Effects of Coconut Husk and Corn Cob as Fillers in Flexible Polyurethane Foam

Chris-Okafor, Pauline Uchechukwu; Uchechukwu, Arinze Rose Mary; Nwokoye, Joy Nwando; Ukpai, Ernest Umar

doi:10.11648/j.ajpst.20170304.12

Cited by 11 publications

(5 citation statements)

References 6 publications

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“…9 Functional fillers can enhance mechanical characteristics, electrical conductivity, sound absorption, thermal insulation, fire resistance, and sensitivity to fungus. 10 The mechanical performance of filler composites is influenced by the filler loading percentage, particle size of filler, and position of the filler aggregation, which can be either within the cell or adhered to the struts of the cell structure. 10,11 Fillers can increase foam density and lower total costs, expanding the application range of traditional PU foams.…”

Section: Introductionmentioning

confidence: 99%

“…10 The mechanical performance of filler composites is influenced by the filler loading percentage, particle size of filler, and position of the filler aggregation, which can be either within the cell or adhered to the struts of the cell structure. 10,11 Fillers can increase foam density and lower total costs, expanding the application range of traditional PU foams. Inorganic fillers that are generally inert by nature, such as talc, barium sulfate, and calcium carbonate, are added to foam formulations to enhance mechanical properties like density or hardness and reduce economical costs of the final product.…”

Section: Introductionmentioning

confidence: 99%

“…Fillers may also affect phase separation due to thermodynamic incompatibility or interference with the hydrogen bonding network 9 . Functional fillers can enhance mechanical characteristics, electrical conductivity, sound absorption, thermal insulation, fire resistance, and sensitivity to fungus 10 . The mechanical performance of filler composites is influenced by the filler loading percentage, particle size of filler, and position of the filler aggregation, which can be either within the cell or adhered to the struts of the cell structure 10,11 .…”

Section: Introductionmentioning

confidence: 99%

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Impact of filler and gelling catalyst/agent on properties of flexible polyurethane foam

Jaiswal,

Narayanangopalasamudram,

Maitra

2024

Polymer Engineering & Sci

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In this study, the physiomechanical properties of carboxymethylcellulose sodium salt (Na‐CMC salt) filler‐loaded foam and its impact on the wicking capacity of the foam were investigated in juxtaposition with the increasing tin concentration. According to the study's findings, standard unfilled foam demonstrated no wicking at all, while flexible PU foam filled with Na‐CMC salt, even with low porosity and subpar mechanical traits, displayed wicking heights of 4 mm, 3.4 mm, and 2.8 mm in test specimens of thicknesses of 6 mm, 8 mm, and 10 mm. Moreover, filled foam with a higher porosity level exhibited significantly better wicking heights of 11.4 mm, 10.8 mm, and 8.2 mm. The inclusion of CMC filler in the PU foam matrix is the reason for enhanced wicking property in foam. The sample thickness and wicking height trends are consistent among all foams; as foam sample thickness increases, wicking height progressively falls. The correlation between the foam's porosity value and the number of closed cell windows is confirmed by stereomicroscopy and the porosity values. According to this study, the infused filler's characteristics have a greater influence on the foam's wicking capacity than the foam's porosity. This study contributes significant insights into ongoing initiatives to enhance user experience, well‐being, and hygiene through innovative and meticulously designed new developed mattress foam using Na‐CMC as a filler.Highlights Co‐relation between concentration of tin and infused filler on wicking property. Standard unfilled foam demonstrated no wicking at all. Na‐CMC salt filled foam displayed wicking heights. After 15% increase in tin level, mechanical properties of foam degrade. Wicking depends on nature of infused filler and the foam's porosity.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Impact of filler and gelling catalyst/agent on properties of flexible polyurethane foam

Jaiswal,

Narayanangopalasamudram,

Maitra

2024

Polymer Engineering & Sci

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“…While previous studies have investigated the reinforcement of PUF with natural fibers, 11 there is a gap in the literature regarding the effect of reinforcement milled fish scale powder (MFSP) on the physical properties of PUF‐based composites under different temperature conditions. Most of the previous studies have focused on the use of other natural fibers such walnut and hazelnuts shells, 5 hemp fibers, 12 and coconut husk and corn cob 13 . There is limited research on the use of MFSP.…”

Section: Introductionmentioning

confidence: 99%

“…Most of the previous studies have focused on the use of other natural fibers such walnut and hazelnuts shells, 5 hemp fibers, 12 and coconut husk and corn cob. 13 There is limited research on the use of MFSP. Moreover, the effect of temperature on the physical properties of PUF-based composites reinforced with MFSP has not been extensively studied.…”

Section: Introductionmentioning

confidence: 99%

Effect of milled fish scale powder reinforcement on physical properties of ether‐based polyurethane foam composite

Naidoo,

Onwubu,

Mokhothu

et al. 2023

J of Applied Polymer Sci

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This study investigated the effects of reinforcing ether‐based flexible polyurethane foam (PUF) with milled fish scale powder (MFSP) on the physical properties of the resulting composite under different temperature conditions. The composites were prepared with varying MFSP concentrations (0%, 0.5 wt%, 1 wt%) with the PUF matrix and then subjected to the resulting mixture in a mold and cured in an oven at 70 degrees for 15 min. The physical properties of the composites, namely tensile strength, elongation at break, tear resistance, density, color, and cell structure were characterized under different temperature conditions. The results showed that at standard temperature (23°C), the addition of 0.5 wt% MFSP resulted in an 18.8% increase in tensile strength and a 15.7% increase in elongation at break. Tear resistance exhibited significant improvements under heat aging, with a 22% increase (0.5 wt% MFSP) and a remarkable 37% increase (1 wt% MFSP). The cell structure revealed closed cells after the addition of MFSP to the PUF matrix. The salient feature of the study suggests that the use of MFSP as a reinforcing agent for PUF‐based composites has the potential to improve their physical properties. This is critical in producing PUF at a reduced cost with less impact on the environment.

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Thermal Insulation for Refrigeration Pipe Made of Polyurethane Reinforced Coconut Husk and Rice Husk

Khalid,

Zuhri,

Hairuddin

et al. 2023

Springer Proceedings in Materials

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Effects of Coconut Husk and Corn Cob as Fillers in Flexible Polyurethane Foam

Cited by 11 publications

References 6 publications

Impact of filler and gelling catalyst/agent on properties of flexible polyurethane foam

Impact of filler and gelling catalyst/agent on properties of flexible polyurethane foam

Effect of milled fish scale powder reinforcement on physical properties of ether‐based polyurethane foam composite

Thermal Insulation for Refrigeration Pipe Made of Polyurethane Reinforced Coconut Husk and Rice Husk

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