Preliminary Assessment of Tara Gum as a Wall Material: Physicochemical, Structural, Thermal, and Rheological Analyses of Different Drying Methods-Reference-Cited by-同舟云学术

Preliminary Assessment of Tara Gum as a Wall Material: Physicochemical, Structural, Thermal, and Rheological Analyses of Different Drying Methods

Published:2024-03-19 Issue:6 Volume:16 Page:838
ISSN:2073-4360
Container-title:Polymers
language:en
Short-container-title:Polymers

Author:

Moscoso-Moscoso Elibet¹²^ORCID,Ligarda-Samanez Carlos A.¹²^ORCID,Choque-Quispe David¹²^ORCID,Huamán-Carrión Mary L.¹,Arévalo-Quijano José C.¹³,De la Cruz Germán¹⁴^ORCID,Luciano-Alipio Rober¹⁵^ORCID,Calsina Ponce Wilber Cesar¹⁶^ORCID,Sucari-León Reynaldo¹⁷^ORCID,Quispe-Quezada Uriel R.¹⁸^ORCID,Calderón Huamaní Dante Fermín¹⁹

Affiliation:

1. Nutraceuticals and Biomaterials Research Group, Universidad Nacional José María Arguedas, Andahuaylas 03701, Peru

2. Research Group in the Development of Advanced Materials for Water and Food Treatment, Universidad Nacional José María Arguedas, Andahuaylas 03701, Peru

3. Department of Education and Humanities, Universidad Nacional José María Arguedas, Andahuaylas 03701, Peru

4. Agricultural Science Faculty, Universidad Nacional de San Cristobal de Huamanga, Ayacucho 05000, Peru

5. Administrative Sciences Faculty, Universidad Nacional Autónoma Altoandina de Tarma, Junín 12731, Peru

6. Social Sciences Faculty, Universidad Nacional del Altiplano, Puno 21001, Peru

7. Engineering and Management Faculty, Universidad Nacional Autónoma de Huanta, Ayacucho 05000, Peru

8. Agricultural and Forestry Business Engineering, Universidad Nacional Autónoma de Huanta, Ayacucho 05000, Peru

9. Ambiental Engineering, Universidad Nacional San Luis Gonzaga, Ica 11001, Peru

Abstract

Tara gum, a natural biopolymer extracted from Caesalpinia spinosa seeds, was investigated in this study. Wall materials were produced using spray drying, forced convection, and vacuum oven drying. In addition, a commercial sample obtained through mechanical methods and direct milling was used as a reference. The gums exhibited low moisture content (8.63% to 12.55%), water activity (0.37 to 0.41), bulk density (0.43 to 0.76 g/mL), and hygroscopicity (10.51% to 11.42%). This allows adequate physical and microbiological stability during storage. Polydisperse particles were obtained, ranging in size from 3.46 µm to 139.60 µm. Fourier transform infrared spectroscopy characterisation confirmed the polysaccharide nature of tara gum, primarily composed of galactomannans. Among the drying methods, spray drying produced the gum with the best physicochemical characteristics, including higher lightness, moderate stability, smaller particle size, and high glass transition temperature (141.69 °C). Regarding rheological properties, it demonstrated a non-Newtonian pseudoplastic behaviour that the power law could accurately describe. The apparent viscosity of the aqueous dispersions of the gum decreased with increasing temperature. In summary, the results establish the potential of tara gum as a wall material applicable in the food and pharmaceutical industries.

Funder

Research Group on Nutraceuticals and Biomaterials of the Universidad Nacional José María Arguedas

Publisher

MDPI AG

Link

https://www.mdpi.com/2073-4360/16/6/838/pdf

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