This cover by Miaotian Long describes a facile strategy to construct microencapsulated urea ammonium polyphosphate (PPy-UAPP) with a polypyrrole shell. The good compatibility between epoxy matrix and PPy-UAPP endows the resulting EP composites with a satisfactory balance between fire safety and mechanical properties. This work may open a new route for developing a super flame retardant and corresponding high-performance flame-retarded resins. DOI: 10.1002/app.53675
Abstract In this research, SiC/diamond composite coatings were fabricated by a novel procedure that consisted of the electrophoretic deposition ( EPD ) of diamond particles onto graphite substrates followed by chemical vapor deposition ( CVD ) of SiC. Various concentrations of MgCl 2 were employed to increase the deposition rate and uniformity of the deposits during the EPD process by giving a positive charge to diamond particles. The CVD of SiC was found to have a tightly connected diamond‐graphite interface and spherical texture. With higher weight fraction of diamond particles deposits, the wear of steel ball increased, while the wear of SiC coating decreased.
Abstract: Irritant, expensive, or toxic desulfurating agents are usually used in the synthesis of isothiocyanates from amines, CS2, and appropriate bases, accompanied by a tedious workup. A more practical and green method has been developed. Cheap and non-toxic CaO was used as both a base and a desulfurating agent in the synthesis of isothiocyanates. Both alkyl and aryl isothiocyanates are easily synthesized in moderate to high yield from amines, CS2, and CaO under mild conditions. A simple and practical synthetic approach for isothiocyanates from amines, CS2, and CaO was developed. CaO acts as both a base and a desulfurating agent in the reactions, simplifying the reaction system and reducing cost as well as side products. Moderate to high yields were obtained at room temperature in 48 hours which included alkyl and aryl isothiocyanates.
A unique mono-component intumescent flame retardant, named PPy-MAPP, of which melamine-coated ammonium polyphosphate (MAPP) was microencapsulated by polypyrrole (PPy), was synthesized and carefully characterized. The obtained PPy-MAPP was applied to epoxy resin (EP) for obtaining flame-retarded EP composites. The results show that PPy-MAPP imparts better flame retardancy and smoke suppression properties to EP compared to the same addition of MAPP. The EP composite with 15 wt% PPy-MAPP easily passes the UL94 V-0 rating and achieves an LOI value of 42.4%, accompanied by a 61.9% reduction in total heat release (THR) and a 73.9% reduction in total smoke production (TSP) when compared with pure EP. The char residue analysis shows that PPy-MAPP can promote a generation of more phosphorus-rich structures in the condensed phase that improve the integrity and intumescence of char against fire. The mechanical test indicates that PPy-MAPP has a less negative effect on the tensile strength and elastic modulus of epoxy resin due to the good compatibility between PPy-MAPP and the EP matrix, as supported by differential scanning calorimetry (DSC) analyses. In this paper, these attractive features of PPy-MAPP provide a new strategy to prepare satisfactory flame retardant and super flame retarding EP composites.
A unique hybridized intumescent flame retardant named reduced-graphene-oxide-modified ammonium polyphosphate (RGO-APP) was successfully synthesized via the simple hydrothermal method and reduced process. Then, the obtained RGO-APP was applied in epoxy resin (EP) for flame retardancy reinforcement. The addition of RGO-APP results in a significant reduction in heat release and smoke production from the EP, which is attributed to EP/RGO-APP producing a more compact and intumescent char against the heat transfer and combustible decomposition, thus enhancing the fire safety of EP, as confirmed by char residue analysis. Especially, the EP containing 15 wt% RGO-APP acquires a limiting oxygen index (LOI) value of 35.8% and shows a 83.6% reduction in peak heat release rate and a 74.3% reduction in peak smoke production rate compared with those of pure EP. The tensile test exhibits that the presence of RGO-APP favors the enhancement in tensile strength and elastic modulus of EP due to the good compatibility between flame retardant and epoxy matrix, as supported by differential scanning calorimetry (DSC) and scanning electron microscope (SEM) analyses. This work provides a new strategy for the modification of APP, thus facilitating a promising application in polymeric materials.
The combination of Bifidobacterium longum and Pediococcus pentosaceus is a clinically effective probiotic formulation for alleviating infantile colic; however, their utilization characteristics and mechanism of action surrounding their combined use of sugar sources remains unclear. Using in vitro simulation technology, this study set up individual and mixed cultures of the two probiotics at unique concentrations, and different types of prebiotics, carbohydrates and polyols were added. Gas and short-chain fatty acid production, substrate utilization, as well as growth of the individual and mixed probiotics were detected at the beginning of fermentation, 24 h, and 48 h. Further, the mechanism of the syntrophic effect of the two probiotics was explored based on their growth characteristics. It was found that neither strain produced gas after 24 h and 48 h of cultivation, but could synergistically utilize fructo oligosaccharides (FOS) when mixed. There was an increasing trend of acetic acid production for B. longum in yeast extract, casitone and fatty acid (YCFA) and FOS medium with increasing of bacterial concentrations at 24 h and 48 h; whereas the trend for P. pentosaceus was less obvious. When bacterial concentrations were >5 billion CFU·g −1 , the mixed culture showed significantly lower acetic acid production than B. longum alone. By adding lactic and acetic acids to the YCFA medium and observing P. pentosaceus growth, the results suggested that Pediococcus pentosaceus could use the acetic acid and lactic acid produced by Bifidobacterium longum for growth. When the bacterial concentration was 5 billion CFU·g −1 , the acetic acid production of B. longum was significantly higher in the mixed cultures in lactulose, lactose, FOS, galactooligosaccharide, and inulin medium; whereas the reverse was true for culturing in xylitol, carboxymethyl cellulose sodium, and sorbitol medium. Further, the mixed cultures produced significantly more acetic acid than B. longum alone. In summary, through in vitro simulation experiments, the optimal ratio and potential interaction mechanisms between B. longum and P. pentosaceus were revealed here, offers a basis for understanding how the probiotic combinations may improve infant colic symptoms by influencing the gut pH and regulating the gut microbiota mechanisms.
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