欢迎登录材料期刊网

材料期刊网

高级检索

The setting chemistry of glass ionomer cement was investigated by using mechanical determination of compressive strength at predetermined intervals, and measurement of structure changes of corresponding fracture sample by means of IR spectra and differential scanning calorimetry ( DSC). Zinc polycarboxylate cement was used as a comparison sample. The compressive strength of glass ionomer cement (GIC) increases with aging. IR spectra and DSC of corresponding fracture sample show the structure changes of the matrix and interface layer comprising of silica gel during the predetermined intervals studied, however, no significant changes occur in the zinc polycarxyolate cement. Hence the structure changes of the matrix and/or interface layer are responsible for compressive strength increasing with aging. The structure changes include the crosslink density, the ratio of complex form to ionic form, the content ratio of Al-PAA to Ca-PAA, the forming and mauring process of the interface layer comprising of silica gel.

参考文献

[1] Hatton PV;Brook IM .Characterisation of the Ultrastructure of Glass-ionomer Cement[J].British Dental Journal,1992,173:275-277.
[2] Wasson EA;Nicholson JW .New Aspects of the Setting of Glass- ionomer Cements[J].Journal of Dental Research,1993,72:481-483.
[3] Matsuys S .IR and NMR Analyses of the Hardening and Maturation of Glass-ionomer Cement[J].Journal of Dental Research,1996,75:1920-7.
[4] Nicholson JW .Chemistry of glass-ionomer cements: a review.[J].Biomaterials,1998(6):485-494.
[5] Nicholson JW .A Study of Cements Formed by Aqueous Lactic Acid and Aluminosilicate Glass[J].Journal of Materials Science:Materials in Medicine,2002,13:417-419.
[6] Maeyer De EAP;Verbeeck RMH .Stoichometry of the eaching Process of Fluoride-containing Aluminosilicate Glass-ionomer Glasses[J].Journal of Dental Research,1999,78:1312-1318.
[7] Williams JA;Billington RW .Increase in Compressive Strength of Glass Ionomer Restorative Materials with Respect to Time Periods of 1 Day to 4 Months[J].Journal of Oral Rehabilitation,1991,18:163-168.
[8] Pearson GJ;Atkinson AS .Long-term Flexural Strength of Glass Ionomer Cements[J].Biomaterials,1991,12:658-660.
[9] Maria-Angeles Cattani-Lorente;Chantal Godin;Jean-Marc Meyer .Mechanical Behavior of Glass Ionomer Cements Affected by Long-term Storage in Water[J].Dental Materials,1994,10:37-44.
[10] Wilson AD .The Chemistry of Dental Cements[J].Chemical Society Reviews,1978,7:265-296.
[11] ISO 9917 ( 1991 ).International Standard.Dental Waterbased Cements[S].
[12] Soda R .Infrared Absorption Spectra of Quatz and Some Other Silica Modification[J].Bulletin of The Chemical Society of Japan,1961,34:1491-1495.
[13] Mozgawa W.;Sitarz M. .Spectroscopic studies of different aluminosilicate structures[J].Journal of Molecular Structure,1999(1/3):251-257.
[14] Maeyer De EAP;Verbeeck RMH .Iffrared Spectrometric Study of Acid-degradable Glasses[J].Journal of Dental Research,2002,81:552-555.
[15] Crisp S;Pringuer MA .Reaction in Glass Ionomer Cements:Ⅱ: An Infrared Spectroscopic Study[J].Journal of Dental Research,1974,53:1414-1419.
[16] Crisp S Prosser .An Infrared Spectroscopic Study of Cement Formation between Metal Oxides and Aqueous Solutions of Polyacrylie Acid[J].Journal of Materials Science,1976,11:36-48.
上一张 下一张
上一张 下一张
计量
  • 下载量()
  • 访问量()
文章评分
  • 您的评分:
  • 1
    0%
  • 2
    0%
  • 3
    0%
  • 4
    0%
  • 5
    0%