Rheological characterization of triglyceride shortenings

Macias‐Rodriguez, Braulio A.; Marangoni, Alejandro G.

doi:10.1007/s00397-016-0951-6

Cited by 40 publications

(15 citation statements)

References 51 publications

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“…CM101 had the highest G ′ and G ″ over the frequency range, which could be related to its SFA content and SFC ( P < 0.05). This was in line with Macias‐Rodriguez and Marangoni () results of analyzing the rheological characterization of triglyceride shortenings. They showed that shortenings with higher saturated fats had a higher G ′.…”

Section: Resultssupporting

confidence: 91%

Zero‐Trans Cake Shortening: Formulation and Characterization of Physicochemical, Rheological, and Textural Properties

Saghafi

Naeli

Tabibiazar

et al. 2018

J Americ Oil Chem Soc

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Cake shortening is an important ingredient that imparts taste and texture in the cake as the final product. Hydrogenated shortenings contain high amounts of trans fatty acids, which is considered a risk factor for obesity, cancers, and cardiovascular diseases. In this research, chemically interesterified blends of canola oil (CO) and palm stearin (PS) were recruited in order to formulate zero-trans shortening, specifically for cake application. The optimization of shortening formulation was performed by Design-Expert software, considering melting, congelation, textural, and rheological properties of cake shortening as responses. The formulated shortening in the weight ratio of 66.41:33.58 (PS:CO) (%, w/w) was analyzed and compared with two commercial cake shortenings in terms of fatty acid and triacylglycerol composition, slip melting point (SMP), solid fat content (SFC), and rheological and textural properties. The results showed that the formulated zero-trans cake shortening with 0.2% trans, 47.2% saturated fatty acids, SMP of 40.9 C, SFC of 10.51% at 37 C, firmness of 1522.5 g, and linear viscoelastic range of 0.035% had the most acceptable criteria among cakeshortening samples. The findings of this study offer insights into the relationship between shortening functionality and physicochemical properties and serve as a base for future studies on zero-trans shortenings formulation.

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Section: Resultssupporting

confidence: 91%

Zero‐Trans Cake Shortening: Formulation and Characterization of Physicochemical, Rheological, and Textural Properties

Saghafi

Naeli

Tabibiazar

et al. 2018

J Americ Oil Chem Soc

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“…, in all oleogels and commercial shortening, both G ′ and G ″ slightly enhanced parallel with enhancing frequency in which G′ value predominated over the whole frequency range, demonstrating the gel‐like characteristic of these systems. A similar trend was also observed for oleogels of carnauba wax (CRW) and candelilla wax (CDW) as a shortening replacer as well as for some commercial shortening in previous studies (Macias‐Rodriguez and Marangoni, ; Mert and Demirkesen, ). The Bohlin model with R 2 of 0.96 fitted the dependency of G ′ on frequency (data not shown).…”

Section: Resultssupporting

confidence: 83%

Oleogel Fabrication Based on Sodium Caseinate, Hydroxypropyl Methylcellulose, and Beeswax: Effect of Concentration, Oleogelation Method, and Their Optimization

Alizadeh

Abdolmaleki

Nayebzadeh

et al. 2020

J Americ Oil Chem Soc

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In the present study, the oleogel preparation with hydroxypropyl methylcellulose (HPMC) (0-2 g/100 g), sodium caseinate (CN) (0-4 g/100 g), beeswax (0-5 g/100 g), and oleogelation method (foam and emulsion template) was optimized using response surface methodology (RSM) to attain the desirable oil retaining ability, rheological, and textural characteristics. For all the chosen responses, the quadratic model was the best-fitting model with a determination coefficient of R 2 > 0.91. Results exhibited that the HPMC and CN concentrations were the most influential tested factors on the oil binding capacity, textural, and rheological characteristics of the oleogels due to the formation of more complex and strong network. There was a significant improvement in oil binding capacity and structure recovery of samples by beeswax addition. To produce oleogel similar to industrial shortening, the optimization method was done based on maximum oil binding capacity and thixotropic recovery and other responses were chosen equal to those of shortening values (ɳ a = 330 Pa.s, G 0 = 276,543 Pa, A value = 164,308 Pa s rad −1 , and firmness = 44.99 g). As regards the optimized level of structuring agents and responses (ɳ a = 317 and 329 Pa.s, G 0 = 249,782 and 260,997 Pa, A value = 180,022 and 180,373 Pa s rad −1 , and firmness = 44.37 and 36.98 g corresponding to Optimization 1 and Optimization 2, respectively), fabrication of oleogels with at least 90 g/100 g trans-free and low saturated oil and attributes close to industrial shortening is possible.Keywords Oleogel Á Sodium caseinate Á Hydroxypropyl methylcellulose Á Beeswax J Am Oil Chem Soc (2020) 97: 485-496.

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“…Since we observed that multiple formulations (e.g. palm‐oil based, soybean‐oil based, trans ‐containing, trans ‐free) achieved the same rheological criteria, the structure‐function framework seemed to dictate the unique laminating performance .…”

Section: Case Study: Rationalizing the Functionality Of Laminating Shmentioning

confidence: 99%

“…The remaining question then arises: what rheological characteristics a shortening must meet to achieve the special laminating functionality? To address this, we present LAOS results, which are related to the macroscopic functionality of laminating shortenings [4,5]. Figure 1a shows strain softening as the strain amplitude is increased; however, the response is otherwise unremarkable, that is both shortenings behave as soft elastic solids (G' > G").…”

Section: A Case Study: Rationalizing the Functionality Of Laminating mentioning

confidence: 99%

“…Since we observed that multiple formulations (e.g. palm-oil based, soybean-oil based, transcontaining, trans-free) achieved the same rheological criteria, the structure-function framework seemed to dictate the unique laminating performance [4,5]. Finally, for edible fats structured with high solid fat content, it makes the most sense that viscous contributions (which account for the plasticity of the crystal network in addition to the viscosity of the liquid-oil) have the largest impact in functionality.…”

Section: A Case Study: Rationalizing the Functionality Of Laminating mentioning

confidence: 99%

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Understanding the functionality of lipid‐based materials under large‐amplitude nonlinear deformations

Macias‐Rodriguez

Marangoni

2017

Lipid Technology

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Summary Lipid‐based materials meet many functions such as oil binding, lubricity and rheology. In this article, we focus on their rheological function, specifically in nonlinear viscoelastic properties, which we characterize using a novel approach known as large amplitude oscillatory shear (LAOS). We summarize recent works on this area and show that this technique has potential for providing invaluable insights into the functionality and perception of lipid‐based materials during their application process.

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Rheological characterization of triglyceride shortenings

Cited by 40 publications

References 51 publications

Zero‐Trans Cake Shortening: Formulation and Characterization of Physicochemical, Rheological, and Textural Properties

Zero‐Trans Cake Shortening: Formulation and Characterization of Physicochemical, Rheological, and Textural Properties

Oleogel Fabrication Based on Sodium Caseinate, Hydroxypropyl Methylcellulose, and Beeswax: Effect of Concentration, Oleogelation Method, and Their Optimization

Understanding the functionality of lipid‐based materials under large‐amplitude nonlinear deformations

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