| 1. | Advances in ion - substituted hydroxyapatite bioceramics
生物陶瓷的掺杂改性研究进展 |
| 2. | The porous hydroxyapatite bioceramics prepared by the casting formation
注浆成型法制备多孔羟基磷灰石生物陶瓷 |
| 3. | But until now there is n ' t an ideal preparation method of p - tcp bioceramics
然而- tcp多孔生物陶瓷一直没有十分完善的制备方法。 |
| 4. | Treatment of 42 patients with reflex sympathetic dystrophy by cold and hot compress of bioceramics
生物陶瓷冷热敷治疗肩手综合征42例 |
| 5. | Study on zro2 - toughened hydroxyapatite compound bioceramics to repair massive long bone defect
增韧复合骨的研制及其在兔椎体间的成骨作用 |
| 6. | Study and analysis on controllable capabitity of preparation technology porous bioceramics with controllable macrostucture
可控多孔生物陶瓷制备技术的可控性研究分析 |
| 7. | In the preparation technology of making porous bioceramics with controllable macrostructure , the time of heat preservation was one of the important influence factors
摘要保温时间是可控多孔生物陶瓷制备技术的重要影响因之一。 |
| 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
同时探讨了不同烧结技术以及烧结工艺参数对制备- tcp多孔生物陶瓷的影响。 |
| 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
通过对制备出样品的性能测试,本文简要讨论了骨料与成孔剂的颗粒度级配及两者的比例关系对生物陶瓷的性能的影响。 |
| 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,本论文努力寻求一种适合于- tcp多孔陶瓷的制备工艺,使其微观结构易于调节控制,空隙率和强度达到平衡同一。在实验中,结合了制备多孔陶瓷常用的发泡法和结构陶瓷制备中的注凝法,创新设计了一种新的多孔陶瓷成型方法? ?泡沫注凝法,对多孔- tcp生物陶瓷的成型工艺加以改进,制备出高强度、气孔率可控以及易加工的陶瓷坯体。 |
