Classification Of Investment Materials

Classification Of Investment Materials

Explain the setting expansions of investment materials. Describe them in details.
Answer:

Setting Expansion of Investment Materials:

Normal Setting Expansion:

• A mixture of silica and dental stone results in setting expansion which is more than when the gypsum product is used alone.
• The silica particles probably interfere with the intermeshing of the crystals as they form. Thus, the thrust of the crystals is outward during growth.
• ADA specification No. 2 for type I investments permits maximum setting expansion in air of 0.5%

Hygroscopic Setting Expansion:

• When gypsum products are allowed to set in contact with water, the amount of expansion exhibit is much greater than the normal setting expansion.
• The increased amount of expansion is because the water helps the outward growth of crystals.
• This expansion is known as hygroscopic setting expansion.
• Investment should be immersed in water before initial set is complete.
• ADA specifications no. 2 for type II investments require minimum of 1.2% and maximum of 2.2% expansion.

Thermal Expansion:

• In case of gypsum investment thermal expansion is achieved by placing the mould in furnace at a temperature below than 700°C, if temperature is more than 700°C, the investment is breakdown and gases are released which contaminate gold alloy.
• The thermal expansion of gypsum-bonded investment is directly related to the amount and type of silica.
• A considerable amount of quart or allotropic form of silica is necessary to counterbalance the contraction in the gypsum during heating.

When investment is heated:

• Gypsum contracts between 200 to 400°C and a slight expansion takes place between 400°C to 700°C and a large contraction occur after this.
• If considerable amount of allotropes of silica present in the investment this contraction can be eliminated and change in expansion.
• Because when heated, quart or crystabolite changes its crystalline form this occurs at a transition temperature.
• Quart when heated, inverts from “low” form known, as alpha quart to a “high” form known as beta quartz at a temperature of 370°C.
• Crystabolite similarly when heated inverts from ‘low’ or alpha crystabolite to high or beta crystabolite form at temperature between 200°C and 270°C.
• The density changes (decreases) as alpha form changes to beta form with a resulting increase in volume and a rapid increase in linear expansion.