Thermogelation of methylcellulose from solution in <i>N,N</i>‐dimethylformamide and characterization of the transparent gels

Singh, Reeti; Kundu, Patit Paban

doi:10.1002/app.28527

Cited by 14 publications

(14 citation statements)

References 12 publications

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“…Figure is the optical image, showing an amalgamation of two beads to form a single bead (10 m). On the other hand, the amalgamation of beads to form larger bead was not observed in MC‐DMF gels under optical microscope and SEM . In comparison to MC aqueous system, the gelation of MC‐DMF is due to polymer conformational changes during cooling.…”

Section: Resultsmentioning

confidence: 88%

“…Therefore, the internal energy is decreased resulting in the drop in entropy, and thus, the kinetic energy of beads may not be sufficient to collide to form the larger bead. So, the combination of beads manifests the formation of rods, leading to the formation of further strong gel network .…”

Section: Resultsmentioning

confidence: 99%

“…This shift in the peak toward higher frequency shows the greater tendency of gel to absorb vibrational energy (the reheating was done in a closed container to avoid evaporation losses). The reheating may induce the permanent association among MC helixes, which are irreversible . Thus, it is assumed that the weakly associated beads may already present in the reheated MC‐4000 before the second run of the experiment.…”

Section: Resultsmentioning

confidence: 99%

“…The inverse‐gelation phenomenon is rather considered to be hydrophobic and hydrophilic associations . During heating, the MC molecules get aggregated to form junction zones, micelles, helixes, beads, rods, core‑shell, and cage‐like structures . However, these conformations are schematically represented by Tanaka.…”

Section: Introductionmentioning

confidence: 99%

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Studies on rheological, thermal, and morphological properties of methylcellulose gel in aqueous medium

Singh¹,

Kundu

2019

Polymer Engineering & Sci

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The rheological, morphological, and thermal behavior of aqueous methylcellulose (MC) gels was investigated by optical microscope, dynamic mechanical analyzer (DMA), and differential scanning calorimeter. The double crossover between the storage modulus and loss modulus during the frequency scan in DMA suggests the transition from gel to sol state. These gel networks are comprised of bead-rod structures, which is visible under the optical microscope. Furthermore, the degelation mechanism of gels comprises of the thermodynamic viable bead burst phenomenon. The reheated samples of MC under dynamic compression show partial irreversibility of the MC aqueous system, indicating the possible presence of weakly coupled random coils and helix. The phenomenon of turbidity of MC aqueous gels is discussed with the help of a large bead model, in which the small-sized beads present in aqueous solution collide with each other to form large beads. FIG. 4. (a) Plot between storage and loss modulus as a function of frequency Hz for 5 wt% MC-4000 gel at 50 C. (b) Plot between storage and loss modulus as a function of frequency Hz for 5 wt% MC-1500 gel at 50 C. (c) Plot between storage and loss modulus as a function of frequency Hz for 5 wt% MC-4000 gel at 80 C. (d) Plot between storage and loss modulus as a function of frequency Hz for 5 wt% MC-1500 gel at 80 C. (e) Plot between storage and loss modulus as a function of frequency Hz for 5 wt% MC-25 gel at 80 C. [Color figure can be viewed at wileyonlinelibrary.com]

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Section: Resultsmentioning

confidence: 88%

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Studies on rheological, thermal, and morphological properties of methylcellulose gel in aqueous medium

Singh¹,

Kundu

2019

Polymer Engineering & Sci

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“…The strength of the gel is derived from two different types of gel structures. The first type of structure of gel consists of the weakly associated molecules of MC separated apart and the second type is composed of the highly associated lumps of MC 12, 13. In Figure 1(g), a small increase in E ′ is initially observed, followed by the steep increase.…”

Section: Resultsmentioning

confidence: 94%

Rheological properties of methylcellulose aqueous gels under dynamic compression: Frequency sweep and validity of scaling law

Kundu

Mallapragada

Larock

et al. 2010

J of Applied Polymer Sci

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ABSTRACT:The aqueous methylcellulose (MC) gels are characterized with a dynamic mechanical analyzer (DMA) under dynamic vertical compression. During the frequency sweeps of MC gels at different temperatures, the storage modulus is observed to be higher than loss modulus at lower frequencies. Both of the storage and loss modulus increases with frequency, but the rate of increase is higher for loss modulus. This leads to the first crossover between E 0 and E 00 during the frequency scan. For the frequency scan at a high temperature (80 C), a higher rate of increase is observed in storage modulus beyond the first crossover frequency. This leads to the second crossover between storage and loss modulus. Optical microscopy results indicate the presence of core-shell microstructure in aqueous MC gels. The first crossover is possibly due to the shell-sol transition, whereas the second crossover is due to the sol-shell-core transition. The validity of scaling laws at and around the first-crossover point (shell-sol transition) is checked. The scaling law is valid at the first-crossover point, but it is invalid around it. Alternate scaling equations based on reduced parameters are also used to check the universality. Irrespective of temperature, scaling laws are valid for reduced parameters.

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Rheological and micro structural studies of methylcellulose solutions in N,N-dimethylformamide for preparation of extruded beads: controlled urea release

Singh¹,

Kundu

2017

Rheol Acta

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Thermogelation of methylcellulose from solution in N,N‐dimethylformamide and characterization of the transparent gels

Cited by 14 publications

References 12 publications

Studies on rheological, thermal, and morphological properties of methylcellulose gel in aqueous medium

Studies on rheological, thermal, and morphological properties of methylcellulose gel in aqueous medium

Rheological properties of methylcellulose aqueous gels under dynamic compression: Frequency sweep and validity of scaling law

Rheological and micro structural studies of methylcellulose solutions in N,N-dimethylformamide for preparation of extruded beads: controlled urea release

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