1)Solderability[,s?ld?r?'bil?ti]钎焊性能
1.The solderability of electronic solders depends to a great extent on the wettability, which relates to solid, liquid and gas interfacial tensions of the melted solders on substrates.钎料的钎焊性能很大程度取决于钎料对基板上的润湿性能,而润湿性能与液态钎料在基板上的液、固、气三相界面的界面张力有关。
2.The effect of the content of copper on melting point,strength,solderability is emphatically discussed.着重讨论了微量Cu含量对Zn-Al钎料熔点、强度、钎焊性能等的影响。
3.The solderability of electronic solders and some factors that influence the solderability are discussed.讨论了电子软钎料的钎焊性能及其影响因素,钎料的钎焊性能很大程度取决于钎料对基板的润湿性能,而润湿性能与液态钎料在基板上的液、固、气三相界面张力有关。
英文短句/例句
1.Study on Processing Technology and Brazing Performance of Ag55Cu21Zn17Sn5Ge2 SolderAg55Cu21Zn17Sn5Ge2钎料加工工艺及其钎焊性能的研究
2.Study on Mechanical Property and Solder ability of SnAgCu System Lead-free Solder AlloySnAgCu系无铅钎料合金力学性能及钎焊性能研究
3.The Experimental Research on Brazing Process of Fe_3Al and High Temperature Heat-resistant AlloyFe_3Al与高温耐热合金的钎焊性能研究
4.The Research on Properties and Bonding Mechanism of Armorphous Cu-P Filler Metals;非晶Cu-P钎料的性能及钎焊机理研究
5.Characteristics of Amorphous Brazing Ribbon of Cu-P Based Alloy非晶态铜磷钎料真空钎焊紫铜的性能
6.Research on the New Lead-Free Solder Processing Properties of Brazing and Mechanical Properties;新型无铅钎料钎焊工艺性及机械性能的研究
7.Microstructure and properties of BCu80Ni5SnTi active filler metal for brazing cubic boron nitride钎焊立方氮化硼BCu80Ni5SnTi活性钎料的组织与性能
8.Weldability and Microstructure of Copper Joints Welded by Two Kinds of Phosphor-copper Brazing Filler Metal两种铜磷钎料对紫铜钎焊的焊接性能和焊缝组织对比
9.Effect of Cr on Property of Stainless Steel Joint Brazed with Series Ni-P Filler MetalCr对Ni-P系钎料钎焊不锈钢接头性能的影响
10.Influence of Cu on Properties of Zn-Al Solders for Al/Cu BrazingCu元素对铝/铜钎焊用Zn-Al钎料性能的影响
11.Microstructure and Mechanical Property of Joint by Amorphous Fillers非晶镍基钎料钎焊接头性能及微观组织的研究
12.Study on Soldering Procedure and Joint Properties of Down Quenching SnAgCu Solder Alloy急冷型SnAgCu系钎料合金钎焊工艺及接头性能研究
13.Research the Influence on Mechanics Performance of Jointing Techniques Parameter钎焊工艺参数对钎缝组织性能影响的研究
14.Phase Constitution of Soldering Seam and Mechanical Properties of Zn Matrix Filler Metal Soldering Magnesium Alloy AZ31B JointZn基钎料钎焊镁合金AZ31B接头的钎缝物相及力学性能
15.Microstructure and Properties of Vacuum Brazing C_f/C Composites Using Reactive Al Based Filler Metals铝基活性钎料真空钎焊C_f/C复合材料焊接接头的组织及性能
16.Thermomechanical Fatigue Properties of Lead-Free Solder Joints;无铅合金钎焊接头热疲劳性能的研究
17.The Study of Sn-3.0Ag-0.5Cu-XNi Lead-free Solder and Joint Point Microstructure and PropertySn-3.0Ag-0.5Cu-XNi钎料及焊点组织和性能研究
18.Study on micro-performance of resistance brazing joint of Ti and CuTi-Cu电阻钎焊接头微观性能研究
相关短句/例句
active brazing活性钎焊
1.Interfacial reaction of active brazing between Al_2O_3 ceramic and metal NiAl_2O_3陶瓷与金属Ni活性钎焊界面反应
2.Thermal cycle resistance of Al2O3/Ni-Ti/Kovar joints was studied, which were prepared by active brazing technique.对采用活性钎焊的Al2O3/Ni-Ti/Kovar(可伐)接头进行了考察,实验结果显示,接头经热循环后强度异常增加。
3.The active brazing of ceramics(Al_2O_3,ZrO_2andSi_3N_4)to ceramics and to 18-8 stainless steel was performed using Ag-Cu-Ti filler in a vaccum.研究了Al_2O_3、93%Al_2O_3、Si_3N_4和ZrO_2陶瓷与陶瓷、陶瓷与不锈钢活性钎焊。
3)solderability[,s?ld?r?'bil?ti]钎焊性
1.The reasons of lower solderability and spreading rate of molten lead free solders on copper base metal have been discussed from thepoint of view of phase relations and phase reactions.从熔融钎料与母材的相关系和相反应(phase relation and phase reaction)出发,讨论了无铅钎料在铜上铺展率和钎焊性低下的原因,认为是其间过度和过于快速的金属间化合物生长所致。
2.The test results show that the modifying solder has good solderability,whereas,the excellent flux is rosin-ethanol or rosin-isopropanol solution.在熔融状态下无铅焊料合金的行为是影响电子产品微连接钎焊性的关键因素。
3.The influences of cathode current density, pH value, and temperature on the performance of the coating were investigated, while the correlation among the Cr content in the plating and the corrosion resistance and solderability was explored.以工业级的革鞣剂和硫酸镍为主盐,研究了硫酸盐体系电镀铬镍合金工艺配方与工艺规范、阴极电流密度、pH值、温度对镀层的影响,讨论了镀层中的铬含量对镀层耐腐蚀性和钎焊性的影响。
4)Brazability钎焊性
1.Improvement of joint brazability of aluminum alloys to stainless steel in the air铝合金与不锈钢大气钎焊性的改善——铝合金与不锈钢焊接技术(二)
2.Under torch brazing condition, using brazing filler metals of Cu-based and Ag-based, a series of tests are investigated to braze Ti(C,N) based cermets and 45 steel, the micrographic structure of joints and shearing test results are analyzed, they show that Ti(C,N) based cermets has good brazability.通过观察和分析钎焊接头的结合情况及剪切试验 ,表明 Ti(C,N)基金属陶瓷具有较好的钎焊性 ;火焰钎焊条件下 ,以 H 6 2为钎料的接头的平均剪切强度为37MPa,以 BAg10 Cu Zn为钎料的接头的剪切强度达 114 MPa,以 BCu Zn Mn为钎料的接头的平均剪切强度为 4 9MP
5)brazing characteristics钎焊特性
1.Vacuum brazing characteristics of Ni(80- x)Cr10B2.5Fe3Cux合金钎料真空钎焊1Cr18Ni9Ti的钎焊特性,并对铜的影响进行了探讨。
6)Brazer Performance Qualification (BPQ)钎焊工技能评定
延伸阅读
不锈钢的物理性能、力学性能和耐热性能不锈钢的物理性能 不锈钢和碳钢的物理性能数据对比,碳钢的密度略高于铁素体和马氏体型不锈钢,而略低于奥氏体型不锈钢;电阻率按碳钢、铁素体型、马氏体型和奥氏体型不锈钢排序递增;线膨胀系数大小的排序也类似,奥氏体型不锈钢最高而碳钢最小;碳钢、铁素体型和马氏体型不锈钢有磁性,奥氏体型不锈钢无磁性,但其冷加工硬化生成成氏体相变时将会产生磁性,可用热处理方法来消除这种马氏体组织而恢复其无磁性。 奥氏体型不锈钢与碳钢相比,具有下列特点: 1)高的电阴率,约为碳钢的5倍。 2)大的线膨胀系数,比碳钢大40%,并随着温度的升高,线膨胀系数的数值也相应地提高。 3)低的热导率,约为碳钢的1/3。 不锈钢的力学性 不论不锈钢板还是耐热钢板,奥氏体型的钢板的综合性能最好,既有足够的强度,又有极好的塑性同时硬度也不高,这也是它们被广泛采用的原因之一。奥氏体型不锈钢同绝大多数的其它金属材料相似,其抗拉强度、屈服强度和硬度,随着温度的降低而提高;塑性则随着温度降低而减小。其抗拉强度在温度15~80°C范围内增长是较为均匀的。更重要的是:随着温度的降低,其冲击韧度减少缓慢,并不存在脆性转变温度。所以不锈钢在低温时能保持足够的塑性和韧性。 不锈钢的耐热性能 耐热性能是指高温下,既有抗氧化或耐气体介质腐蚀的性能即热稳定性,同时在高温时双有足够的强度即热强性。 不锈钢国际标准标准 标准 标准名 GB 中华人民共和国国家标准(国家技术监督局) KS 韩国工业标准协会规格Korean Standard AISI 美国钢铁协会规格America Iron and Steel Institute SAE 美国汽车技术者协会规格Society of Automative Engineers ASTM 美国材料试验协会规格American Society for Testing and Material AWS 美国焊接协会规格American Welding Society ASME 美国机械技术者协会规格American Society of Mechanical Engineers BS 英国标准规格British Standard DIN 德国标准规格Deutsch Industria Normen CAS 加拿大标准规格Canadian Standard Associatoin API 美国石油协会规格American Petroleum Association KR 韩国船舶协会规格Korean Resister of Shipping NK 日本省事协会规格Hihon Kanji Koki LR 英国船舶协会规格Llouds Register of Shipping
