weld, in which the edge of one of the pieces is given a concave treatment and the other is left square. It is to the U-groove weld what the bevel groove weld is to the V-groove weld. As with the bevel, the perpendicular line is always drawn on the left side and the arrow (with a break, if necessary) points to the piece that receives the edge treatment. Depth of edge treatment, effective throat, and separation at the root are described using the methods discussed in the V-groove section.Flare V Groove - The flare-V groove weld, commonly used to join two round or curved parts. The intended depth of the weld itself are given to the left of the symbol, with the weld depth shown in parentheses.Flare Bevel Groove - The flare bevel groove weld, commonly used to join a round or curved piece to a flat piece. As with the flare-V, the depth of the groove formed by the two curved surfaces and the intended depth of the weld itself are given to the left of the symbol, with the weld depth shown in parentheses. The symbol's perpendicular line is always drawn on the left side, regardless of the orientation of the weld itself.Common supplementary symbols used with groove welds are the melt-thru and backing bar symbols. Both symbols indicate that complete joint penetration is to be made with a single-sided groove weld. In the case of melt-thru, the root is to be reinforced with weld metal on the back side of the joint. The height of the reinforcement, if critical, is indicated to the left of the melt-thru symbol, which is placed across the reference line from the basic weld symbol.When a backing bar is used to achieve complete joint penetration, its symbol is placed across the reference line from the basic weld symbol. If the bar is to be removed after the weld is complete, an "R" is placed within the backing bar symbol. The backing bar symbol has the same shape as the plug or slot weld symbol, but context should always make the symbol's intention clear.Plug & Slot Welds:Plug welds and slot welds are used join overlapping members, one of which has holes (round for plug welds, elongated for slot welds) in it. Weld metal is deposited in the holes and penetrates and fuses with the base metal of the two members to form the joint. (Note: for the sake of graphical clarity, the drawings below do not show the penetration of the weld metal. Recognize, however, that the degree of penetration is important in determining the quality of the weld.)For plug welds, the diameter of each plug is given to the left of the symbol and the plug-to-plug spacing (pitch) is given to the right. For slot welds, the width of each slot is given to the left of the symbol, the length and pitch (separated by a dash) are given to the right of the symbol, and a detail drawing is referenced in the tail. The number of plugs or slots is given in parentheses above or below the weld symbol. The arrow-side and other-side designations indicate which piece contains the hole(s). If the hole is not to be completely filled with weld metal, the depth to which it is to be filled is given within the weld symbol.[文档可能无法思考全面，请浏览后下载，另外祝您生活愉快，工作顺利，万事如意!]。

Weld symbol 焊接符号welding symbol 焊缝符号supplementary [,sʌpli'mentəri]补充的,补充物Placement 标注illustration [ɪlə'streɪʃ(ə)n] 插图说明joint type 接头类型General provision for welding symbols 焊接符号中的通用规定signification [,sɪgnɪfɪ'keɪʃ(ə)n] 意义arrow ['ærəʊ] 箭头Location signification of the arrow 箭头位置的意义Respect to 关于combination weld symbols 组合焊缝符号multiple ['mʌltɪpl] 多数的Reference 参考field weld [fiːld]现场施焊denoted [dɪ'nəʊt] 表示weld dimension tolerance 焊缝尺寸公差backing welds 打底焊joints with backing 带衬垫的接头intermittent [,intə'mitənt] 间歇的angle ['æŋg(ə)l] 角度spacing 距离involving [ɪn'vɒlv] 包含，涉及Spot welds 点焊surfacing a previous weld 在前一焊道上堆焊adjust [ə'dʒʌst] dimension 调整尺寸special preparation not specified没有指定的特殊处理elements 内容US customary and SI units 美国的习惯和SI 单位designator [,dɛzɪg'netɚ] 符号Joint type designators 组合形式符号root opening 根部间隙groove angle 坡口角度Partial joint 部分熔透焊缝intermittent welds 间断焊joints with backing or spacers 带有垫板或者间隔的接头Indicating ['indikeitiŋ]表明requirement 要求include 包含provision [prə'vɪʒ(ə)n]规定Graphical ['græfɪk(ə)l] representation 表现Graphical representation 图解表示法specify['spɛsɪfaɪ] 指定，详细说明extent [ik'stent] 范围，长度convention [kən'vɛnʃən] 惯例常规convey [kən'veɪ] 传达illustrative['ɪləstrətɪv; ɪ'lʌst-] 说明的examples featuring ['fiːtʃə] 例子展示beyond the scope of this standard 超出标准的范围fully addressed 充分描述normative references 引用标准constitute ['kɑnstətut] 组成dated references 以前的引用标准subsequent ['sʌbsɪkwənt] 后来的amendment[ə'mɛndmənt] 修正most recent editions 最新版本mandatory ['mændətɔri] 强制的guide for 指南term [tɝm] 条款eliminate[ɪ'lɪmɪnet] 消除designating ['dɛzɪɡnet] 标注peening ['pi:niŋ] 锤击pertinent['pɝtnənt] 相关的pertinent data 相关资料regarding 关于interpreted [ɪn'tɝprɪt] 理解interpreted as 理解为refer to 指的是placement 分布，布置weld all around 满焊convex['kɒnveks] 凸面concave ['kɒnkeɪv] 凹面flat 平面contour ['kɑntʊr] 轮廓lap joint 搭接arrow side 箭头侧consider [kən'sɪdɚ] 认为，当做arrow ['ærəu] contact 箭头指向specified by 用。

焊接英语（完整版）焊缝符号 welding symbol焊缝金属 weld metal填充金属 filler metal熔敷金属 deposited metal焊缝表面weld face/ face of weld焊缝背面 back of weld焊缝轴线axis of weld焊缝尺寸 size of weld焊缝宽度weld width/ width of weld焊缝长度 weld length/ length of weld 焊缝有效长度 effective length of weld 焊缝厚度 throat depth/ throat thickness 焊缝计算厚度theoretical throat焊缝实际厚度actual throat熔深penetration/ depth of penetration 焊缝成形appearance of weld焊缝成形系数form factor of weld余高 reinforcement/ excess weld metal 背面余高root reinforcement削平焊缝flush weld/ weld machined flush 对接焊缝butt weld角焊缝fillet焊脚leg/ fillet weld leg角焊缝断面形状profile of fillet weld 平形角焊缝flat fillet凸形角焊缝convex fillet weld凹形角焊缝concave fillet weld角焊缝凹度concavity侧面角焊缝side fillet weld/ fillet weld in parallel shear正面角焊缝front fillet weld/ fillet weld in normal shear立角焊缝fillet weld in the vertical position横角焊缝fillet weld in the horizontal position平角焊缝fillet weld in the flat position斜角焊缝oblique fillet weld连续焊缝continuous weld断续焊缝intermittent weld连续角焊缝continuous fillet weld断续角焊缝intermittent fillet weld 交错断续角焊靤taggered intermittent fillet weld并列断续角焊缝chain intermittentfillet weld端接焊缝edge weld卷边焊缝flanged edge weld塞焊焊缝plug weld纵向焊缝longitudinal weld横向焊缝transverse weld环行焊缝girth weld/ circumferential weld螺旋形焊缝spiral weld/ helical weld 密封焊缝seal weld承载焊缝strength weld联系焊缝connective weld定位焊缝tack weld焊道bead/ run/ pass焊波ripple焊根weld root/ root of weld焊趾weld toe/ toe封底焊道sealing run (after making main weld)/ back weld打底焊道backing weld (before making main weld)/ back weld根部焊道root pass/ root run填充焊道filling bead盖面焊道cosmetic bead/ cover pass回火焊道temper bead/ annealing bead 熔透焊道penetration bead焊层 layer焊接接头welded joint接头形状joint geometry等强匹配接头equalmatching weld joint 低强匹配接头undermatching weld joint 超强匹配接头overmatching weld joint 接头根部root of joint对接接头butt jointI形对接接头square butt jointV形对接接头single V butt jointU形对接接头single U butt jointJ形坡口接头single J butt joint双V形对接接头double V butt joint双单边V形对接接头double bevel butt joint/ K groove butt joint带钝边U形对接接头double U butt joint 带钝边J形坡口接头double J joint角接接头corner jointT形接头T joint斜T形接头inclined T joint十字接头cruciform joint/ cross-shaped joint三联接头joint among three members搭接接头lap joint套管接头muff joint/ sleeve joint双盖板接头double strapped joint盖板接头strapped joint端接接头edge joint卷边接头flanged edge joint锁底对接接头lock butt joint斜对接接头oblique butt joint混合接头mixed joint/ composite joint 有间隙接头open joint无间隙接头closed joint焊接电弧welding arc电弧形态arc shape电弧物理行为arc physics behaviour引弧striking arc引弧电压striking voltage电弧气氛arc atmosphere阴极cathode热阴极hot cathode冷阴极cold cathode阴极斑点cathode spot阴极区cathode region阴极区电场强度intensity of the electric field in the cathode region 阴极压降cathode drop阳极anode阳极斑点anode spot斑点压力spot pressure阳极区anode region阳极区电场强度intensity of the electric field in the anode region阳极压降anode drop弧柱arc column/ arc stream弧柱压降voltage drop in arc column弧柱电位梯度potential gradient in the arc column 弧焰arc flame弧心arc core硬电弧forceful arc/ hard arc软电弧soft arc旋转电弧rotating arc脉冲电弧pulsed arc脉冲喷射电弧pulsed spray arc起皱现象puckering phenomena起皱电弧puckering arc起皱临界电流 puckering critical current间接电弧 indirect arc压缩电弧 compressive arc磁控电弧 magnetic controlling arc电弧力 arc force电磁力 electromagnectic force电磁收缩效应 pinch effect电弧飘移 wandering of arc电弧稳定性 arc stability电弧静特性 static characteristic of arc 电弧动特性 dynamic characteristic of arc最小电压原理 principle of minimum voltage电弧挺度arc stiffness电弧偏吹 arc blow磁偏吹 magnetic blow阴极清理作用 cleaning action of the cathode电弧自身调节 arc self-regulation挖掘作用 digging action极性效应 polarity effect熔滴 droplet熔滴比表面积 specific surface of droplet熔滴过渡metal transfer过度频率 transition frequency粗滴过渡globular transfer; drop transfer短路过渡short circuiting transfer喷射过渡spray transfer旋转喷射过渡 rotating spray transfer 脉冲喷射过渡 pulsed spray transfer爆炸过渡 explosive transfer渣壁过渡 flux wall guided transfer熔池 molten pool沸腾状熔池 boiling molten pool弧坑crater熔渣slag渣系 slag system渣系相图 slag system diagram碱性渣 basic slag酸性渣 acid slag碱度 basicity酸度 acidity长渣 long slag短渣 short slag粘性熔渣 viscous slag氧化物型熔渣 oxide melting slag盐型熔渣 salt melting slag盐-氧化物型熔渣 salt-oxide melting slag熔渣流动性 fluidity of the slag; slag fluidity熔渣solidified slag多孔焊渣 porous slag玻璃状焊渣 vitreous slag自动脱落焊渣 self-releasing slag脱渣性 slag detachability焊接设备 welding equipment; welding set 焊机 welding machine; welder电焊机 electric welding machine; electric welder焊接电源 welding power source焊接专业英语词汇（熔化焊一）熔接 fusion welding压接 pressure welding焊接过程 welding process焊接技术 welding technique焊接工艺 welding technology/procedure 焊接操作 welding operation焊接顺序 welding sequence焊接方向 direction of welding焊接位置 welding position熔敷顺序 build-up sequence/deposition sequence焊缝倾角 weld slope/inclination of weld axis焊缝转角weld rotation/angle of rotation平焊位置 flat position of welding横焊位置 horizontal position of welding 立焊位置 vertical position of welding 仰焊位置 overhead position of welding 平焊downhand welding/flat position welding横焊 horizontal position welding立焊 vertical position welding仰焊 overhead position welding全位置焊 all position welding：熔焊时，焊件接逢所处空间位置包括平焊、横焊、仰焊等位置所进行的焊接。

精full penetration butt weld 满对接焊【主科技词汇】近complete penetration butt weld 贯穿对焊【主科技词汇】近full-penetration weld 全焊透焊缝【航海航天词汇】近weld penetration 焊穿; 焊接渗透; 焊透度【航海航天词汇】近weld penetration 溶透【机械专业词汇】近penetration weld 熔透焊缝【主科技词汇】近weld penetration 焊缝熔深; 焊透深度【主科技词汇】近V-butt weld V 形坡口焊缝【航海航天词汇】近butt weld 对接焊; 对接焊缝【航海航天词汇】近butt-weld 碰焊; 平式焊接; 对头焊接【主科技词汇】近butt weld 对接焊缝【铸造焊接词汇】近butt weld 对接焊缝【建筑学词汇】近butt weld 对接焊缝【机械专业词汇】近butt-weld 对接焊缝【石油词汇】近angle butt weld 斜口对接焊缝【航海航天词汇】近flash butt weld 闪光焊【主科技词汇】近reinforced butt weld 补强的对接焊缝; 补强式对接焊缝【主科技词汇】近plain butt weld 无坡口对接焊; 平头对接焊缝【主科技词汇】近flanged butt weld 弯边对接焊【主科技词汇】近resonance butt weld 谐振式对接焊【主科技词汇】近plain butt-weld 对焊【石油词汇】近flash butt weld 闪光对杆【建筑学词汇】近flash butt weld(ing) 电弧对接焊【主科技词汇】近straight butt weld 无坡口对接接头【主科技词汇】近plain butt weld 平边对接焊缝【航海航天词汇】近angle butt weld 斜对接焊【主科技词汇】近square butt weld 平头对接焊缝【主科技词汇】近butt weld ends 对头焊接端【主科技词汇】近unfitness of butt weld 焊缝对口错边量【主科技词汇】近open butt weld 开口对接焊【主科技词汇】近closed butt weld 连续对接焊缝【航海航天词汇】近butt-weld joint 对头焊接【主科技词汇】近double-flanged butt weld 双弯边对接焊缝【主科技词汇】近butt-weld pipe mill 对焊管轧机【主科技词汇】近double-bevel butt weld K 形坡口对接焊缝【航海航天词汇】近continuous butt-weld furnace 连续式焊管坯加热炉【进出口词汇】近continuous butt-weld mill 连续式炉焊管机组【进出口词汇】近butt-weld in the downhand position 对接平焊【主科技词汇】近single strap butt weld 单面盖板对接焊【主科技词汇】近butt weld pipe mill 直缝焊管轧机【进出口词汇】近full penetration 全熔透【主科技词汇】近full penetration 焊透【航海航天词汇】近full penetration (welding) 完全焊透【建筑学词汇】近full weld 满焊【主科技词汇】近full fillet weld 满角焊缝; 全角焊【主科技词汇】近full-sized weld 全尺寸焊缝【主科技词汇】近full longitudinal weld 纵向全焊接【石油词汇】近full-fillet weld 满角焊【主科技词汇】近full fillet weld 满角焊【航海航天词汇】近full-strength weld (与母材等强) 等强焊缝【主科技词汇】近full weld-on pipe base screen 带中心管的全焊接筛管【石油词汇】近backing weld (before making main weld); back weld 打底焊道【铸造焊接词汇】近incomplete penetration; lack of penetration 未焊透【铸造焊接词汇】近sealing run (after making main weld); back weld 封底焊道【铸造焊接词汇】近weld slope; inclination of weld axis 焊缝倾角【铸造焊接词汇】近girth weld; circumferential weld 环行焊缝【铸造焊接词汇】近spiral weld; helical weld 螺旋形焊缝【铸造焊接词汇】近butt seam welding; foil-butt seam 对接缝焊【铸造焊接词汇】近front fillet weld; fillet weld in normal shear 正面角焊缝【铸造焊接词汇】近side fillet weld; fillet weld in parallel shear 侧面角焊缝【铸造焊接词汇】近full-screen full-motion video (FSFMV) 全屏幕全动式视讯【计算机网络词汇】近weld arc spot weld 电弧点焊缝【航海航天词汇】近flush weld; weld machined flush 削平焊缝【铸造焊接词汇】近spot weld-bonding; weld-bonding 胶接点焊【铸造焊接词汇】近weld spacing; spot weld spacing 焊点距【铸造焊接词汇】近penetration value 针入值【主科技词汇】近penetration 穿透; 侵彻; 渗透; 透过【航海航天词汇】近penetration 焊透; 贯穿; 贯入度; 穿透; 穿透度; 穿透率; 浸透; 熔透【主科技词汇】近penetration 贯穿【生物词汇】近ink penetration 墨渗透【主科技词汇】近penetration 贯穿【天文学词汇】近penetration 贯穿【电子工程词汇】近mean penetration (桩) 平均贯入度【主科技词汇】近penetration 穿透【医学制药词汇】近specified penetration 指定贯入度【主科技词汇】近bit penetration 钻头吃入深度; 钻头进尺速度【石油词汇】近dip penetration 浸渍饱和程度【石油词汇】近penetration course 贯入层【主科技词汇】近oil penetration 渗油性能【媒体出版词汇】近overall penetration 总穿透深度【石油词汇】近penetration 穿透【矿业词汇】近penetration 穿透; 贯穿【铸造焊接词汇】近penetration n.穿过; 渗透【考研词汇】近penetration log 钻速记录【主科技词汇】近penetration 浸透; 渗透【媒体出版词汇】近penetration pen 进尺笔【石油词汇】近penetration peg 穿透钉【主科技词汇】近penetration 渗透性【汽车词汇】近penetration 渗透【法律词汇】近penetration n.穿透; 刺穿【大学词汇】近penetration n.穿透; 洞察力【GRE词汇】近penetration 浸透; 熔深【机械专业词汇】近penetration 贯穿; 渗入【建筑学词汇】近butt box 大块氧化皮收集箱【主科技词汇】近butt log 根端原木【主科技词汇】近butt 暴露煤面; 背皮; 铸块; 根端; 干基; 截土; 大头; 抵触【主科技词汇】近butt up 平接好【石油词汇】近butt and butt 两头对接【主科技词汇】近butt 平接; 端面【石油词汇】近Butt 截头; 切方【建筑学词汇】Section I. Print Reading3-1. GENERALa. Drawings. Drawing or sketching is a universal language used to convey all necessary information to the individual who will fabricate or assemble an object. Prints are also used to illustrate how various equipment is operated, maintained, repaired, or lubricated. The original drawings for prints are made either by directly drawing or tracing a drawing on a translucent tracing paper or cloth using waterproof (India) ink or a special pencil. The original drawing is referred to as a tracing or master copy.b. Reproduction Methods. Various methods of reproduction have been developed which will produce prints of different colors from the master copy.(1) One of the first processes devised to reproduce a tracing produced white lines on a blue background, hence the term "blueprints".(2) A patented paper identified as "BW" paper produces prints with black lines on a white background.(3) The ammonia process, or "Ozalids", produces prints with either black, blue, or maroon lines on a white background.(4) Vandyke paper produces a white line on a dark brown background.(5) Other reproduction methods are the mimeograph machine, ditto machine, and photostatic process. 3-2. PARTS OF A DRAWINGa. Title Block. The title block contains the drawing number and all the information required to identify the part or assembly represented. Approved military prints will include the name and address of the Government Agency or organization preparing the drawing, the scale, the drafting record, authentication, and the date.b. Revision Block. Each drawing has a revision block which is usually located in the upper right corner. All changes to the drawing are noted in this block. Changes are dated and identified by a number or letter. If a revision block is not used, a revised drawing may be shown by the addition of a letter to the originalnumber.c. Drawing Number. All drawings are identified by a drawing number. If a print has more than one sheet and each sheet has the same number, this information is included in the number block, indicating the sheet number and the number of sheets in the series.d. Reference Numbers and Dash Numbers. Reference numbers that appear in the title block refer to other print numbers. When more than one detail is shown on a drawing, dashes and numbers are frequently used. If two parts are to be shown in one detail drawing, both prints will have the same drawing number plus a dash and an individual number such as 7873102-1 and 7873102-2.e. Scale. The scale of the print is indicated in one of the spaces within the title block. It indicates the size of the drawing as compared with the actual size of the part. Never measure a drawing--use dimensions. The print may have been reduced in size from the original drawing.f. Bill of Material. A special block or box on the drawing may contain a list of necessary stock to make an assembly. It also indicates the type of stock, size, and specific amount required.3-3. CONSTRUCTION LINESa. Full Lines (A, fig. 3-1). Full lines represent the visible edges or outlines of an object.b. Hidden Lines (A, fig. 3-1). Hidden lines are made of short dashes which represent hidden edges of an object.c. Center Lines (B, fig. 3-1). Center lines are made with alternating short and long dashes. A line through the center of an object is called a center line.d. Cutting Plane Lines (B, fig. 3-1). Cutting plane lines are dashed lines, generally of the same width as the full lines, extending through the area being cut. Short solid wing lines at each end of the cutting line project at 90 degrees to that line and end in arrowheads which point in the direction of viewing. Capital letters or numerals are placed just beyond the points of the arrows to designate the section.e. Dimension Lines (A, fig. 3-1). Dimension lines are fine full lines ending in arrowheads. They are used to indicate the measured distance between two points.f. Extension Lines (A, fig. 3-1). Extension lines are fine lines from the outside edges or intermediate points of a drawn object. They indicate the limits of dimension lines.g. Break Lines (C, fig. 3-1). Break lines are used to show a break in a drawing and are used when it is desired to increase the scale of a drawing of uniform cross section while showing the true size by dimension lines. There are two kinds of break lines: short break and long break. Short break lines are usually heavy, wavy, semiparallel lines cutting off the object outline across a uniform section. Long break lines are long dash parallel lines with each long dash in the line connected to the next by a "2" or sharp wave line.Section II. WELD AND WELDING SYMBOLS3-4. GENERALWelding cannot take its proper place as an engineering tool unless means are provided for conveying the information from the designer to the workmen. Welding symbols provide the means of placing complete welding information on drawings. The scheme for symbolic representation of welds on engineering drawings used in this manual is consistent with the "third angle" method of projection. This is the method predominantly used in the United States.The joint is the basis of reference for welding symbols. The reference line of the welding symbol (fig. 3-2) is used to designate the type of weld to be made, its location, dimensions, extent, contour, and other supplementary information. Any welded joint indicated by a symbol will always have an arrow side and an other side. Accordingly, the terms arrow side, other side, and both sides are used herein to locate the weld with respect to the joint.The tail of the symbol is used for designating the welding and cutting processes as well as the welding specifications, procedures, or the supplementary information to be used in making the weld. If a welder knows the size and type of weld, he has only part of the information necessary for making the weld. The process, identification of filler metal that is to be used, whether or not peening or root chipping is required, and other pertinent data must be related to the welder. The notation to be placed in the tail of the symbol indicating these data is to be establish by each user. If notations are not used, the tail of the symbol may be omitted.3-5. ELMENTS OF A WELDING SYMBOLA distinction is made between the terms "weld symbol" and "welding symbol". The weld symbol (fig. 3-3) indicates the desired type of weld. The welding symbol (fig. 3-2) is a method of representing the weld symbol on drawings. The assembled "welding symbol" consists of the following eight elements, or any of these elements as necessary: reference line, arrow, basic weld symbols, dimensions and other data, supplementary symbols, finish symbols, tail, and specification, process, or other reference. The locations of welding symbol elements with respect to each other are shown in figure 3-2.3-6. BASIC WELD SYMBOLSa. General. Weld symbols are used to indicate the welding processes used in metal joining operations, whether the weld is localized or "all around", whether it is a shop or field weld, and the contour of welds. These basic weld symbols are summarized below and illustrated in figure 3-3.b. Arc and Gas Weld Symbols. See figure 3-3.c. Resistance Weld Symbols. See figure 3-3.d. Brazing, Forge, Thermit, Induction, and Flow Weld Symbols.(1) These welds are indicated by using a process or specification reference in the tail of the welding symbol as shown in figure 3-4.(2) When the use of a definite process is required (fig. 3-5), the process may be indicated by one or more of the letter designations shown in tables 3-1 and 3-2.NOTELetter designations have not been assigned to arc spot, resistance spot, arc seam, resistance seam, and projection welding since the weld symbols used are adequate.(3) When no specification, process, or other symbol, the tail may be omitted (fig. 3-6). reference is used with a weldinge. Other Common Weld Symbols. Figures 3-7 and 3-8 illustrate the weld-all-around and field weld symbol, and resistance spot and resistance seam welds.f. Supplementary Symbols. These symbols are used in many welding processes in congestion with welding symbols and are used as shown in figure 3-3.3-7. LOCATION SIGNIFICANCE OF ARROWa. Fillet, Groove, Flange, Flash, and Upset welding symbols. For these symbols, the arrow connects the welding symbol reference line to one side of the joint and this side shall be considered the arrow side of the joint (fig. 3-9). The side opposite the arrow side is considered the other side of the joint (fig. 3-10).b. Plug, Slot, Arc Spot, Arc Seam, Resistance Spot, Resistance Seam, and Projection Welding Symbols. For these symbols, the arrow connects the welding symbol reference line to the outer surface of one member of the joint at the center line of the desired weld. The member to which the arrow points is considered the arrow side member. The other member of the joint shall be considered the other side member (fig. 3-11).c. Near Side. When a joint is depicted by a single line on the drawing and the arrow of a welding symbol is directed to this line, the arrow side of the joint is considered as the near side of the joint, in accordance with the usual conventions of drafting (fig. 3-12 and 3-13).d. Near Member. When a joint is depicted as an area parallel to the plane of projection in a drawing and the arrow of a welding symbol is directed to that area, the arrow side member of the joint is considered as the near member of the joint, in accordance with the usual conventions of drafting (fig. 3-11).3-8. LOCATION OF THE WELD WITH RESPECT TO JOINTa. Arrow Side. Welds on the arrow side of the joint are shown by placing the weld symbol on the side of the reference line toward the reader (fig. 3-14).b. Other Side. Welds on the other side of the joint are shown by placing the weld symbol on the side of the reference line away from the reader (fig. 3-15).c. Both Sides. Welds on both sides of the joint are shown by placing weld symbols on both sides of the reference line, toward and away from the reader (fig. 3-16).d. No Side Significance. Resistance spot, resistance seam, flash, weld symbols have no arrow side or other side significance in themselves, although supplementary symbols used in conjunction with these symbols may have such significance. For example, the flush contour symbol (fig. 3-3) is used in conjunction with the spot and seam symbols (fig. 3-17) to show that the exposed surface of one member of the joint is to be flush. Resistance spot, resistance seam, flash, and upset weld symbols shall be centered on the reference line (fig. 3-17).3-9. REFERENCES AND GENERAL NOTESa. Symbols With References. When a specification, process, or other reference is used with a weldingsymbol, the reference is placed in the tail (fig. 3-4).b. Symbols Without References. Symbols may be used without specification, process, or other references when:(1) A note similar to the following appears on the drawing: "Unless otherwise designated, all welds are to be made in accordance with specification no...."(2) The welding procedure to be used is described elsewhere, such as in shop instructions and process sheets.c. General Notes. General notes similar to the following may be placed on a drawing to provide detailed information pertaining to the predominant welds. This information need not be repeated on the symbols:(1) "Unless otherwise indicated, all fillet welds are 5/16 in. (0.80 cm) size."(2) "Unless otherwise indicated, root openings for all groove welds are 3/16 in. (0.48 cm)."d. Process Indication. When use of a definite process is required, the process may be indicated by the letter designations listed in tables 3-1 and 3-2 (fig. 3-5).e. Symbol Without a Tail. When no specification, process, or other reference is used with a welding symbol, the tail may be omitted (fig. 3-6).3-10. WELD-ALL-AROUND AND FIELD WELD SYMBOLSa. Welds extending completely around a joint are indicated by mans of the weld-all-around symbol (fig. 3-7). Welds that are completely around a joint which includes more than one type of weld, indicated by a combination weld symbol, are also depicted by the weld-all-around symbol. Welds completely around a joint in which the metal intersections at the points of welding are in more than one plane are also indicated by the weld-all-around symbol.b. Field welds are welds not made in a shop or at the place of initial construction and are indicated by means of the field weld symbol (fig. 3-7).3-11. EXTENT OF WELDING DENOTED BY SYMBOLSa. Abrupt Changes. Symbols apply between abrupt changes in the direction of the welding or to the extent of hatching of dimension lines, except when the weld-all-around symbol (fig. 3-3) is used.b. Hidden Joints. Welding on hidden joints may be covered when the welding is the same as that of the visible joint. The drawing indicates the presence of hidden members. If the welding on the hidden joint is different from that of the visible joint, specific information for the welding of both must be given.3-12. LOCATION OF WELD SYMBOLSa. Weld symbols, except resistance spot and resistance seam, must be shown only on the welding symbol reference line and not on the lines of the drawing.b. Resistance spot and resistance seam weld symbols may be placed directly at the locations of the desired welds (fig. 3-8).3-13. USE OF INCH, DEGREE, AND POUND MARKSNOTEInch marks are used for indicating the diameter of arc spot, resistance spot, and circular projection welds, and the width of arc seam and resistance seam welds when such welds are specified by decimal dimensions.In general, inch, degree, and pound marks may or may not be used on welding symbols, as desired.3-14. CONSTRUCTION OF SYMBOLSa. Fillet, bevel and J-groove, flare bevel groove, and corner flange symbols shall be shown with the perpendicular leg always to the left (fig. 3-18).b. In a bevel or J-groove weld symbol, the arrow shall point with a definite break toward the member which is to be chamfered (fig. 3-19). In cases where the member to be chamfered is obvious, the break in the arrow may be omitted.c. Information on welding symbols shall be placed to read from left to right along the reference line in accordance with the usual conventions of drafting (fig. 3-20).d. For joints having more than one weld, a symbol shall be shown for each weld (fig 3-21).e. The letters CP in the tail of the arrow indicate a complete penetration weld regardless of the type of weld or joint preparation (fig. 3-22).f. When the basic weld symbols are inadequate to indicate the desired weld, the weld shall be shown by a cross section, detail, or other data with a reference on the welding symbol according to location specifications given in para 3-7 (fig. 3-23).g. Two or more reference lines may be used to indicate a sequence of operations. The first operation must be shown on the reference line nearest the arrow. Subsequent operations must be shown sequentially on other reference lines (fig. 3-24). Additional reference lines may also be used to show data supplementary to welding symbol information included on the reference line nearest the arrow. Test information may be shown on a second or third line away from the arrow (fig. 3-25). When required, the weld-all-around symbol must be placed at the junction of the arrow line and reference line for each operation to which it applies (fig. 3-26). The field weld symbol may also be used in this manner.3-15. FILLET WELDSDimensions of fillet welds must be shown on the same side of the reference line as the weld symbol (A, fig. 3-27).b. When fillet welds are indicated on both sides of a joint and no general note governing the dimensions of the welds appears on the drawing, the dimensions are indicated as follows:(1) When both welds have the same dimensions, one or both may be dimensioned (B or C, fig. 3-27).(2) When the welds differ in dimensions, both must be dimensioned (D, fig. 3-27).c. When fillet welds are indicated on both sides of a joint and a general note governing the dimensions of the welds appears on the drawing, neither weld need be dimensioned. However, if the dimensions of one or both welds differ from the dimensions given in the general note, both welds must be dimensioned (C or D, fig. 3-27).3-16. SIZE OF FILLET WELDSa. The size of a fillet weld must of a fillet weld be shown to the left of the weld symbol (A, fig. 3-27).b. The size the fillet weld with unequal legs must be shown in parentheses to left of the weld symbol. Weld orientation is not shown by the symbol and must be shown on the drawing when necessary (E, fig. 3-27).c. Unless otherwise indicated, the deposited fillet weld size must not be less than the size shown on the drawing.d. When penetration for a given root opening is specified, the inspection method for determining penetration depth must be included in the applicable specification.3-17. LENGTH OF FILLET WELDSa. The length of a fillet weld, when indicated on the welding symbol, must be shown to the right of the weld symbol (A through D, fig. 3-27).b. When fillet welding extends for the full distance between abrupt changes in the direction of the welding, no length dimension need be shown on the welding symbol.c. Specific lengths of fillet welding may be indicated by symbols in conjunction with dimension lines (fig. 3-28).3-18. EXTENT OF FILLET WELDINGa. Use one type of hatching (with or without definite lines) to show the extent of fillet welding graphically.b. Fillet welding extending beyond abrupt changes in the direction of the welding must be indicated by additional arrows pointing to each section of the joint to be welded (fig. 3-29) except when theweld-all-around symbol is used.3-19. DIMENSIONING OF INTERMITTENT FILLET WELDINGa. The pitch (center-to-center spacing) of intermittent fillet welding shall be shown as the distance between centers of increments on one side of the joint.b. The pitch of intermittent fillet welding shall be shown to the right of the length dimension (A, fig 3-27).c. Dimensions of chain intermittent fillet welding must be shown on both sides of the reference line. Chain intermittent fillet welds shall be opposite each other (fig. 3-30).d. Dimensions of staggered intermittent fillet welding must be shown on both sides of the reference line as shown in figure 3-31.Unless otherwise specified, staggered intermittent fillet welds on both sides shall be symmetrically spaced as in figure 3-32.3-20. TERMINATION OF INTERMITTENT FILLET WELDINGa. When intermittent fillet welding is used by itself, the symbol indicates that increments are located at the ends of the dimensioned length.b. When intermittent fillet welding is used between continuous fillet welding, the symbol indicates that spaces equal to the pitch minus the length of one increment shall be left at the ends of the dimensioned length.c. Separate symbols must be used for intermittent and continuous fillet welding when the two are combined along one side of the joint (fig. 3-28).3-21. SURFACE CONTOUR OF FILLET WELDSa. Fillet welds that are to be welded approximately flat, convex, or concave faced without recourse to any method of finishing must be shown by adding the flush, convex, or concave contour symbol to the weld symbol, in accordance with the location specifications given in paragraph 3-7 (A, fig. 3-33).b. Fillet welds that are to be made flat faced by mechanical means must be shown by adding both the flush contour symbol and the user's standard finish symbol to the weld symbol, in accordance with location specifications given in paragraph 3-7 (B, fig. 3-33).c. Fillet welds that are to be mechanically finished to a convex contour shall be shown by adding both the convex contour symbol and the user's standard finish symbol to the weld symbol, in accordance with location specifications given in paragraph 3-7 (C, fig. 3-33).d. Fillet welds that are to be mechanically finished to a concave contour must be shown by adding both the concave contour symbol and the user's standard finish symbol to the weld symbol in accordance with location specification given in paragraph 3-7.e. In cases where the angle between fusion faces is such that the identification of the type of weld and the proper weld symbol is in question, the detail of the desired joint and weld configuration must be shown on the drawing.NOTE Finish symbols used here indicate the method of finishing (" c" = chiping, "G" = grinding, "H" = hammering, "M" = machining), not the degree of finish.3-22. PLUG AND SLOT WELDING SYMBOLSa. General. Neither the plug weld symbol nor the slot weld symbol may be used to designate fillet welds in holes.b. Arrow Side and Other Side Indication of Plug and Slot Welds. Holes or slots in the arrow side member of a joint for plug or slot welding must be indicated by placing the weld symbol on the side of the reference line toward the reader (A, fig. 3-11). Holes or slots in the other side member of a joint shall be indicated by placing the weld symbol on the side of the reference line away from the reader (B, fig. 3-11).c. Plug Weld Dimensions. Dimensions of plug welds must be shown on the same side of the reference line as the weld symbol. The size of a weld must be shown to the left of the weld symbol. Included angle of countersink of plug welds must be the user's standard unless otherwise indicated. Included angle of countersink, when not the user's standard, must be shown either above or below the weld symbol (A and C, fig. 3-34). The pitch (center-to-center spacing) of plug welds shall be shown to the right of the weld symbol.d. Depth of Filling of Plug and Slot Welds. Depth of filling of plug and slot welds shall be completed unless otherwise indicated. When the depth of filling is less than complete, the depth of filling shall be shown in inches inside the weld symbol (B, fig. 3-34).e. Surface Contour of Plug Welds and Slot Welds. Plug welds that are to be welded approximately flush without recourse to any method of finishing must be shown by adding the finish contour symbol to the weld symbol (fig. 3-35). Plug welds that are to be welded flush by mechanical means must be shown by adding both the flush contour symbol and the user's standard finish symbol to the weld symbol (fig. 3-36).f. Slot Weld Dimensions. Dimensions of slot welds must be shown on the same side of the reference line as the weld symbol (fig. 3-37).g. Details of Slot Welds. Length, width, spacing, included angle of countersink, orientation, and location of slot welds cannot be shown on the welding symbols. This data must be shown on the drawing or by a detail with a reference to it on the welding symbol, in accordance with location specifications given in paragraph 3-7 (D, fig. 3-33).3-23. ARC SPOT AND ARC SEAM WELDSa. General. The spot weld symbol, in accordance with its location in relation to the reference line, may or may not have arrow side or other side significance. Dimensions must be shown on the same side of the reference line as the symbol or on either side when the symbol is located astride the reference line and has no arrow side or other side significance. The process reference is indicated in the tail of the welding symbol. Then projection welding is to be used, the spot weld symbol shall be used with the projection welding process reference in the tail of the welding symbol. The spot weld symbol must be centered above or below the, reference line.b. Size of Arc Spot and Arc Seam Welds.(1) These welds may be dimensioned by either size or strength.(2) The size of arc spot welds must be designated as the diameter of the weld. Arc seam weld size shall be designated as the width of the weld. Dimensions will be expressed in fractions or in decimals in hundredths of an inch and shall be shown, with or without inch marks, to the left of the weld symbol (A, fig. 3-38).(3) The strength of arc spot welds must be designated as the minimum accept-able shear strength in pounds or newtons per spot. In arc seam welds, strength is designated in pounds per linear inch. Strength is shown to the left of the weld symbol (B, fig. 3-38).c. Spacing of Arc Spot and Arc Seam Welds.(1) The pitch (center-to-center spacing) of arc spot welds and, when indicated, the length of arc seam welds, must be shown to the right of the weld symbol (C, fig. 3-38).。

________________________________________________________________________--ABN 96 108 552 325WELD SYMBOLS AS1101.3焊接符号澳大利亚标准1101.3TKMH DRAWING WELD SYMBOL EXPLANATION克虏伯图纸焊接符号解释________________________________________________________________________--ABN 96 108 552 325- Single Sided fillet weld -单面角焊缝- Number indicates the weld leg length -号码表示焊脚尺寸大小- If there is a gap between the items, the fillet size must be increased by the size of the gap.-如果两个件有间隙，角焊缝尺寸也随间隙尺寸而增加- Double Sided fillet weld -双面角焊缝- Number indicates the weld leg length -号码表示焊脚尺寸大小- If there is a gap between the items, the fillet size must be increased by the size of the gap. -如果两个件有间隙，角焊缝尺寸也随间隙尺寸而增加- Partial Penetration Welds from One Side -单面部分熔透焊接- No Weld Gap Required -没有焊接间隙要求- Number Indicates the weld penetration depth -号码表示坡口深度- Partial Penetration Weld from Two Sides -双面部分熔透焊接- No Weld Gap Required. -没有焊接间隙要求- Number indicates the bevel depth. -号码表示坡口深度________________________________________________________________________--ABN 96 108 552 325- Complete Penetration Weld from One Side-单面全熔透焊接- Minimum Weld Gap (Root Opening) of 2mm or as specified by the WPS and drawing-最小焊接间隙2mm （开根）,或者按照焊接工艺规程以及图纸要求留间隙。

焊接符号的原理Welding symbols are used to communicate important information about the weld to those involved in the welding process. These symbols provide a universal language that can be understood by welders, inspectors, engineers, and anyone else involved in the fabrication of metal parts. By using these symbols, individuals can quickly and accurately understand the specific requirements for each weld, which is crucial for ensuring the overall quality and integrity of the finished product.焊接符号被用来向参与焊接过程的人员传达有关焊接的重要信息。

这些符号提供了一种通用语言，可以被焊接工、检验员、工程师以及其他参与金属零件制造的人员理解。

通过使用这些符号，个人可以快速准确地了解每个焊接的具体要求，这对于确保最终产品的整体质量和完整性至关重要。

One of the key principles of welding symbols is to provide a clear and concise representation of the weld to ensure that all parties involved have a common understanding of the requirements. This helps prevent misinterpretation or confusion, which could lead to costly errors or rework. By standardizing the way weldinginformation is communicated, welding symbols promote efficiency and accuracy in the fabrication process.焊接符号的关键原则之一是提供对焊接的清晰简洁的表达，以确保所有参与方对要求有共同的理解。

焊接符号及焊接标注方法1.焊接接头共有五种形式：对接、角接、T形、搭接和端接接头。

这五种基本接头形式都有一定的焊缝和焊缝符号与之对应。

接头设计确定了其形状、尺寸和结构。

每个焊件的端部形状常常与其焊缝形式及符号相似。

2.接头型式确定后，焊接及检验人员应具备相当的能力来识别对于一给定接头的几何形状的各个特征。

与这些特征有关的术语包括接头根部、坡口面、根部钝边、根部棱边、根部间隙、单边、单边角度、坡口角度和坡口半径。

3.每种接头类型都有各种不同的焊缝。

根据AWS A2.4标准，共有九类焊缝及与其相关的焊缝符号，每一类焊缝中有各种相应的焊缝形式。

焊接设计人员可根据需要，选取最适合的接头形状和焊缝类别。

选取时，可考虑易焊的接头、成熟的焊接工艺、适当的结构设计和焊接成本。

4.焊缝符号是表示焊缝横截面形状特征的符号，包括卷边焊缝、I形焊缝、V形焊缝、单边V形焊缝、带钝边V形焊缝、带钝边单边V形焊缝、带钝边U形焊缝、带钝边J形焊缝、封底焊缝、角焊缝、塞焊缝或槽焊缝、点焊缝和缝焊缝。

5.焊缝的辅助符号是表示焊缝表面形状特征的符号，包括平面符号、凹面符号和凸面符号。

焊缝的辅助符号的应用见表3.XXX n of welds。

as shown in Table 4.are used to XXX size symbols。

as shown in Table 5.may be added to basic symbols when XXX in Table mon metal welding method codes are listed in Table 7.Examples of XXX 9.Table 4: Supplementary symbols for weldsNumber1NameBacking strip symbol①Symbol nXXX at the bottom of the weld2Three-sided XXX3XXXIndicates that there is a weld on three sidesIndicates that there is a weld around the workpiece45On-site symbolTail symbolXXX on site or at the n site。

圆周焊接符号1. 指向线（Arrow Line）: 用于指示焊接位置和方向，通常是一条直线或箭头形状的线段。

2. 弧线（Arc Line）: 用于表示焊缝的形状，通常是一条弧线。

3. 符号标识（Symbol Reference）: 用于标示焊接方法、焊接程序或其他特殊要求。

4. 弧线和直线的交点（Intersection Points）: 表示焊接点的位置。

1. 单面焊接符号（Single-Side Weld Symbol）: 用于表示只有一面焊缝的情况。

它通常由一个指向线和一个弧线组成，指向线上方表示焊接面。

2. 双面焊接符号（Double-Side Weld Symbol）: 用于表示有两面焊缝的情况。

它由两个相互平行的指向线和一个弧线组成，指向线之间的距离表示两面焊缝之间的距离。

3. 焊接位置符号（Weld Location Symbol）: 用于表示多个焊缝的位置。

它由多个指向线和一个交叉点组成，每个指向线表示一个焊缝的位置。

4. 焊接过渡符号（Weld Transition Symbol）: 用于表示焊接缝的两侧材料厚度不一致的情况。

它由两个相交的弧线和两个指向线组成，弧线表示焊缝的形状。

5. 焊缝形状符号（Weld Contour Symbol）: 用于表示焊缝的几何形状。

它由一组围绕焊缝的弧线和直线组成，表示所需的焊缝形状。

使用圆周焊接符号有以下几点注意事项：1.符号应绘制在焊接图上，准确表示焊接要求和位置。

2.符号应标明必要的尺寸、位置、夹具和加工要求。

3.符号应符合国际或国家标准，以确保与各方的交流和理解。

总的来说，圆周焊接符号是一种重要的标志符号，它能够准确地表示焊接位置、焊缝形状和品质要求，以确保焊接过程和焊接质量的要求得到满足。

正确使用圆周焊接符号能够提高焊接的准确性和可靠性，减少误解和错误，提高生产效率和产品质量。

因此，在进行焊接工作时，了解和熟悉圆周焊接符号是非常重要的。