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  1. Nurul Reffa Azyan, N., Norkhairunnisa, M., Tay, C.H., Azmah Hanim, M.A.
    MyJurnal
    Dispersibility of nanoparticles is the key problem in nanotechnology industries, and thus warrants
    attention on the techniques of dispersion. This review paper presents dispersibility of treated nanoparticles
    in polymer resin. Dispersibility of nanoparticles in polymer media is crucial in order to enhance the
    mechanical and thermal properties of nanocomposite. This paper concentrates on several preparations
    on how to incorporate nanoparticles in polymer to overcome the problem described in this review. A
    few techniques are discussed in this paper such as by using ultra sonication or even directly mixing
    nanoparticles into polymer matrix.
  2. Azmah Hanim, M.A., Mohamad Aznan, M.N., Muhammad Raimi, R., Muhammad Azrol Amin, A.
    MyJurnal
    The formation of intermetallic compound (IMC) layer at the interfaces of pad finishes has been studied.
    The growth of IMC layer as a reflow process and its properties were also discussed. In this study, solder
    alloy SAC237 (Sn: 99 wt.%, Ag: 0.3 wt.%, Cu: 0.7 wt.%), reinforced with 0.01 wt.% Multi-Walled
    Carbon Nanotubes (MWCNTs), was mixed to form a composite solder paste and soldered on Electroless
    Nickel Immersion Gold (ENIG) and Immersion Tin (ImSn) pad finishes. Reflow process was conducted
    in oven with specific reflow profile. The growth and properties of IMC layer were analysed using optical
    microscope with image analyser. Results showed that the thickness of IMC layer for ENIG and ImSn
    were 1.49 and 2.51 µm, respectively. Floating IMC and voids within the solder bulk and IMC layer
    were also identified in the samples. In addition, the measured wetting angle for ENIG and ImSn were
    16.21° and 34.32°, respectively.
  3. Nima Ghamarian, Azmah Hanim, M.A., Nahavandi, M., Zulkarnain Zainal, Lim, Hong Ngee
    MyJurnal
    In the recent years, electronic packaging provides significant research and development challenges
    across multiple disciplines such as performance, materials, reliability, thermals and interconnections.
    New technologies and techniques frequently adopted can be implemented in soldering alloys of
    semiconductor sectors in terms of optimisation. Wetting contact angle or wettability of solder alloys
    is one of the important factors which has got the attention of scholars. Hence in this study, due to the
    remarkable similarity over classical solder alloys (Pb-Sn), Bi-Ag solder was investigated. Data were
    collected through the effects of aging time variation and different weight percentages of Ag in solder
    alloys. The contact angle of the alloys with Cu plate was measured by optical microscopy. Artificial
    neural networks (ANNs) were applied on the measured datasets to develop a numerical model for further
    simulation. Results of the experiments and simulations showed that the coefficient of determination (R2
    )
    is around 0.97, which signifies that the ANN set up is appropriate for the evaluation.
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