Numerical study on rubber compounds made of reactivated ethylene propylene diene monomer for fiber reinforced elastomeric isolators

Habieb, Ahmad Basshofi; Cerchiaro, Renato; Quaglini, Virginio; Milani, Federico

doi:10.1002/pen.25573

Cited by 32 publications

(14 citation statements)

References 33 publications

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“…The reference regenerated EPDM compound is the Batch 4 developed by A. B. Habieb et al [14]. Commercial virgin rubber is blended with regenerated EPDM.…”

Section: Regenerated Epdm Compoundmentioning

confidence: 99%

Low-Cost Rubber Compounds for Fiber-Reinforced Elastomeric Isolators: Recovered Powders and Waste Oils From Rubber Manufacturing Processes

Pianese¹,

Milani²,

Habieb³

2021

Proceedings of the 8th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering (COM

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In recent years the concept of recycling and reuse is a popular issue faced in many fields. During manufacturing processes a huge amount of materials is recovered to minimize waste. In particular, this study investigates the possibility of reuse materials recovered during the production of rubber in standard industrial practice, for the realization of low-cost rubber compounds for fiber-reinforced elastomeric isolators. To cope with this task, a new composition is developed basing on the past experience of the research group and in particular with reference to a previous study by A. B. Habieb et al, where a part of virgin rubber was replaced by regenerated one. Subsequently, a comparison between the two compositions in terms of rheometer curves, uniaxial tensile curves, hardness and compression sets, before and after the process of aging is provided. It is found that the new composition exhibits attractive performances with economic advantages and environmental benefits.

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“…The reference regenerated EPDM compound is the Batch 4 developed by A. B. Habieb et al [14]. Commercial virgin rubber is blended with regenerated EPDM.…”

Section: Regenerated Epdm Compoundmentioning

confidence: 99%

Low-Cost Rubber Compounds for Fiber-Reinforced Elastomeric Isolators: Recovered Powders and Waste Oils From Rubber Manufacturing Processes

Pianese¹,

Milani²,

Habieb³

2021

Proceedings of the 8th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering (COM

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“…This type of rubber compound, made of natural rubber (NR), guarantees a good performance in terms of energy dissipation (Figure 1), but at the same time, it is vulnerable to quick aging. To protect the HDR, it has been considered a second rubber compound used as ring for each pad, namely a reactivated EPDM made with 2/3 of regenerated rubber and 1/3 of virgin rubber [8,9,10] which shows good performances even under aging effects (Figure 2). In Figure 3 it's possible to see the single rubber pad, made of an EPDM frame (Green) with a thickness of 5 mm, and the core (65x65 mm 2 ) of HDR (Red).…”

Section: Rubber Mechanical Propertiesmentioning

confidence: 99%

“…Figure2: Stretch-stress (a) and relaxation curves (b) of reactivated EPDM, before and after aging[9] …”

mentioning

confidence: 99%

Fe Modeling of a Seismic Isolator Made of HDR and Regenerated Epdm

Pianese¹,

Formisano²

2021

Proceedings of the 8th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering (COM

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Losses and damages induced by strong earthquakes are a dramatic reality worldwide. As a consequence, the implementation of innovative protection strategies for both existing and new constructions is of key societal importance. Elastomeric isolators are special devices for seismic isolation of structures. Typically, they are made of alternate layers of steel or fiber reinforced laminas and rubber and they are interposed between the ground and the foundation in order to increase the natural period of the structure and reduce the inertia forces to apply in case of an earthquake. This study proposes a detailed 3D FE modelling of isolators conceived for low-rise masonry buildings in developing countries, carried out through the FE software code Abaqus. The isolator under study consists of an energy dissipation core made by relatively High Damping Rubber and an external EPDM ring. In addition, in order to reduce the production cost and allow its applicability in developing countries, it presents unbonded boundary conditions. In fact, the upper and lower edges do not exhibit any bond with the supports. The main feature of such a device is the large deformability thanks to the rollover deformation and the favorably lower lateral stiffness compared to the bonded isolator.

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“…Therefore, these technologies are the most promising disposal methods for scrap tires, and they are also the best choice to achieve sustainable utilization of scrap tire resources. [ 12–14 ]…”

Section: Introductionmentioning

confidence: 99%

Preparation and characterization of maleic anhydride‐grafted desulfurization rubber powder by free‐radical polymerization

Kong

Chen

et al. 2021

Polymer Engineering & Sci

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The objective of the article was to enhance the recycling value of solid waste rubber by surface functionalization of desulfurized rubber powder using a one‐pot method based on free‐radical polymerization theory. Fourier transform infrared spectroscopy, X‐ray photoelectron spectroscopy, thermogravimetric analysis, scanning electron microscopy, and elemental analysis were used to characterize the maleic anhydride‐grafted desulfurized rubber powder, and the grafting mechanism was also investigated. Fourier transform infrared spectroscopy and X‐ray photoelectron spectroscopy confirmed that maleic anhydride was grafted onto the desulfurized rubber powder. Thermogravimetric analysis indicated that the maleic anhydride‐grafted desulfurized rubber powder and desulfurized rubber powder possessed different thermal properties and structure. The results of scanning electron microscopy and elemental analysis illustrated that the surface of the desulfurized rubber powder was covered with a layer of fold‐like maleic anhydride polymer. The mechanism of grafting desulfurized rubber powder with maleic anhydride may be achieved by replacing the active α‐H on the methylene group of the desulfurized rubber macromolecule chain.

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Numerical study on rubber compounds made of reactivated ethylene propylene diene monomer for fiber reinforced elastomeric isolators

Cited by 32 publications

References 33 publications

Low-Cost Rubber Compounds for Fiber-Reinforced Elastomeric Isolators: Recovered Powders and Waste Oils From Rubber Manufacturing Processes

Low-Cost Rubber Compounds for Fiber-Reinforced Elastomeric Isolators: Recovered Powders and Waste Oils From Rubber Manufacturing Processes

Fe Modeling of a Seismic Isolator Made of HDR and Regenerated Epdm

Preparation and characterization of maleic anhydride‐grafted desulfurization rubber powder by free‐radical polymerization

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