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Al2O3

B2O3

BaO

C

CaO

CO2

CoO

Cr2O3

Cu2O

CuO

Fe2O3

FeO

H2O

K2O

Li2O

LOI

MgO

MnO

MnO2

Na2O

NiO

O

Organics

P2O5

PbO

SiO2

SnO2

SO3

SO4

SrO

TiO2

V2O5

ZnO

ZrO

ZrO2

Others

Ag2O

AlF3

As2O3

As4O6

Au2O3

BaF2

BeO

Bi2O3

CaF2

CdO

CeO2

Cl

CO

CrO3

Cs2O

CuCO3

Dy2O3

Er2O3

Eu2O3

F

Fr2O

Free SiO2

Ga2O3

GdO3

GeO2

HfO2

HgO

Ho2O3

In2O3

IrO2

KF

KNaO

La2O3

Lu2O3

Mn2O3

MoO3

N2O5

NaF

Nb2O5

Nd2O3

Ni2O3

OsO2

Pa2O5

PbF2

PdO

PmO3

PO4

Pr2O3

PrO2

PtO2

RaO

Rb2O

Re2O7

RhO3

RuO2

Sb2O3

Sb2O5

Sc2O3

Se

SeO2

Sm2O3

Ta2O5

Tb2O3

Tc2O7

ThO2

Tl2O

Tm2O3

Trace

U3O8

UO2

WO3

Y2O3

Yb2O3

Al2O3 (Aluminum Oxide, Alumina)

FamilyIntermediate
Weight102.000
COLE - Co-efficient of Linear Expansion 0.063

Notes

-Alumina has a very high melting temperature and alumina ceramics can maintain up to 90% of their strength above 1100C. They are thus employed in many refractory materials (i.e. Calcium Aluminate Cements have PCEs above cone 35) and used to make parts that must withstand high temperature.

-Alumina controls the flow of the glaze melt, preventing it from running off the ware. It is thus called an intermediate oxide because it helps build strong chemical links between fluxes and silica.

-Fired alumina ceramic parts can be harder than tungsten carbide or zircon, two to four times as strong as electrical porcelain, and very resistant to abrasion. Alumina is thus used in grinding media, cutting tools, high temperature bearings, and a wide variety of mechanical parts.

-Alumina is second in importance to silica and combines with silica and basic fluxing oxides to prevent crystallization and give body and chemical stability to a glaze.

-It is the prime source of durability in glazes. It increases melting temperature, improves tensile strength, lowers expansion, and adds hardness and resistance to chemical attack. If a glaze contains too much alumina, then it may not melt enough but will likely be more hard and durable if firing temperature is increased. If a glaze has inadequate alumina, then it is likely that it will lack hardness and strength at any temperature.

-Increasing Al2O3 stiffens the melt and gives it stability over a wider range of temperatures (although excessive amounts may tend to cause crawling, pinholes, rough surfaces). The addition of alumina prevents devitrification (crystallization) of glazes during cooling because the stiffer melt resists free movement of molecules to form crystalline structures. Thus crystalline glazes tend to have less than .1 molar equivalents of Al2O3. The addition of small amounts of CaO will help reduce the viscosity of a melt and make it flow more freely.

-Calcined alumina does not work well in glazes or enamels as a source of Al2O3; however, the hydrated form can be effective to matte a glaze if it has a very fine particle size. If possible, kaolin or feldspar (and nepheline syenite) are the best sources. Kaolin especially is ideal because it is so important to other physical slurry properties (i.e. suspension, adhesion, and shrinkage control). If glaze batches are being calculated from a source formula, it is normal to supply all possible alumina from feldspar and kaolin until the alkali targets are met, then furnish any additional alumina requirements with Bayer process alumina hydrate. Sometimes Bayer alumina is added where exceptional freedom from iron is needed.

-In most cases, the addition of alumina raises the melting temperature of a glaze or glass. However, in some soda lime formulations, a small alumina addition can decrease melting temperature.

-In glass, small amounts can reduce the coefficient of expansion, increase tensile strength and surface tension, improve luster, lengthen working range, decrease devitrification, increase resistance to acid attack. When substituting for silica, alumina makes the glass more ductile and elastic.

-Alumina and boric acid are important constituents in all types of low expansion glasses for chemical ware, cooking, and thermometers.

-Alumina (preferably in the calcined form) can be used in clay bodies as an aggregate and filler in place of flint. This can increase the firing range, decrease quartz inversion firing problems, and increase hardness and whiteness in the fired body. However, alumina is much more expensive than flint.

-Alumina hydrate promotes opacity in enamels and glazes by generating gas bubbles in the glaze melt.

Mechanisms

  • Glaze Color - Pink

    Alumina is used in combination with chrome, manganese, and cobalt to achieve pink colors.

  • Glaze Color - Colbalt Blue

    Cobalt depends on the presence of alumina or it will fire pinkish. Chrome reds like alumina also.

  • Glaze Crystallization - Enabler

    Since Alumina stiffens the glaze melt, it will prevent the growth of crystals during cooling because it is more difficult for the specific oxides needed to form the crystal, to travel to the site of formation. Thus most highly crystalline glazes have very little alumina.

  • Glaze Matteness - Alumina Matte

    The ratio of silica to alumina is mainly responsible for the degree of matteness in glazes. In the absence of boron, ratios of less than 5:1 are generally quite matte; ratios of greater than 8:1 are usually glossy in the absence of high titania, zinc, magnesia, or calcia (which cause volatile melting or crystallization during freezing). Ratios of 1:18 are possible, but certainly not typical. If a glaze remains matte when fired higher, it is a true alumina matte.

Out Bound Links

  • (URLs) More technical info from Azom
    http://www.azom.com/details.asp?ArticleID=52
  • (Materials - Material source) Kaolin - Al2O3.2SiO2 or Al2Si2O5(OH)4 - Hydrated alumina silicate, Pure clay mineral

    China Clay

  • (Materials - Material source) Feldspar
  • (Materials - Closest material equivalent) Calcined Alumina - Al2O3 - Aluminum oxide

    Alumina Calcined, Calcnd Alum, Ground Alumina, Corundum

  • (Materials - Material source) Alumina Hydrate - Al2O3.3H2O

    Alum Hydrate, Alumina Trihydrate, Hydrated Alumina, Alpha Aluminum Trihydroxide, Gibbsite

  • (Materials - Material source) Ball Clay - Highly Plastic Fine Particle Clay

In Bound Links
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