Nattiga Silalai scite author profile

Plasticization and glass transition of amorphous components in food powders often result in stickiness and caking. The glass transition temperature (T(g)) of milk powders was measured by differential scanning calorimetry (DSC) and a viscometer method was used to determine sticky-point temperatures. Water sorption isotherms were established for varying solids compositions. Lactose contents were analyzed by high-performance anion exchange chromatography with pulsed amperometric detection (HPAE-PAD) and proteins were identified using SDS-PAGE gel electrophoresis. Solids composition and water affected both the T(g) and stickiness behavior. Stickiness was governed by carbohydrates and water plasticization. At low protein contents, precrystallization of lactose decreased the sticky point temperature, but increasing protein content in all milk powders decreased stickiness at all water activities. The results showed that glass transition can be used to describe time-dependent stickiness and crystallization phenomena, and it can be used as a parameter to control and reduce stickiness of dairy solids with various compositions.

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Antioxidative effects of rice bran extracts on refined tuna oil during storage

Chotimarkorn

Benjakul

Silalai

2008

Food Research International

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Dielectric and Mechanical Properties Around Glass Transition of Milk Powders

Silalai¹,

Roos²

2010

Drying Technology

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Mechanical relaxation times as indicators of stickiness in skim milk–maltodextrin solids systems

Silalai

Roos

2011

Journal of Food Engineering

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Nattiga Silalai

Antioxidant components and properties of five long-grained rice bran extracts from commercial available cultivars in Thailand

Roles of Water and Solids Composition in the Control of Glass Transition and Stickiness of Milk Powders

Antioxidative effects of rice bran extracts on refined tuna oil during storage

Dielectric and Mechanical Properties Around Glass Transition of Milk Powders

Mechanical relaxation times as indicators of stickiness in skim milk–maltodextrin solids systems

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