Nik Intan Nik Ismail scite author profile

The effect of different types of multiwall carbon nanotubes (MWCNTs) on the morphological, magnetic and viscoelastic properties of magnetorheological elastomers (MREs) are studied in this work. A series of natural rubber MRE are prepared by adding MWCNTs as a new additive in MRE. Effects of functionalized MWCNT namely carboxylated MWCNT (COOH-MWCNT) and hydroxylated MWCNT (OH-MWCNT) on the rheological properties of MREs are investigated and the pristine MWCNTs is referred as a control. Epoxidised palm oil (EPO) is used as a medium to disperse carbonyl iron particle (CIP) and sonicate the MWCNTs. Morphological and magnetic properties of MREs are characterized by field emission scanning electron microscopy (FESEM) and vibrating sample magnetometer (VSM), respectively. Rheological properties under different magnetic field are evaluated by using parallel plate rheometer. From the results obtained, FESEM images indicate that COOH-MWCNT and CIP have better compatibility which leads to the formation of interconnected network in the matrix. In addition, by adding functionalized COOH-MWCNT, it is shown that the saturation magnetization is 5% higher than the pristine MWCNTs. It is also found that with the addition of COOH-MWCNT, the magnetic properties are improved parallel with enhancement of MR effect particularly at low strain amplitude. It is finally shown that the use of EPO also can contribute to the enhancement of MR performance.

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Enhancement of Particle Alignment Using Silicone Oil Plasticizer and Its Effects on the Field-Dependent Properties of Magnetorheological Elastomers

Khairi

Fatah

Mazlan

et al. 2019

IJMS

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The existing mold concept of fabricating magnetorheological elastomer (MRE) tends to encounter several flux issues due to magnetic flux losses inside the chamber. Therefore, this paper presents a new approach for enhancing particle alignment through MRE fabrication as a means to provide better rheological properties. A closed-loop mold, which is essentially a fully guided magnetic field inside the chamber, was designed in order to strengthen the magnetic flux during the curing process with the help of silicone oil (SO) plasticizers. The oil serves the purpose of softening the matrix. Scanning electron microscopy (SEM) was used to observe the surface morphology of the fabricated MRE samples. The field-dependent dynamic properties of the MREs were measured several ways using a rheometer, namely, strain sweep, frequency sweep, and magnetic field sweep. The analysis implied that the effectiveness of the MRE was associated with the use of the SO, and the closed-loop mold helped enhance the absolute modulus up to 0.8 MPa. The relative magnetorheological (MR) effects exhibited high values up to 646%. The high modulus properties offered by the MRE with SO are believed to be potentially useful in industry applications, particularly as vibration absorbers, which require a high range of stiffness.

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Implementation of functionalized multiwall carbon nanotubes on magnetorheological elastomer

et al. 2018

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Fabrication and investigation on field-dependent properties of natural rubber based magneto-rheological elastomer isolator

Wahab

Mazlan

Ubaidillah

et al. 2016

Smart Mater. Struct.

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This study presents a laminatedmagnetorheological elastomer (MRE) isolator which applies to vibration control in practice. The proposed isolator is fabricated with multilayer MRE sheets associated with the natural rubber (NR) as a matrix, and steel plates. The fabricated MRE isolator is then magnetically analysed to achieve high magnetic field intensity which can produce high damping force required for effective vibration control. Subsequently, the NR-based MRE specimen is tested to identify the field-dependent rheological properties such as storage modulus with 60 weight percentage of carbonyl iron particles. It is shown from this test that the MR effect of MRE specimen is quantified to reach up to 120% at 0.8 T. Following the design stage, the electromagnetic simulation using the finite element method magnetic (FEMM) software is carried out for analysing the magnetic flux distribution in the laminated MRE isolator. The laminated MRE isolator is then examined to a series of compression for static and dynamic test under various applied currents using the dynamic fatigue machine and biaxial dynamic testing machine. It is shown that the static compression force is increased by 14.5% under strong magnetic field compared to its off-state. Meanwhile, the dynamic compression test results show that the force increase of the laminated MRE isolator is up to 16% and 7% for low and high frequency respectively. From the results presented in this work, it is demonstrated that the fullscale concept of the MRE isolator can be one of the potential candidates for vibration control applications by tunability of the dynamic stiffness.

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A comparative assessment of different dispersing aids in enhancing magnetorheological elastomer properties

Aziz

Mazlan

Ismail

et al. 2018

Smart Mater. Struct.

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In this study, three types of available processing aids; namely naphthenic oil (PTO), light mineral oil (MO) and epoxidised palm oil (EPO), were used as a dispersing agent to investigate the effects of physicochemical and viscoelastic properties of magnetorheological elastomers (MREs). EPO was selected as the natural-based processing aids, and its morphological, magnetic properties, mechanical and rheological properties of EPO based MREs was compared with the petroleum-based dispersing aids such as light MO and PTO at a fixed amount of 10 phr. The results indicated that EPO was the best alternative of dispersing agent for the MRE rather than the light MO and PTO. In addition, the morphological, magnetic and mechanical properties of the MRE suggested that the EPO could promote compatibility and provide a better lubricant property between the rubber molecular and magnetic particles. It has been observed that the field-dependent storage modulus and MR effect of MRE samples were improved with the addition of dispersing aids, where the MR effect of MRE with the EPO has showed the highest performance of 12%.

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