Zarina Itam scite author profile

The versatility of polymeric materials as healing agents to prevent any structure failure and their ability to restore their initial mechanical properties has attracted interest from many researchers. Various applications of the self-healing polymeric materials are explored in this paper. The mechanism of self-healing, which includes the extrinsic and intrinsic approaches for each of the applications, is examined. The extrinsic mechanism involves the introduction of external healing agents such as microcapsules and vascular networks into the system. Meanwhile, the intrinsic mechanism refers to the inherent reversibility of the molecular interaction of the polymer matrix, which is triggered by the external stimuli. Both self-healing mechanisms have shown a significant impact on the cracked properties of the damaged sites. This paper also presents the different types of self-healing polymeric materials applied in various applications, which include electronics, coating, aerospace, medicals, and construction fields. It is expected that this review gives a significantly broader idea of self-healing polymeric materials and their healing mechanisms in various types of applications.

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Introduction of discrete phase model (DPM) in fluid flow: A review

Zahari¹,

Zawawi²,

Sidek³

et al. 2018

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Numerical Simulation on the Statics Deformation Study of Composite Cross Arms of Different Materials and Configurations

Mohamad

Syamsir

Itam

et al. 2019

IOP Conf. Ser.: Mater. Sci. Eng.

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This study focuses on the deformation of cross arms made from composite material under static loading. Two materials properties of fiberglass with are assigned to the cross arms model and it is subjected to a load at the one end of the cross arms. A bracing support is then installed, and the deformation and stress experienced by the cross arms are observed and compared with the case where no bracing support is used. The results obtained show that material B has lower deformation value, but experienced greater stress compared to material A. The bracing managed to reduce the total deformation by about 12% and 20% for material A and B respectively. The reduction of stresses experienced by the cross arms ranges from 4% to 30%.

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Sustainable Development Perspectives of Solar Energy Technologies with Focus on Solar Photovoltaic—A Review

et al. 2022

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This study examines the sources of energy related carbon dioxide (CO2) emissions, the hazards of climate change and greenhouse gas (GHG) emissions, the global solar energy potential, renewable energy sustainability indicators, impediments, and the environmental implications of fossil fuels. The purpose of this study is to investigate viewpoints on solar energy technologies for sustainable development, with a particular emphasis on photovoltaic (PV), as well as the literature on solar energy technology performance, in order to ascertain worldwide solar energy adoption trends. The discussions address the solar industry’s fundamental ideas, the global energy scenario, the highlights of research conducted to improve the solar industry, prospective applications and future challenges for a more efficient solar industry that may help alleviate the energy crisis. A review of the framework and development of Renewable Energy Sources (RES) and Renewable Energy Laws (REL) on a global scale was conducted.

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Thermo-Physical Properties of Graphite powder and Polyethylene Modified Asphalt Concrete

Ahmad¹,

Al-Dala’ien²,

Beddu³

et al. 2021

Eng. Sci.

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Zarina Itam

The Versatility of Polymeric Materials as Self-Healing Agents for Various Types of Applications: A Review

Introduction of discrete phase model (DPM) in fluid flow: A review

Numerical Simulation on the Statics Deformation Study of Composite Cross Arms of Different Materials and Configurations

Sustainable Development Perspectives of Solar Energy Technologies with Focus on Solar Photovoltaic—A Review

Thermo-Physical Properties of Graphite powder and Polyethylene Modified Asphalt Concrete

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