Sarah E. Guthrie scite author profile

Crystalline orientation and phase transition acceleration induced by shear are demonstrated to occur in different edible fats using synchrotron X-ray diffraction. Cocoa butter, milk fat, stripped milk fat, and palm oil were crystallized statically and under shear (90 s -1 and 1400 s -1 ) from the melt (50 °C) to 18 °C at a constant rate of 3 °C min -1 . The 2D diffraction patterns clearly showed crystallite orientation imposed by the flow in the different phases. A dramatic reduction in phase transition times was also evident. These effects of shear on crystallizing fats are of great importance for the industrial processes carried out in chocolate, dairy, margarine, and shortening production, since temperature and shear treatments are the tools for tailoring the desired crystalline structures.

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Effect of Minor Components and Temperature Profiles on Polymorphism in Milk Fat

Mazzanti

Guthrie

Sirota

et al. 2004

Crystal Growth & Design

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Time-resolved synchrotron X-ray diffraction techniques were used to study the effect of cooling rates and temperature on the crystallization dynamics and polymorphism of anhydrous milk fat (AMF) and milk fat triacylglycerols (MFTs). The crystallization of AMF at fast cooling rates and low final temperatures proceeded through the metastable phase R and resulted in the formation of a mixture of phases ′ and . Slow cooling rates and high final temperatures resulted in the formation of phase ′ only, with no formation of phase R nor phase . Moreover, in the absence of polar lipids, MFTs had a decreased tendency to form the R and phases. The formation of the phase was largely dependent on the initial amount of R phase formed. At high cooling rates and low crystallization temperatures, polar lipids may have initiated the crystallization process together with a high melting fraction of milk fat in the R phase. In time, this metastable phase transformed to the phase. When no R phase was initially formed (high temperatures and/or slow cooling rates), no phase was formed either. Small-angle X-ray diffraction could be used to monitor compositional variation of crystals over time, and demonstrated that minor polar lipids present in the milk fat delayed the onset of crystallization and reduced the rate of crystal growth.

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Sarah E. Guthrie

Orientation and Phase Transitions of Fat Crystals under Shear

Effect of Minor Components and Temperature Profiles on Polymorphism in Milk Fat

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