1)  scaffolding
“支架”
2)  support
支架
1.
Simulation analysis and bending die design of supporting frame;
支架模拟分析及其弯曲模设计
2.
Application on Large Mining Height Support in Fully-mechanized Mining Face of Ciyaogou Coal Mine;
大采高支架在磁窑沟煤矿综采工作面的应用
3.
Optimum design of CYJ8-3-37HB beam pumping unit support;
CYJ8-3-37HB型抽油机支架优化设计
3)  Scaffold
支架
1.
Preparation and biocompatibility of porous β-Ca_3(PO_4)_2 scaffold;
β-磷酸钙多孔生物陶瓷支架的制备及生物相容性
2.
Recent advances in fiber-based tissue engineering scaffolds for tendon/ligament regeneration research;
基于纤维的组织工程肌腱/韧带支架的研究进展
3.
Advances in Chitosan-based Bionic Scaffolding Materials in Application of Engineered Cartilage;
工程化软骨支架用壳聚糖基仿生材料研究进展
4)  stent
支架
1.
Testing and analysis of anti-compression properties of nitinol superelastic stent;
镍钛合金超弹性支架抗压缩性能的实验与分析
2.
Effect of Domestic Sirolimus-eluting Stent in Diabetic AMI Patients with Primary PCI;
糖尿病患者用国产西罗莫司支架行急诊冠脉介入术的疗效
3.
Study on Implantation of CD34 Antibody Coated Stents to Prevent In-stent Stenosis of Rabbit Arteries;
CD34抗体包被支架植入预防兔动脉支架内狭窄的研究
5)  Stents
支架
1.
Covered nitinol stents in 17 patients with malignant or benign esophageal strictures and fistula;
钛镍合金食管加膜支架治疗食管狭窄及瘘17例分析
2.
Curative effect of foreign and sino sirolimus-eluting stents in emergency percutaneous coronary intervention in patients with ST-segment elevation myocardial infarction;
急性ST段抬高心肌梗死患者应用进口及国产雷帕霉素洗脱支架疗效分析
3.
Comparison of Effects of Drug-Eluting Stents(DES) Versus Bare Metal Stents(BMS) on Serum High-sensitive C-Reactive Protein Levels in Patients with Percutaneous Coronary Intervention;
药物支架与普通支架对PCI术围手术期高敏CRP的影响
6)  bracket
支架
1.
Pressing technology of bracket and die design;
支架冲压工艺与模具设计
2.
The discussion on the relation between the prepared material of the skid and bracket and intensity;
滑橇及支架所选材料与强度关系的探讨
3.
Design of the Injection Mould for the bracket of the Inner Jack of the Color TV Set;
彩电内插座支架注射成型模设计
参考词条
补充资料:Z-型支架


Z-型支架


介入放射学器材。Z-型支架属自胀式支架。包括Gianturco-Z-型支架,改良型Gianturco-Rosch 支架,螺旋型Z-支架,可回收式Z-支架。Gianturco-Z支架系不锈钢丝弯成Z形,然后围成圆柱状。支架的直径、长度可以根据需要而制造。一般钢丝的直径0.25~0.5mm,支架体的长度10~35mm,支架的直径5~30mm。制作工艺比较简单。缺点是单体支架容易移位,多体连接支架连接部的张力不够均匀。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。