Cracking to curling transition in drying colloidal films

Meng, Weipeng; Liu, Mingchao; Gan, Yixiang; Pauchard, Ludovic; Chen, Chang

doi:10.1140/epje/i2020-11985-4

Cited by 9 publications

(5 citation statements)

References 45 publications

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“…Although cracking during drying of dispersions of hard colloids has been extensively studied, − in spite of its practical importance, there is a limited number of articles specifically dealing with cracking during drying of waterborne polymer coatings containing soft and hard polymers.…”

Section: Introductionmentioning

confidence: 99%

Cracking in Films Cast from Soft Core/Hard Shell Waterborne Polymer Dispersions

et al. 2023

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Soft core-hard shell waterborne polymer dispersions are promising for achieving no-volatile organic compound, mechanically strong coatings able to form films at low temperatures. However, the resistance to deformation of the hard phase creates stresses that may lead to the cracking of the coating, which is catastrophic for substrate protection. Cracking is what hinders the broad use of soft core-hard shell latexes for demanding applications that require thick coatings. This article reports on a thorough study of the effect of particle characteristics and drying conditions on stress generation and crack formation. The morphology of particles and films is characterized in detail. The range of conditions necessary to form a crack-free, mechanically strong, lowtemperature film-forming coating is determined. It is shown that the existing mathematical models for cracking are not able to explain the experimental data, and reasons for the failure are discussed. A data-derived criterion for cracking nucleation is proposed.

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Section: Introductionmentioning

confidence: 99%

Cracking in Films Cast from Soft Core/Hard Shell Waterborne Polymer Dispersions

et al. 2023

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“…PTFE is a typical non-polar molecule and the interaction between molecular chains is weak, which macromolecular chain is prone to slip or fracture. More critically, the fluidity of PTFE after melting is extremely poor and the deformation of PTFE is also exceedingly small, 26 so when the internal stress in the coating accumulate, the internal stress can hardly be released through the particle deformation, 27 which leads to the crack of the coating, as shown in Figure 3(M-0). A continuous porous layer appeared on the surface of glass fiber mat when the mass ratio of PTFE to PVA was 5:1, as shown in Figure 3(M-5), suggesting that PVA could improve the integrity of the membrane which is consistent with the finding that PVA is a continuous phase network that wraps independently dispersed PTFE particles to form a complete membrane.…”

Section: Resultsmentioning

confidence: 99%

A continuous polytetrafluoroethylene foam-coating to glass fiber mat with superior self-cleaning, antistatic and high filtration efficiency performances

Chen

Zeng

et al. 2023

Journal of Industrial Textiles

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Air pollution has become a significant global environmental issue, leading to adverse health effects and respiratory diseases. To address this challenge, expanded polytetrafluoroethylene (ePTFE) membrane-based fibrous filters have gained popularity in the past decade. However, the thinness and low mechanical strength of ePTFE membranes make them susceptible to damage from particle collisions. As an alternative to ePTFE membranes, PTFE emulsion has emerged as a promising approach to enhance filtration efficiency. However, due to PTFE's low surface energy and high crystallinity, it is difficult for PTFE to self-bond into a membranes and adhere to substrates. Therefore, the filtration efficiency of PTFE-impregnated filter materials does not meet the requirements for ultra-low emissions, and they have poor wear resistance, resulting in a short service life. Herein, we fabricate a PTFE emulsion foam-coating membrane filter. The influences of the contents of PVA on the film morphology, air permeability, pore size and distribution, abrasive resistance and antistatic properties were analyzed. The self-cleaning performance was simulated and the filtration performance was measured as well. Notably, the frictional mass loss index of the PTFE emulsion foam-coating membrane filter was 0.07. After 30 cycles, the filtration efficiency was 98.93%, and the strip ratio was 91.03%. Our design of the PTFE emulsion foam-coating provided a new direction for the application of PTFE emulsion in the filtration field with superior self-cleaning, antistatic and high filtration efficiency performances.

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“…The critical stress for film delamination σ d can be estimated by 62 where Γ d is the adhesion strength of the film, E and h d are the Young's modulus and critical delamination thickness of the film, respectively. Although it is challenging to directly measure the adhesion between an evaporation-driven consolidating bacteria film and a glass substrate, the adhesion strength for most biofilms is of the order of magnitude of 5 mJ m −2 .…”

Section: Appendix A: Derivation Of the In-plane Stresses σRr And σθθmentioning

confidence: 99%