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- deposited metal test specimen 熔敷金属试样,熔敷金属试件
- parent metal test specimen 母材试件,母体金属试样
- all-weld metal test specimen [机] 熔着金属试片
- all weld metal test specimen 所有焊接金属测试样品
- filler metal test specimen 填充金属试样
- base metal test specimen 母材试件,基底金属试样
- Is a wedge test specimen utilized for chill or analysis control? 是否用楔型试块进行分析控制?
- Moreover, the wear of deposited metal samples increases with load increasing. 负荷增大,熔敷金属试样的磨损也呈增加趋势。
- Welding consumables - Test methods - Test piece for all-weld metal test specimens in steel, nickel and nickel alloys 焊熔。试验方法。钢,镍和镍合金中所有焊接金属试样用试验片
- The micro structure of deposited metal is composed of martensite,residual austnesite and carbide hard phase. 堆焊层组织为马氏体+残余奥氏体+碳化物硬质相。
- Welding consumables - Test methods - Part 1: Test methods for all-weld metal test specimens in steel, nickel and nickel alloys 焊料。试验方法。第1部分:钢、镍和镍合金中全焊接金属试样的试验方法
- Deposited metal fluidity better than 308L, on weld the operation too more superior. 熔敷金属流动性较308L为佳,在焊接操作上也更优越。
- Deposited metal fluidity better than 316L, on weld the operation too more superior. 熔敷金属流动性较316L为佳,在焊接操作上也更优越。
- The representative volume of colluvial deposit is larger tha n normal sized testing specimen. 然因崩积层不易取样以及取样后之代表性不足,造成崩积层工程特性研究之困难。
- The external constraint test of the coffin model for two kinds of deposited metals,called the 3Cr2W8 and HM3,is conducted. 对两种模具钢堆焊金属(3C r2W 8和HM 3)进行了外加约束Coffin型热疲劳试验。
- By adding magnesium powder into the coating of electrode,the sulphurs removal in deposited metal was satisfactory. 通过理论分析及实验,探讨了手工电弧焊焊条药皮中添加金属镁粉的脱硫效果。
- The finite element model of a small punch test specimen of 1Cr0.5Mo steel is established. 基于小冲孔蠕变试验 ;建立 1Cr0 .;5Mo耐热钢小冲孔蠕变试样的有限元模型。
- The microscopic analysis results indicate that deposited metal is hypereutectic structure. 测试结果表明熔敷金属为过共晶组织。
- The spectr al reflectance of each test specimen is measured in situ before and after exp osures. 在辐照前后对每一个试样的光谱反射系数进行了原位测量。
- The microstructure and porosity of the deposited metal can be systematically manipulated by the use of osmotic pressure. 利用渗透压的新技术可控制膜的微观结构和孔隙率。
