Rheological Properties of Mayonnaise with Non-Traditional Ingredients

Бредихин, С. А.; Мартеха, А. Н.; Андреев, В. Н.; Kaverina, Yuliya; Korotkiy, Igor

doi:10.21603/2074-9414-2022-4-2402

Cited by 4 publications

(1 citation statement)

References 32 publications

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“…To some extent, cereal dough combines the shear flow properties required during the extrusion phase of the printing process (Jiang et al, 2019). These properties are associated with the content of wheat flour components in the dough, combined with proteins structuring effect at room temperature, obtained by kneading, and, to a lesser extent, the numerous starch granules dispersed in the dough (Bredikhin et al, 2022;Cappelli et al, 2020). The structure of gluten proteins depends mainly on the moisture content and the mixing process.…”

Section: Introductionmentioning

confidence: 99%

Kinetic evaluation and optimization of the drying process of 3D printed pasta: key factors influence on the finished product quality

Мартеха

Kaverina

2023

Food Sci. Technol

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The object of study was pasta obtained as a result of 3D printing. This research was aimed to the application of the drying process as a tool to improve pasta 3D printing quality. The purpose of this study was to assess the influence of the drying process operating parameters and to find their optimal values to ensure the quality of pasta obtained by 3D printing. Hot air and infrared drying was used to heat the extruded product locally. The response surface methodology was applied for the drying process optimization. Heating power, processing time and distance from the heating source were chosen as the main variables influencing the drying process. The maximum product weight loss combined with the maximum temperature below 100 °C during the entire processing time constituted an optimization challenge. The use of infrared drying was advantageous when processing a layer of pasta dough several millimeters thick and resulted in a drier and harder surface. With a processing time of 1.5 min, the heating power was 2 units, and the distance from the support to the heating source was 1.77 cm. The noted values of the independent variables for the response function can be considered optimal.

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Section: Introductionmentioning

confidence: 99%

Kinetic evaluation and optimization of the drying process of 3D printed pasta: key factors influence on the finished product quality

Мартеха

Kaverina

2023

Food Sci. Technol

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Sonochemical Effects on Wheat Starch

Bredikhin,

Martekha,

Toroptsev

et al. 2023

Food Processing: Techniques and Technology

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The food industry uses sonochemical treatment as part of emulsification, homogenization, and dispersion, as well as to modify viscosity and structure. Starch is one of the most common food ingredients, both as a raw material or a property-modifying additive. The research objective was to study the effect of sonochemical action on the structural and mechanical properties of wheat starch suspensions. The study involved suspension samples with 10% wheat starch. The suspension samples were treated with ultrasound using an ultrasonic device Volna-M model UZTA-1/22-OM or in an ultrasonic bath (22 kHz; 100, 150, 300, and 400 W). The treatment time was 15 and 30 min. The rheological, physical, and textural properties were recorded according to conventional methods before and after the treatment. The ultrasonic treatment caused mechanical damage to the starch, making it more accessible to moisture when heated. As a result, the structural, mechanical, and rheological properties of starch suspensions changed. All the studied suspensions had a non-Newtonian character. The ultrasonic treatment increased their consistency coefficient from 28.12 to 152.75 µPa·s. The gelatinization temperature of all experimental starch suspensions dropped from 63.4 to 61.0°C. The short high-power ultrasound treatment reduced the strength of gels to 1.25 N compared to that of native starch gel (4.28 N). In this research, the ultrasound treatment of wheat starch suspensions modified the structural, mechanical, and rheological profile of starch and proved able to replace some conventional starch modification procedures, i.e., chemical, physical, or enzymatic. The new approach can provide modified starches of a preset quality while reducing energy costs and processing time.

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The Influence of Dairy Components on the Rheological Properties of Wheat Dough and Assessment of its Suitability for 3D Printing

Martekha,

Toroptsev,

Kaverina

et al. 2024

Food Processing: Techniques and Technology

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Wheat dough is a popular binder in many food formulations. It is also the most promising material for 3D-printed innovative food products. The article describes the effect of dairy ingredients on the rheological profile of wheat dough and its prospects for extrusion 3D printing. The test samples involved flour mixed with different amounts of water and various dairy components, e.g., milk powder, whey protein, and low-fat yogurt. The rheological properties were tested using the reverse extrusion method in a texture analyzer and a spindle viscometer. The best wheat dough sample had 65% moisture content, 5% milk powder (by weight), and 0–2.5% whey protein isolate or 20% yogurt. The sample demonstrated the optimal rheological properties that were close to those of the control sample: 1900–2100 Pa•s complex viscosity, 0.14–0.16 mechanical loss tangent, and 20–23.5 N resistance. The results can be used to develop innovative 3D-printed flour products. Further research will involve experiments in 3D printing of wheat dough with various dairy ingredients to determine the optimal kinematic and geometric parameters for extrusion 3D printing.

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Rheological Properties of Mayonnaise with Non-Traditional Ingredients

Cited by 4 publications

References 32 publications

Kinetic evaluation and optimization of the drying process of 3D printed pasta: key factors influence on the finished product quality

Kinetic evaluation and optimization of the drying process of 3D printed pasta: key factors influence on the finished product quality

Sonochemical Effects on Wheat Starch

The Influence of Dairy Components on the Rheological Properties of Wheat Dough and Assessment of its Suitability for 3D Printing

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