磷酸鈣陶瓷 的英文怎麼說

中文拼音 [līnsuāngàitáo]
磷酸鈣陶瓷 英文
calcium phosphate ceramics
  • : 名詞[化學] phosphorus (15號元素,符號p)
  • : 酸構詞成分。
  • : 名詞[化學] calcium (20號元素, 符號 ca)
  • : 陶名詞1. (窯) kiln2. (人名用字) a word used in person's name
  • : 名詞(用高嶺土、長石、石英等燒製成的材料) porcelain; china
  • 磷酸 : [無機化學] orthophosphoric acid; phosphoric acid磷酸胺 [化學] phosphamide; ammonium phosphate; 磷...
  • 陶瓷 : pottery and porcelain; ceramics陶瓷地磚 floor tile; 陶瓷電子管 ceramic tube; 陶瓷電阻器 ceramic r...
  1. Preparation and characterization of - tricalcium phosphate porous bioceramic

    多孔生物的制備與表徵
  2. Comparative study of the biocompatibility of coral and porous - tcp bioceramic

    多孔生物和珊瑚的生物相容性比較研究
  3. The effect of porous active bioceramic on bone defect : report of 40 cases

    骨髓間質幹細胞復合多孔磷酸鈣陶瓷修復兔顱骨缺損的研究
  4. Comparative study of the repair of radius bone defect with porous - tcp bioceramic and coral

    多孔生物和珊瑚材料修復兔橈骨缺損的比較
  5. A quantitative study of the absorbable porous block - tricalcium phosphate implanted in the defects of rabbit calvarium

    多孔與骨髓間充質幹細胞生物相容性的體外實驗研究
  6. Review on preparation of hydroxyapatite coatings

    生物塗層制備及其研究進展
  7. But calcium phosphate ceramic with high porosity is such brittle and low toughness that it ca n ' t fit to bone tissue engineering. in order to provide appropriate scaffolds for bone tissue engineering, calcium phosphate was combined with plla to prepare porous material

    多孔材料脆性大,在生理環境中的疲勞與破壞強度不高,尤其在濕環境下斷裂韌性很低,不能制得滿足組織工程要求的高孔隙率,力學性能較高的支架材料。
  8. A study of the early osteoinduction induced in multiphase calcium phosphate ceramics with transmission multiphase calcium phosphate ceramics with transmission

    多孔復相磷酸鈣陶瓷骨誘導早期生物組織學的電鏡研究
  9. Experimental study on marrow stromal cell - coral composite in repairing rabbit bone defect

    兔顱骨缺損修復的組織學觀察
  10. Bone tissue engineering scaffolds - preparation and properties of porosity - tricalcium phosphate

    的制備與性能
  11. Experimental studies on bone defect repair with porous carbonate calclum ceramics

    可吸收性的定量研究
  12. In the field of biomedical engineering, after implanting, how degradable bioceramics degrade ; how fresh bone is made and how fresh bone participates in organism metastasis, etc. are in question. simulating the process of bioceramic degradation in vivo by means of computer techniques can not only shorten the cycle from material " s research to its clinic popularization but also reduce the cost of new material " s development, which will bring advantage for clinic repair and substitution of bone

    在生物醫學工程領域,可降解生物是一種性能優良的骨替代和修復材料,尤其是多孔( tcp ),其生物降解性能已經被臨床所證明,但可降解生物材料在體內究竟如何逐步降解,以及新組織是如何生成並參與生物體內的新陳代謝等問題仍處在探索研究階段。
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