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Glass ceramics

Glass-ceramics are polycrystalline materials produced by controlled crystallization of specific glass compositions during heat treatment. They typically contain 50-95% crystalline phases with the remainder being residual glass. The crystallization process involves nucleation of small crystalline volumes followed by crystal growth. Several processing routes can be used, including conventional two-stage and single-stage heat treatments, petrurgic cooling, powder methods, and using sol-gel precursor glass. Glass-ceramics find applications in biomedical fields.

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Overview of glass ceramics, their production, suitability of glass compositions, and microstructure.

Details on the crystallization process, including nucleation and growth stages of glass-ceramics.

Various methods for glass-ceramic production such as Conventional, Modified Conventional, Petrurgic, Powder Methods, and Sol-Gel.

Exploration of biomedical applications relevant to glass ceramics.

Bibliography and source reference for glass-ceramics study.

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Glass ceramics
What are they? OGlass-ceramics are polycrystalline materials of fine microstructure that are produced by the Ocontrolled crystallization (devitrification) of a glass.
OIt is important to emphasize a number of points in this statement on glass-ceramics.
OOnly specific glass compositions are suitable precursors for glass- ceramics OSome glasses are too stable and difficult to crystallize O Ordinary window glass OOthers crystallize too readily in an uncontrollable manner resulting in undesirable microstructures
OThe heat treatment is critical to the attainment of an acceptable and reproducible product.
OUsually a glass-ceramic is not fully crystalline; typically the microstructure is 50vol% to 95vol% crystalline with the remainder being residual glass
OOne or more crystalline phases may form during heat treatment and as their composition is normally different from the precursor (parent) glass
Crystallization Process OThe crystallization, or devitrification, of glass to form a glass-ceramic is a heterogeneous transformation and as such consists of two stages 1. nucleation stage 2. growth stage.
Nucleation stage OIn the nucleation stage small, stable volumes of the product (crystalline) phase are formed, usually at preferred sites in the parent glass.
Growth stage. OOnce a stable nucleus has been formed the crystal growth stage commences. Growth involves the movement of atoms/molecules from the glass, across the glass- crystal interface, and into the crystal.
Processing Routes for Glass- Ceramic Production O Conventional Method (Two-Stage) O Modified Conventional Method (Single- Stage) O Petrurgic Method O Powder Methods O Sol-Gel Precursor Glass
Conventional Method (Two- Stage) OThe first stage is a low temperature heat treatment at a temperature that gives a high nucleation rate thus forming a high density of nuclei throughout the interior of the glass OThe second stage is a higher temperature heat treatment at around temperature TG to produce growth of the nuclei at a reasonable rate.
Modified Conventional Method (Single-Stage) OThe reason for the two-stage heat treatment of the glass is a consequence of the limited overlap between the nucleation and growth rate curves. O If there is extensive overlap of the rate curves then nucleation and growth can take place during a single-stage heat treatment at temperature TNG
Petrurgic Method OControlled, usually very slow, cooling of the parent glass from the molten state without a hold at an intermediate temperature. OWith this method, referred to in the recent literature as the petrurgic method, both nucleation and crystal growth can take place during the cooling.
Powder Methods OThe shaping by cold-compacting a powder followed by a high temperature heat treatment to sinter the compact is a common route for the fabrication of ceramics and it has been also employed for glass-ceramic production
Sol-Gel Precursor Glass OAll the methods for glass- ceramic production discussed previously may be used with glass produced by this route
Biomedical applications
Referencias O Bibliografía O R. D. Rawlings, J. P. (s.f.). GLASS- CERAMICS: THEIR PRODUCTION FROM WASTES. A REVIEW. O

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Glass ceramics

  • 1.
  • 2.
    What are they? OGlass-ceramicsare polycrystalline materials of fine microstructure that are produced by the Ocontrolled crystallization (devitrification) of a glass.
  • 3.
    OIt is importantto emphasize a number of points in this statement on glass-ceramics.
  • 4.
    OOnly specific glasscompositions are suitable precursors for glass- ceramics OSome glasses are too stable and difficult to crystallize O Ordinary window glass OOthers crystallize too readily in an uncontrollable manner resulting in undesirable microstructures
  • 5.
    OThe heat treatmentis critical to the attainment of an acceptable and reproducible product.
  • 6.
    OUsually a glass-ceramicis not fully crystalline; typically the microstructure is 50vol% to 95vol% crystalline with the remainder being residual glass
  • 7.
    OOne or morecrystalline phases may form during heat treatment and as their composition is normally different from the precursor (parent) glass
  • 8.
    Crystallization Process OThe crystallization,or devitrification, of glass to form a glass-ceramic is a heterogeneous transformation and as such consists of two stages 1. nucleation stage 2. growth stage.
  • 9.
    Nucleation stage OIn thenucleation stage small, stable volumes of the product (crystalline) phase are formed, usually at preferred sites in the parent glass.
  • 10.
    Growth stage. OOnce astable nucleus has been formed the crystal growth stage commences. Growth involves the movement of atoms/molecules from the glass, across the glass- crystal interface, and into the crystal.
  • 11.
    Processing Routes forGlass- Ceramic Production O Conventional Method (Two-Stage) O Modified Conventional Method (Single- Stage) O Petrurgic Method O Powder Methods O Sol-Gel Precursor Glass
  • 12.
    Conventional Method (Two- Stage) OThefirst stage is a low temperature heat treatment at a temperature that gives a high nucleation rate thus forming a high density of nuclei throughout the interior of the glass OThe second stage is a higher temperature heat treatment at around temperature TG to produce growth of the nuclei at a reasonable rate.
  • 13.
    Modified Conventional Method (Single-Stage) OThereason for the two-stage heat treatment of the glass is a consequence of the limited overlap between the nucleation and growth rate curves. O If there is extensive overlap of the rate curves then nucleation and growth can take place during a single-stage heat treatment at temperature TNG
  • 14.
    Petrurgic Method OControlled, usuallyvery slow, cooling of the parent glass from the molten state without a hold at an intermediate temperature. OWith this method, referred to in the recent literature as the petrurgic method, both nucleation and crystal growth can take place during the cooling.
  • 15.
    Powder Methods OThe shapingby cold-compacting a powder followed by a high temperature heat treatment to sinter the compact is a common route for the fabrication of ceramics and it has been also employed for glass-ceramic production
  • 16.
    Sol-Gel Precursor Glass OAllthe methods for glass- ceramic production discussed previously may be used with glass produced by this route
  • 17.
  • 18.
    Referencias O Bibliografía O R.D. Rawlings, J. P. (s.f.). GLASS- CERAMICS: THEIR PRODUCTION FROM WASTES. A REVIEW. O