bioceramics 中文意思是什麼

bioceramics 解釋
生物陶瓷學,生物陶瓷
  1. Advances in ion - substituted hydroxyapatite bioceramics

    生物陶瓷的摻雜改性研究進展
  2. The porous hydroxyapatite bioceramics prepared by the casting formation

    注漿成型法制備多孔羥基磷灰石生物陶瓷
  3. But until now there is n ' t an ideal preparation method of p - tcp bioceramics

    然而- tcp多孔生物陶瓷一直沒有十分完善的制備方法。
  4. Treatment of 42 patients with reflex sympathetic dystrophy by cold and hot compress of bioceramics

    生物陶瓷冷熱敷治療肩手綜合征42例
  5. Study on zro2 - toughened hydroxyapatite compound bioceramics to repair massive long bone defect

    增韌復合骨的研製及其在兔椎體間的成骨作用
  6. Study and analysis on controllable capabitity of preparation technology porous bioceramics with controllable macrostucture

    可控多孔生物陶瓷制備技術的可控性研究分析
  7. In the preparation technology of making porous bioceramics with controllable macrostructure, the time of heat preservation was one of the important influence factors

    摘要保溫時間是可控多孔生物陶瓷制備技術的重要影響因之一。
  8. At the same time this paper discussed the influence of different sinter technologies and different technique parameter in on the performance of p - tcp bioceramics

    同時探討了不同燒結技術以及燒結工藝參數對制備- tcp多孔生物陶瓷的影響。
  9. By force of testing the performance of prepared tricalcium phosphate ceramic, this paper briefly analysis the effect of the proportion and granule degree relation match of the aggregate and the pore - making agent on the performance of p - tcp bioceramics in the preparation of raw materials

    通過對制備出樣品的性能測試,本文簡要討論了骨料與成孔劑的顆粒度級配及兩者的比例關系對生物陶瓷的性能的影響。
  10. Therefore, the purpose of this thesis is to look for a suitable preparing process for 3 - tcp with their micro - construction controlled more easily and the porosity rate and strength uniform. this paper created a new preparing method of porous ceramics, i. e. foam gel - casting technique, which integrated foam technique in porous ceramics preparing and gel - casting technique in structural ceramics preparing was applied to improve the preparing technique of porous p - tcp bioceramics in order to prepare ceramics bodies with high body intensity, controllable porosity and easily machining performance

    因此,本論文努力尋求一種適合於- tcp多孔陶瓷的制備工藝,使其微觀結構易於調節控制,空隙率和強度達到平衡同一。在實驗中,結合了制備多孔陶瓷常用的發泡法和結構陶瓷制備中的注凝法,創新設計了一種新的多孔陶瓷成型方法? ?泡沫注凝法,對多孔- tcp生物陶瓷的成型工藝加以改進,制備出高強度、氣孔率可控以及易加工的陶瓷坯體。
  11. The method was making bone lacuna artificially in rabbits " condyles, and implanting home - made porous p - tcp. then a serial of rabbits were killed every month and condyles, including material, were taken out. by force of the histological analysis measures such as he, tbs and tdl, an in - depth study went along with p - tcp, the new - born and the interface between the materials and the new - born in the implanted region, we may attempt to ascertain the osteogenetic process of new bone when porous p - tcp bioceramics repairing bone defects

    實驗方法是,人為造成兔股骨髁部骨缺損,將自製的多孔- tcp生物陶瓷植入,然後逐月取實驗兔處死、取材,利用he染色、甲苯胺藍染色、四環素雙標記法等組織學分析手段,對材料植入區的- tcp 、新骨及材料與新骨的界面進行研究,探討多孔- tcp生物陶瓷修復骨缺損時,新生骨的形成過程。
  12. After implanted in host bone, bioceramics not only can play the role of bracket for bone growing but also can degrade and afford osteoblasts enough calcium and phosphate ions. so it will induce the new bone growing, participate in the vital process of host bone, and finally integrated with the host bone and become a portion of the organic new bone

    新生骨組織出現在材料內部,說明生物陶瓷植入宿主骨后,不僅本身能作為骨生長的支架引導新骨生長,而且能逐漸被降解、吸收,參與宿主骨的生長,並最終與宿主骨融為一體,成為有生命的新生骨組織。
  13. Meanwhile, the research to degradation and ossification process of - tcp ceramics under the living creature environment is still be placed in the quest stage. this paper will concentrate on such problem, and probe the osteogenetic process in the region which porous p - tcp bioceramics were implanted in vivo

    ? tcp多孔陶瓷在體內復雜的生物環境下的成骨過程的組織學研究仍處于探索階段,本課題也將對此問題進行探討,對多孔- tcp生物陶瓷植入體內后,植入區新骨生成的過程進行研究。
  14. 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,可降解生物陶瓷是一種性能優良的骨替代和修復材料,尤其是多孔磷酸三鈣( tcp )陶瓷,其生物降解性能已經被臨床所證明,但可降解生物陶瓷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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