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1)  structure heredity
组织遗传性
1.
Applications of structure heredity of AZ91D alloy on grain refinement and improving mechanical properties were investigated by adding die-casting parts (DCP) of AZ91D into the melt of AZ91D ingot.
通过向AZ91D铸锭熔化后的熔体中添加一定量的细晶AZ91D压铸件,对利用AZ91D镁合金组织遗传性细化铸件晶粒、提高合金力学性能进行了初步研究。
2)  structure inheritance
组织遗传
1.
The effect of the temperature on the size of austenite grain and the rule of structure inheritance of 10Ni5CrMoV steel was investigated.
结果表明 :奥氏体化晶粒急剧粗化的临界温度为 12 0 0℃ ;奥氏体自发再结晶的最低温度为 85 0℃ ;90 0℃以下奥氏体自发再结晶以形成针状奥氏体和球状奥氏体两种方式进行 ;二次加热时 ,加热温度低于 90 0℃时都有组织遗传发生。
2.
The tendency of structure inheritance of 945 steel was investigated with heat-treatment process in this paper.
通过热处理实验 ,探讨了 94 5钢组织遗传倾向 ,试验结果表明 ,94 5钢晶粒长大倾向较小 ,为本质细晶粒钢。
3.
For 26Cr2Ni4MoV the mechanism of removing structure inheritance by austenite recrystallization and the effect of heating have been studied.
以大型发电机及汽轮机转子用钢(26Cr2Ni4MoV钢)为对象,研究了奥氏体再结晶及其消除组织遗传的原因,以及不同加热制度对奥氏体再结晶消除组织遗传的影响规律。
3)  Structure heredity
组织遗传
1.
Eliminating structure heredity of 85Cr2Mn2Mo steel by normalizing at high temperature;
高温正火消除85Cr2Mn2Mo钢组织遗传的研究
2.
Effects of Structure Heredity on Grain Refinement in ZAlSi7Mg1 alloy
利用组织遗传性细化ZAlSi7Mg1合金晶粒
3.
The results show that microstructure of laser cladding layer is more fine than that of plasma transferred arc layer,and metallurgical bonding is obtained and structure heredity is observed between the two layers.
结果表明,在等离子喷焊层基体上生长起来的激光熔覆层的组织更加细小,两层之间呈冶金结合,具有明显的组织遗传性
4)  structural inheritance
组织遗传
1.
Elimination process of structural inheritance in Nb-microalloyed steel with CFB/M multiphase structure
Nb微合金化CFB/M复相钢组织遗传的消除工艺
2.
The studies show that mixed grain is caused by structural inheritance.
研究表明 ,混晶是组织遗传造成的 ,调质处理前进行退火处理 ,可获得较为平衡的组织状态 ,从而抑制组织遗传 ,消除混晶和粗晶组织。
3.
This was due to the structural inheritance occurred in laser speediness heating processing.
4Cr13钢淬火态试样激光淬火后晶粒尺寸保持常规淬火水平 ,是快速加热组织遗传造成的结果。
5)  structural heredity
组织遗传
1.
In this paper,the rule of structural heredity in Nb-microalloyed CFB/M steel was investigated by experiments.
为细化Nb微合金化CFB/M复相钢的原奥氏体晶粒,对其组织遗传规律进行了实验研究,发现对Nb微合金化CFB/M复相钢进行等温退火与完全退火处理均能有效切断组织遗传,另外,研究发现Nb微合金化CFB/M复相钢在相当宽的加热速率范围内存在组织遗传现象,当加热速度提高到40℃/s以上时不再出现,晶粒开始细化。
2.
The result shows diffusion transformation can occur and can erase the orientation relationship of martensitic structure after isothermal treatment and annealing so as to effectively cut off the structural heredity for Nb-microalloyed CFB/M complex phase steel.
对Nb微合金化CFB/M复相钢的组织遗传规律进行了试验研究。
6)  histogenetics
组织遗传学
补充资料:家族性遗传性男性性早熟


家族性遗传性男性性早熟


  病名。特发性男性性早熟之一。因下丘脑-垂体-性腺系统过早活动而致。原因不明。好发于1~2岁。遗传基因可通过女性,亦可通过男性传递。表现除身材较矮外,其他方面正常。但副性征出现早,13个月始即现阴茎发育,嗓音变低,出现阴毛、肌肉发达,身高增长加速,骨龄似幼儿。因睾丸酮作用使骨骺过早融合,生长很快停滞。尿17-KS排出量增多,甚至可达青年人水平。无特殊治疗。
  
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