1) mixed microstructures
混晶组织
1.
It shows that the surface crack of steel wire rod and mixed microstructures are main cause for drawing fracture.
保证钢坯表面完整,如有缺陷应予以铲除,不合格钢坯严禁入炉,可避免盘条表面裂纹;加热温度过高形成的混晶组织可通过选择1000~1050℃加热来解决;适当提高加热温度可避免在轧制前出现混晶;吐丝温度设定950~980℃有利于得到易于拉拔的均匀细小晶粒组织。
2) duplex grain structure
混合晶粒组织
3) Eutectic structure
共晶组织
1.
Effects of Cooling Rate on Eutectic Structure of Zn-0.24Ni Alloy;
冷却速度对Zn-0.24Ni合金共晶组织的影响
2.
Effects of neodymium and cooling rate on eutectic structure in AZ91HP magnesium alloy
Nd与冷却速度对AZ91HP镁合金共晶组织形貌的影响
3.
Besides,microscopic structure is eutectic structure of γ-.
结果表明:该涂层与基体呈冶金结合,内部组织均匀细密无缺陷,是固溶了大量Cr的-γFe相与高硬度析出相的共晶组织;其在海水中的耐蚀性远高于0Cr18Ni9Ti不锈钢,两者在海水中均表现为点蚀。
4) Crystal structure
结晶组织
1.
The crystal structure of two kinds of welds was compared, and the chemical composition of the welds were tested.
利用金相试验方法对两种焊接接头的结晶组织形貌进行了详细的对比和分析,并对焊接接头区域的化学组成进行了测试和分析。
2.
The crystal structures obtained by static solidification and vibration solidification were compared.
对球铁金属型静凝固与振动凝固的结晶组织对比表明:后者柱状晶方向性生长较弱,等轴晶出现较早,且两者的晶粒均较细,全断面硬度较高且分布均匀;前者枝晶奥氏体内溶质偏析大,有畸变夹杂团块。
3.
Effects of the rare earth compositions and Mo additive in hydrogen storage alloy, the stoichiometric ratio, the crystal structure and the electrolyte concentration on low temperature discharge characteristics of Ni MH batteries were studied.
研究了贮氢合金中稀土组成和Mo含量、化学计量比、结晶组织、电解液浓度对MH Ni电池低温放电性能的影响。
5) dendritic structure
枝晶组织
1.
Holding time when dendritic structures disappeared was great.
预变形可大大缩短枝晶组织消除所需的保温时间。
2.
Effects of diffusion annealing on dendritic structure,forging filamentary microstructure and impact toughness of Cr-Mo low alloy steel ingot were studied.
25V钢锭枝晶组织、锻造纤维状组织以及锻件冲击韧性的影响。
3.
The non-dendritic structure ZA12 alloy with ideal thixotropic behaviour was obtained by isothermal heat treating the conventional ingots in semi-solid states- The relationship between the parameters of heat treatment and the microstructure was investigated.
将初生相为枝晶形态的常规ZA12合金铸锭重新加热到半固态进行等温热处理,可获得具有良好触变性的非枝晶组织合金。
6) coarse grain structure
粗晶组织
1.
Among aluminium alloy indirect extrusion producing period,various process condition influence different result to the coarse grain structure.
铝合金反向挤压过程中,不同的挤压工艺条件对粗晶组织将产生不同的影响。
补充资料:反常混晶
分子式:
CAS号:
性质:两种化学性质和结晶结构均不相似的物质形成的混晶,如LaF3—RaF2—H2O、AmO2+—K4[UO2(CO3)3]等
CAS号:
性质:两种化学性质和结晶结构均不相似的物质形成的混晶,如LaF3—RaF2—H2O、AmO2+—K4[UO2(CO3)3]等
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条