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[氧化锆增韧玻璃渗透纳米陶瓷复合粉末的粒度级配与力学性能关系的研究]

[Study of relationship between powder-size gradation and mechanical properties of Zirconia toughened glass infiltrated nanometer-ceramic composite powder].

作者信息

Chai Feng, Xu Ling, Liao Yun-mao, Chao Yong-lie

机构信息

Department of Prosthodontics, College of Stomatology, The Fourth Military Medical University, Xi'an 710032, China.

出版信息

Zhonghua Kou Qiang Yi Xue Za Zhi. 2003 Jul;38(4):300-3.

PMID:12930665
Abstract

OBJECTIVE

The fabrication of all-ceramic dental restorations is challenged by ceramics' relatively low flexural strength and intrinsic poor resistance to fracture. This paper aimed at investigating the relationships between powder-size gradation and mechanical properties of Zirconia toughened glass infiltrated nanometer-ceramic composite (Al(2)O(3)-nZrO(2)).

METHODS

Al(2)O(3)-nZrO(2) ceramics powder (W) was processed by combination methods of chemical co-precipitation and ball milling with addition of different powder-sized ZrO(2). Field-emission scanning electron microscopy was used to determine the particle size distribution and characterize the particle morphology of powders. The matrix compacts were made by slip-casting technique and sintered to 1,450 degrees C and flexural strength and the fracture toughness of them were measured.

RESULTS

  1. The particle distribution of Al(2)O(3)-nZrO(2) ceramics powder ranges from 0.02 - 3.5 micro m and among them the superfine particles almost accounted for 20%. 2. The ceramic matrix samples with addition of nZrO(2) (W) showed much higher flexural strength (115.434 +/- 5.319) MPa and fracture toughness (2.04 +/- 0.10) MPa m(1/2) than those of pure Al(2)O(3) ceramics (62.763 +/- 7.220 MPa; 1.16 +/- 0.02 MPa m(1/2)).

CONCLUSIONS

The particle size of additive ZrO(2) may impose influences on mechanical properties of Al(2)O(3)-nZrO(2) ceramics matrix. Good homogeneity and reasonable powder-size gradation of ceramic powder can improve the mechanical properties of material.

摘要

目的

全瓷牙修复体的制作面临着陶瓷相对较低的抗弯强度和固有的抗断裂性差的挑战。本文旨在研究氧化锆增韧玻璃渗透纳米陶瓷复合材料(Al(2)O(3)-nZrO(2))的粉末粒度分级与力学性能之间的关系。

方法

采用化学共沉淀和球磨相结合的方法,并添加不同粒度的ZrO(2)来处理Al(2)O(3)-nZrO(2)陶瓷粉末(W)。用场发射扫描电子显微镜测定粉末的粒度分布并表征其颗粒形态。通过注浆成型技术制备基体坯体,并在1450℃下烧结,然后测量其抗弯强度和断裂韧性。

结果

  1. Al(2)O(3)-nZrO(2)陶瓷粉末的颗粒分布范围为0.02 - 3.5μm,其中超细颗粒几乎占20%。2. 添加nZrO(2)(W)的陶瓷基体样品的抗弯强度(115.434±5.319)MPa和断裂韧性(2.04±0.10)MPa m(1/2)比纯Al(2)O(3)陶瓷(62.763±7.220 MPa;1.16±0.02 MPa m(1/2))高得多。

结论

添加剂ZrO(2)的粒度可能会对Al(2)O(3)-nZrO(2)陶瓷基体的力学性能产生影响。陶瓷粉末良好的均匀性和合理的粒度分级可以提高材料的力学性能。

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