复合热源螺柱焊,hybrid stud welding
1)hybrid stud welding复合热源螺柱焊
1.A high-power torch used for the automatichybrid stud welding of the mid-thick large-diameter stud has been developed on the basis of the in-depth study and experimentation of the classical stud welding torch,consider of the requirement ofhybrid stud welding and hollow stud welding.复合热源螺柱焊接工艺是一种新型螺柱焊接技术,在深入试验研究传统电弧螺柱焊枪的基础上,根据复合热源螺柱焊接和空心螺柱旋弧焊接的工艺需求,设计研制了一种适用于中厚板大直径复合热源螺柱自动焊接的大功率焊枪,该焊枪采用直柄式设计,使用了独具特色的专用电磁铁、引弧提升机构和导向机构,采用所设计的大功率自动螺柱焊枪,进行了8~30 mm板厚12~21 mm直径的自动螺柱焊接工艺试验,焊接过程稳定、接头饱满,接头强度与螺柱强度之比达到1。
英文短句/例句
1.Research on Stud Welding and Middle-thickness Board with Compound Heat Source;螺柱与中厚高强钢复合热源螺柱焊试验研究
2.Welding Torch Research and Technological Experiment for Automatic Stud Welding with Hybrid Resource复合热源自动螺柱焊焊枪装置研制及工艺试验
3.Research on Welding Technics and Performance Analysis of Large Diameter Stud with Compound Heat Source大直径螺柱复合热源工艺试验研究及性能分析研究
4.Numerical Simulation of Weld Formation in Laser+GMAW-P Hybrid Welding激光+GMAW-P复合热源焊焊缝成形的数值模拟
5.Influences of welding parameters on weld appearance in laser-MIG hybrid welding of AZ31AZ31激光-MIG复合热源焊接参数对焊缝形貌的影响
6.Technological Investigation on Laser-MAG Hybrid Welding of High Strength Steels高强钢激光-MAG复合热源焊接工艺研究
7.EFFECT OF ARC POWER ON THERMAL FIELD CHARACTERISTICS OF LASER+GMAW-P HYBRID WELDING电弧功率对Laser+GMAW-P复合热源焊热场特征的影响
8.Waveform Modulating System of Converter for Stud Welding of Car Body轿车车身焊装用螺柱焊逆变电源波形控制系统
9.Study of Laser-TIG Hybrid Welding Process for Magnesium Alloy and Its Numerical Simulation;镁合金复合热源焊接工艺与数值模拟研究
10.Fusion-brazing Joining for Dissimilar Metals Between 5A02 Aluminium Alloy and Zinc-coated Steel Based on Laser-MIG Hybrid Welding基于激光——MIG复合热源的5A02铝合金/镀锌钢熔——钎焊
11.Research on Studs Hybrid Heat Source Welding Technology and the Theoretical Test Prototype;附座复合热源焊接方法与原理试验样机的研究
12.Analysis of Droplet Transfer Behavior in CO_2 Laser-MIG Hybrid Welding Process;CO_2激光-MIG复合热源焊接熔滴过渡的行为分析
13.Study on the Laser-TIG Hybrid Welding of Dissimilar Magnesium Alloy and Steel with Ni as Interlayer镁/钢异种金属激光-TIG复合热源镍夹层焊接研究
14.On the Characteristics of Nd: YAG Laser-Short Circuiting Transfer GMA Hybrid WeldingNd:YAG激光—短路过渡GMAW复合热源焊接特性研究
15.Finite Element Analysis of the Welding Temperature Profiles and Thermal Distortion in Laser +GMAW Hybrid Welding Process;激光+GMAW复合热源焊接温度场和热变形的有限元分析
16.Study on Laser-metal Active Gas (MAG) Hybrid Welding Technology and Its Mechanism of Stainless Steel;不锈钢激光-MAG电弧复合热源焊接工艺及机理研究
17.Appearance of weld and impact toughness for the joints of ferrite stainless steel by laser-MAG hybrid welding铁素体不锈钢激光-MAG复合热源焊缝成形及接头冲击韧性分析
18.This article breifly introduces polymer matrix composites and highights a number of welding processes, such as hot plate welding, infrared welding, induction welding, vibration welding and ultrasonic welding, etc.本文主要介绍了热塑性复合材料的若干种焊接方法,如热板焊、红外焊、应焊、动焊、声波焊等。
相关短句/例句
hybrid welding复合热源焊
1.As a new-style high-quality and high-efficiency joining technique,laser+pulsed GMAW(GMAW-P)hybrid welding combines the benefits of both laser beam welding (LBW) and GMAW-P and has the synergistic effect of "1+1>2".激光+脉冲GMAW(pulsed gas metal arc welding,GMAW-P)复合热源焊作为一种新型的优质、高效焊接技术,综合了激光焊与GMAW-P工艺的双重优点,并具有“1+1>2”的协同效应,工业应用潜力巨大。
2.Laser+GMAW-P(pulsed gas metal arc welding)hybrid welding is a combination of laser welding with GMAW-P which can not only bring the advantages of heatsources used in these two welding processes into full play,but also compensate for each other\"s drawback.本文应用已建立的复合热源焊的组合式体积热源模型,对Laser+GMAW-P复合热源焊的热场进行数值分析,定量研究了不同电弧功率对Laser+GMAW-P复合热源焊热影响区(HAZ)宽度和热循环参数等热场特征基础数据的影响规律,并与单激光焊和单GMAW-P焊的情况进行了比较,以期从冶金上揭示复合热源焊的特点。
3)hybrid welding复合热源焊接
1.Welding characteristics of laser-low power pulse MIGhybrid welding aluminium alloy;铝合金激光—小功率脉冲MIG电弧复合热源焊接特性分析
2.Influence of Nd:YAG laser+pulsed GMAW archybrid welding parameters on weld width;Nd:YAG激光+脉冲GMAW复合热源焊接参数对焊缝熔宽的影响
3.The reinforcement-to-width ratio,which was used to indicate the weld metal spreadability,and reinforcement were used to elevate weld appearance in Nd:YAG laser + pulsed MAG(Metal Active Gas) archybrid welding.利用余高-熔宽比表示焊缝表面铺展性并与焊缝余高一起作为参数来评价激光+电弧复合热源焊缝的表面成形,通过试验研究了Nd:YAG激光+脉冲MAG电弧复合热源焊接过程中焊接规范参数对复合热源焊缝表面成形的影响,并分析了激光对复合热源焊缝表面成形的影响。
4)Laser-TIG welding激光-氩弧复合热源焊接
5)hybrid welding复合热源
1.Analysis for local incomplete brazing in fusion-brazed joints between aluminium and zinc-coated steel byhybrid welding;铝/镀锌钢复合热源熔—钎接头的局部“未钎合”缺陷分析
2.Analysis for Al-Fe intermetallic compounds layer of fusion-brazed joints between aluminium and zinc-coated steel byhybrid welding;铝/镀锌钢复合热源熔—钎接头中的Al-Fe金属间化合物层分析
3.Braze-welding for dissimilar metals between copper and steel by Nd:YAG laser-plused MIGhybrid welding;铜/镀锌钢异种金属Nd:YAG激光脉冲MIG复合热源钎接焊
6)hybrid heat source复合热源
1.Study on the characteristics of applyinghybrid heat source LiBr Absorption refrigerating unit by waste heat利用多种余热的复合热源型溴化锂制冷机组特性分析
延伸阅读
复合材料的复合效应复合材料的复合效应composition effect of composite materials复合材料的复合效应Composition effeet of Com-Posite materials复合材料特有的一种效应,包括线性效应和非线性效应两类。线性效应包括平均效应、平行效应、相补效应和相抵效应。例如常用于估算增强体与基体在不同体积分数情况下性能的混合率,即 Pc一巧几+VmPm式中Pc为复合材料的某一性质,乃、几分别为增强体和基体的这种性质,VR、Vm则分别是两者的体积分数。这就是基于平均效应上的典型事例。另外关于相补效应和相抵效应,它们常常是共同存在的。显然,相补效应是希望得到的而相抵效应要尽可能避免,这个可通过设计来实现。非线性效应包括乘积效应、系统效应、诱导效应和共振效应、其中有的己经被认识和利用,并为功能复合材料的设计提供了很大自由度;而有的效应则尚未被充分地认识和利用。乘积效应即已被用于设计功能复合材料。如把一种具有两种性能互相转换的功能材料X/y(如压力/磁场换能材料)和另一种Y/Z的换能材料(如磁场/电阻换能材料)复合起来,其效果是(X/D·(Y/Z)二X/Z,即变成压力/电阻换能的新材料。这样的组合可以非常广泛(见表)。系统效应的机理尚不很清楚,但在实际现象中已经发现这种效应的存在。例如交替迭层镀膜的硬度远大于原来各单一镀膜的硬度和按线性棍合率估算的数值,说明组成了复合系统才能出现的性质。诱导行为已经在很多实验中发现,同时这种效应也在复合材料的乘积效应┌──────┬──────┬──────────┐│甲相性质│乙相性质│复合后的乘积性质││ X/y│ Y/Z│沙到豹·(Y/公一义您 │├──────┼──────┼──────────┤│压磁效应│磁阻效应│压敏电阻效应│├──────┼──────┼──────────┤│压磁效应│磁电效应│压电效应│├──────┼──────┼──────────┤│压电效应│场致发光效应│压力发光效应│├──────┼──────┼──────────┤│磁致伸缩效应│压阻效应│磁阻效应│├──────┼──────┼──────────┤│光导效应│电致效应│光致伸缩│├──────┼──────┼──────────┤│闪烁效应│光导效应│辐射诱导导电│├──────┼──────┼──────────┤│热致变形效应│压敏电阻效应│热敏电阻效应│└──────┴──────┴──────────┘复合材料界面的两侧发现,如诱导结晶或取向,但是尚未能利用这种效应来主动地设计复合材料。两个相邻的物体在一定的条件下会产生机械的或电、磁的共振,这是熟知的物理行为。复合材料是多种材料的组合,如果加以有目的性的设计,肯定可利用这种共振效应,但是目前尚未加以研究。(吴人洁)
