Fluorescent magnetic particle detection is a NDT method that often is used for testing trivial flaws on the surface of some steel workpiece and for controlling qualities of product.
荧光磁粉探伤是一种常用的无损检测方法,是控制产品质量的重要手段,用于检测钢制零件的表面及近表面的裂纹缺陷。
Similarly, fluorescent thrombin bound ubiquitously on the surface of fibrin clots, overlapping slightly with PS-exposing platelets.
同样,荧光凝血酶约束无所不在表面的纤维蛋白凝块,重叠略有聚苯乙烯揭露血小板。
Fluorescent magnetic particle detection is a NDT method that often used for testing trivial flaws on the surface of ferromagnetic materials in order to control the qualities of product.
荧光磁粉探伤是一种常用的无损检测方法,用于检测钢制零件的表面及近表面的裂纹缺陷,长期以来一直被认为是表面裂纹检测最灵敏的方法之一。
Fluorescent magnetic particle testing is a NDT method that often used for testing trivial flaws on the surface of ferromagnetic materials in order to control the qualities of product.
荧光磁粉检测是一种常用的无损检测方法,用于检测钢制零件的表面及近表面的裂纹缺陷,长期以来一直被认为是表面裂纹检测最灵敏的方法之一。
In this thesis, we try to use detonation diamonds to prepare fluorescent carbon nanoparticles by deagglomeration and surface modification.
本文尝试使用爆轰法纳米金刚石为原料,通过对其进行解团聚、有机物分子表面修饰以制备分散性良好的荧光碳纳米颗粒。
When the researchers introduced its associated membrane-impermeant fluorogen, it bound to the FAP-tagged GPCR on the cell surface, emitting a bright fluorescent glow.
当研究人员引入与其相应的膜不通透性荧光团并与细胞膜上有荧光团激活蛋白质标签的G-蛋白偶联受体结合时,发出明亮的荧光;
Intracellular surface enhanced Raman scattering (SERS) spectra and fluorescent spectra of 9aa indicate the form of 9aa adsorbed on the surface of silver nanoparticles.
活细胞内9氨基吖啶的表面增强拉曼散射光谱(SERS)以及荧光成像说明了9氨基吖啶吸附在银纳米粒子表面的方式。
The optical system uses the fluorescent lamp with the collimation mirror, incident the grating surface by the parallel light, in order to produce the moiréfringe through the grating.
光学系统采用白光灯加准直镜,以平行光照射光栅面,通过光栅副产生莫尔条纹。
This article briefly discusses the recent progresses on fluorescent QDs probes and their biological labeling including their surface modification and functionalization.
该文就量子点探针的表面修饰和功能化及其标记技术的研究进展进行了阐述。
This article briefly discusses the recent progresses on fluorescent QDs probes and their biological labeling including their surface modification and functionalization.
该文就量子点探针的表面修饰和功能化及其标记技术的研究进展进行了阐述。
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