Super High‐Expansion Poly(Lactic Acid) Foams with Excellent Oil‐Adsorption and Thermal‐Insulation Properties Fabricated by Supercritical CO₂ Foaming

Abstract: current materials are mostly traditional petroleum-based polymers. [5,6] This will consume petrochemical resources and produce massive hardly degradable waste. [7] Second, toxic organic solvents or flammable foaming agents are widely used in the current preparation processes. [2,3] In addition, the relationship between the foam structure and the oil-adsorption and thermal-insulation performance is still unclear, thus limiting the development of high-performance foams.Poly(lactic acid) (PLA) is one of the bioba… Show more

“…The preparation methods of the referred oil adsorption materials, the corresponding adsorption capacity, and the density of used organic solvents are summarized in Table S1. Compared with base materials such as PS, , PU, − PP, ,, PVA, PLA, graphene, and silicone foams, the EVOH foam prepared in this work exhibits better adsorption capacity. This indicates that the EVOH foam exhibits strong adsorption properties.…”

“…In these preparation processes, toxic organic solvents or chemical reagents are frequently used, which cause secondary environmental pollution and endanger Figure 7b shows the kinetic constant of EVOH/10 wt % MDI-g-EOPO foam prepared in this paper compared with oil adsorption materials for organic solvents reported in the literature. 30,32,[39][40][41]59 It is noted that the kinetic constant of EVOH/MDI-g-EOPO foam is larger than that of the adsorbent in the literature when adsorbing the same solvent. This is because EVOH/MDI-g-EOPO foam has a large specific surface area from 3D nanofibers and a large interconnected 3D storage space.…”

“…Finally, a 3D polymer nanofiber structure with high porosity and a large interface was obtained in the modified EVOH system. After testing, the adsorption material has high adsorption performance for liquid contamination, for instance, with a fast adsorption rate, that is, a kinetic constant as high as 1.14 g/g·s –1 , for carbon tetrachloride (CCl 4 ), much faster than polylactic acid (PLA) foam, PP/POE blend foam, polystyrene (PS)/polyacrylonitrile fiber, and so on. The mechanism for obtaining this superior 3D polymer nanofiber structure was then clarified to guide the fabrication of the high-performance amphiphilic adsorber.…”

Three-Dimensional Polymer Nanofiber Structures for Liquid Contamination Adsorption

“…The preparation methods of the referred oil adsorption materials, the corresponding adsorption capacity, and the density of used organic solvents are summarized in Table S1. Compared with base materials such as PS, , PU, − PP, ,, PVA, PLA, graphene, and silicone foams, the EVOH foam prepared in this work exhibits better adsorption capacity. This indicates that the EVOH foam exhibits strong adsorption properties.…”

“…In these preparation processes, toxic organic solvents or chemical reagents are frequently used, which cause secondary environmental pollution and endanger Figure 7b shows the kinetic constant of EVOH/10 wt % MDI-g-EOPO foam prepared in this paper compared with oil adsorption materials for organic solvents reported in the literature. 30,32,[39][40][41]59 It is noted that the kinetic constant of EVOH/MDI-g-EOPO foam is larger than that of the adsorbent in the literature when adsorbing the same solvent. This is because EVOH/MDI-g-EOPO foam has a large specific surface area from 3D nanofibers and a large interconnected 3D storage space.…”

“…Finally, a 3D polymer nanofiber structure with high porosity and a large interface was obtained in the modified EVOH system. After testing, the adsorption material has high adsorption performance for liquid contamination, for instance, with a fast adsorption rate, that is, a kinetic constant as high as 1.14 g/g·s –1 , for carbon tetrachloride (CCl 4 ), much faster than polylactic acid (PLA) foam, PP/POE blend foam, polystyrene (PS)/polyacrylonitrile fiber, and so on. The mechanism for obtaining this superior 3D polymer nanofiber structure was then clarified to guide the fabrication of the high-performance amphiphilic adsorber.…”

Three-Dimensional Polymer Nanofiber Structures for Liquid Contamination Adsorption

“…Nowadays, porous hydrophobic/oleophilic materials (PHOMs) 5 have been shown to be one of the most promising candidates for filtering wastewater. For example, PHOMs, like functional polymer membranes 6 and carbon aerogels, 7 are attractive alternative for water treatment due to their highly open‐cell structures and surface chemistries 8,9 . Nowadays, the main production methods of PHOMs are phase separation, 10 electrostatic spinning, 11 freeze‐drying, 12 and surface modification, 13 but there are some disadvantages with them, like solvent abuse, time‐consuming, and high precise.…”

“…For example, PHOMs, like functional polymer membranes 6 and carbon aerogels, 7 are attractive alternative for water treatment due to their highly open-cell structures and surface chemistries. 8,9 Nowadays, the main production methods of PHOMs are phase separation, 10 electrostatic spinning, 11 freeze-drying, 12 and surface modification, 13 but there are some disadvantages with them, like solvent abuse, time-consuming, and high precise. Therefore, it is great significance to develop environmentally friendly PHOMs, which have the characteristics of easy promotion, high throughout and high efficiency.…”

Supercritical CO₂ foaming of open‐cell polypropylene/ethylene propylene diene monomer composite foams with oriented cellular structures for water treatment

Fabrication of Lightweight Polyphenylene Oxide/High‐Impact Polystyrene Composite Bead Foam Parts via In‐Mold Foaming and Molding Technology