Waste Mineral Wool and Its Opportunities—A Review

Yap, Zhen Shyong; Khalid, Nur Hafizah A.; Haron, Zaiton; Mohamed, Ahmad Kilani; Tahir, Mahmood Md.; Hasyim, Saloma; Saggaff, Anis

doi:10.3390/ma14195777

Cited by 39 publications

(19 citation statements)

References 130 publications

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“…However, there was no statistical difference between the UC and FC groups in terms of internal bond strength. It has been reported that in particleboards produced by adding 10, 20, and 30% stone wool using urea formaldehyde glue, the mineral wool reduced the bending strength by up to 65% and the internal bond strength by up to 71%, due to the reduction of the cohesion force inside the board (Mamiński et al 2011;Yap et al 2021). Cong et al (2021) added a layer of mineral wool and glass wool to epoxy-based carbon fiber polymeric laminates and investigated their combustion and mechanical properties.…”

Section: Mechanical and Physical Propertiesmentioning

confidence: 99%

“…According to their results, depending on the increase in mineral wool, the mechanical properties and thermal conductivity values decreased and the thickness swelling increased. Existing studies have generally shown a reasonable increase in the ignition and combustion resistance of wood-based composite materials mixed with stone wool fillers; however, the deterioration of mechanical properties cannot be disregarded for woodpolypropylene composites (Yap et al 2021). Recently, the interest in and demand for environmentally friendly engineered wood-based products has been increasing as a result of the energy crisis and health concerns.…”

Section: Introductionmentioning

confidence: 99%

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Hybrid composite board produced from wood and mineral stone wool fibers

Akkus

2022

BioRes

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Wood fiberboards are used extensively, mainly in the fields of furniture production, interior fittings, construction, etc. Mineral stone wool materials are used for heat and sound insulation in the construction industry. This study aimed to produce a new hybrid-based composite material by mixing fibers obtained from wood and mineral stone wool. For this purpose, hybrid fiberboards with 50, 40, 30, and 20% stone wool addition and a fiberboard group consisting of 100% pine and beech fibers (control sample) were produced in a hot press using thermoset-based urea formaldehyde and phenol formaldehyde resins. Statistical comparisons of the results were made for values of density, thickness swelling, and water absorption extents after 24 h immersion, bending strength and modulus of elasticity in bending, tensile strength perpendicular to the board surface (internal bond strength), and time to ignition (TTI) analysis. Additionally, percentage of mass loss (PML), average heat release rate (A-HRR), average effective heat of combustion (A-EHC), and mass loss rate (MLR) were studied. The results showed that as the stone wool content in the produced boards increased, the mechanical properties and thickness swelling decreased. The combustion results showed that the combustion resistance of the boards increased with increasing stone wool ratio.

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Section: Mechanical and Physical Propertiesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Hybrid composite board produced from wood and mineral stone wool fibers

Akkus

2022

BioRes

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“…In most cases, sound absorbers have poor mechanical stability [41]. Thus, numerous research studies have emphasized finding the balance between mechanical strength and sound absorption [42,43].…”

Section: Measurement Parametersmentioning

confidence: 99%

Trend of Sound Absorption Research: A Bibliometric Analysis

Yap

Liew

Khalid

et al. 2022

Civil and Environmental Engineering

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The growing world population and urbanization have worsened noise pollution, driving the development of sound absorption (SA) research across the globe. This study aims to analyse the SA global research trends and discover the opportunities for future development or collaboration using systematic bibliometric analysis. A total of 2970 articles since 1913 were systematically retrieved. Results reveal that the most productive journal had taken 10.3 % of the total publications. A high correlation r = 0.87 was found between the number of co-authorship and the h-index of a scholar. China has the highest number of publications 55.3 % and most research focused on porous materials. Present findings could be helpful to further develop SA from a global level perspective.

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“…However, recycling of sheep wool fibers and use as a construction material after minor treatment has been investigated, as these fibers have a high elastic modulus of up to 4 GPa [ 4 ]. In addition, sheep wool has increased strength due to chemical interaction between the protein components [ 23 ].…”

Section: Introductionmentioning

confidence: 99%

An Integrated Approach to Using Sheep Wool as a Fibrous Material for Enhancing Strength and Transport Properties of Concrete Composites

et al. 2022

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An important goal to achieve sustainable development is to use raw materials that are easily recyclable and renewable, locally available, and eco-friendly. Sheep wool, composed of 60% animal protein fibers, 10% fat, 15% moisture, 10% sheep sweat, and 5% contaminants on average, is an easily recyclable, easily renewable, and environmentally friendly source of raw material. In this study, slump testing, compressive and flexural strengths, ultrasonic pulse velocity, sorptivity, and chloride penetration tests were investigated to assess the influence of wool fibers on the strength and transport properties of concrete composites. Ordinary Portland cement was used to make five concrete mixes incorporating conventional wool fibers (WFs) ranging from 0.5 to 2.5% and a length of 70 mm. The wool fibers were modified (MWFs) via a pre-treatment technique, resulting in five different concrete compositions with the same fiber content. The addition of WF and MWF to fresh concrete mixes resulted in a decrease in slump values. The compressive strength of concrete was reduced when wool fibers were added to the mix. The MWF mixes, however, achieved compressive strength values of more than 30 MPa after a 90-day curing period. Furthermore, by including both WF and MWF, the flexural strength was higher than that of plain concrete. In addition, adding fibers with volume fractions of up to 2% reduced the concrete composite’s sorptivity rate and chloride penetration depths for both WF and MWF content mixes. Consequently, biomass waste like sheep wool could be recycled and returned to the field following the circular economy and waste valorization principles.

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Waste Mineral Wool and Its Opportunities—A Review

Cited by 39 publications

References 130 publications

Hybrid composite board produced from wood and mineral stone wool fibers

Hybrid composite board produced from wood and mineral stone wool fibers

Trend of Sound Absorption Research: A Bibliometric Analysis

An Integrated Approach to Using Sheep Wool as a Fibrous Material for Enhancing Strength and Transport Properties of Concrete Composites

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