Nur Farhana Hayazi
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Nur Farhana Hayazi
Official Name
Nur Farhana, Hayazi
Alternative Name
Hayazi, Nur Farhana
Hayazi, N.F
Nur Farhana Hayazi
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Scopus Author ID
55899042500

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  • Publication
    Creep rupture and thermal shock failures of nickel-based alloy reformer tubes a comparative analysis
    ( 2024-12)
    Nur Farhana Hayazi
    ;
    Junaidi Che Halim
    ;
    Ku Adri Azhan Ku Mohamad
    This paper examines the failures of radiant tubes within a fertilizer plant's steam reforming unit between the creep rupture and thermal shock, encompassing discussions on the characteristics of the failures, microstructural analysis of the failures, the mechanisms of degradation at high temperatures, and forthcoming preventive actions. The primary reformer is where the initial stage of the steam reforming process occurs, involving the downward passage of a preheated hydrocarbon and steam mixture through radiant tubes containing catalysts. The resulting reformed gas, enriched with carbon monoxide, is further processed into ammonia- rich synthesis gas. These radiant tubes, crafted through centrifugal casting and primarily composed of 35% nickel and 25% chromium, operate at temperatures of 9100C. The discovery of a leaking radiant tube necessitated an unscheduled shutdown, with the failure manifesting as an elliptical window-shaped rupture situated 590 mm from the tube's upper end. The affected tube was subsequently removed, and the outlet weldolet was sealed. During an online refractory repair operation, a catalyst tube exhibited a circumferential crack at a location 770 mm from the tube's upper end. At the same time, another catalyst tube was also observed with a longitudinal crack located at 5130 mm from the tube’s upper end. To address these issues, both tubes were isolated from service through crimping at the top inlet hairpin and bottom outlet pigtail. Detailed metallurgical and failure analyses unveiled that one of the failures was initiated by intergranular cracking at the outer diameter, associated with thermal shock-induced cracking, followed by fatigue-driven crack propagation due to thermal stress and cyclic loading. Meanwhile, the other failed tube identified creep as the failure mechanism due to a combination of time, temperature and stress under such extreme operating conditions. The paper further explores the similarities and differences between these two radiant tube failure incidents and associated failure morphology and mechanisms.
  • Publication
    Oxide growth behaviour of 800H and HR-120 series ni-based alloys on isothermal oxidation
    ( 2024-03)
    Nurul Athirah Zainal @ Zaiton
    ;
    Noraziana Parimin
    ;
    Aqmar Ikhmal Anuar
    ;
    Nur Farhana Hayazi
    ;
    Farah Farhana Zainal
    The isothermal oxidation of two types of Ni-based alloy, alloys 800H and HR-120 was investigated in this study. The alloy underwent an isothermal oxidation test at 950 ºC for 150 hours of exposure. Oxdised alloys were tested using oxidation kinetics methods, phase analysis using X-ray diffraction (XRD) and oxide morphology using scanning electron microscopy (SEM) techniques. Oxidation kinetics were determined based on the weight change per surface area of the oxidised alloy over a 30-hour interval. As a result, both alloys displayed a pattern of weight gain as the exposure period increased. Both alloys have followed a parabolic rate law, indicating a controlled kinetics of oxide scale diffusion. XRD analysis showed that the main Cr-containing oxide has formed on the surface of the alloy with the addition of Ti oxide for the 800H alloy and Nb oxide for the HR-120 alloy due to the different alloying element content of the two alloys. Oxide surface morphology records the uniform oxide scale that forms on the surface of the alloy.
  • Publication
    Incoloy 800HT weldolet integrity in hot collector replica testing insights
    ( 2024-12)
    Nur Farhana Hayazi
    ;
    Ku Adri Azhan Ku Mohamad
    ;
    Junaidi Che Halim
    ;
    Shaiful Rizam Shamsudin
    In this paper, the integrity assessment of Primary Reformer’s hot collector weldolet in the fertilizer plant was conducted. It aims to discuss the findings of the relevant weldolet weldments which include dye penetrant test ultrasonic test, in-situ field metallography (replication), hardness measurements and rectification measures. The first step of the steam reforming process takes place in the Primary Reformer, where preheated hydrocarbon and steam mixture is passed downwards through vertical tubes containing catalyst. The hot gas that exited from the catalyst tubes is termed reformed gas and will enter two headers, namely hot and cold collectors. From then, the reformed gas will transform into raw ammonia synthesis gas after undergoing several processes. The facility was commissioned in 2006 and is still in operation. During the Plant Turnaround in 2022, the Primary Reformer’s hot collector weldolet component is categorised as high nickel content material, commercially known as Incoloy 800HT, was detected with circumferential crack at several locations. The operating temperature of the weldolet is 8110C. The observed damage mechanism of the crack was “Aged Phenomenon”. However, at four locations of the weldments, further dye penetrant test (DPT) and metallurgical testing using replica test had observed sigma phase microstructure which is related to sigma phase embrittlement (SPE) without any creep cavity observed. Finally, both occurrences were reported and reviewed.
  • Publication
    Short review: biowaste as a source of silica and Its application as a filler to fabricate the superhydrophobic silica-based coating
    ( 2024-03)
    Nur Fatihah Mohd Fadzil
    ;
    Muhammad Salihin Zakaria
    ;
    Khairul Anwar Abdul Halim
    ;
    Nur Farhana Hayazi
    ;
    Lokman Hakim Ibrahim
    ;
    Razif Muhammed Nordin
    Silica (SiO2) plays a major key ingredient in producing products such as toothpaste, ceramics, and paints, to name a few, as it acts as a stabilizing agent, filler and additive. Due to its excellent properties, the use of high-purity SiO2 in industrial applications is favourable. Unfortunately, high-purity SiO2 is expensive. Tetraethyl Orthosilicate (TEOS) is an example of a SiO2 precursor that is costly and harmful, yet frequently employed. This paper provides a short review of the advantages of biowaste materials as SiO2 precursors and their role as fillers in the fabrication of superhydrophobic coating. Researchers nowadays are attempting to lower the expense of employing high-purity SiO2 by extracting silica from biowaste using many methods such as acid leaching and alkali treatment as this option is highly sustainable. The growth of agricultural industries is exponential due to the increase in biowaste production. Therefore, this is one of the ways to utilize the use of biowaste in combatting the environmental issues regarding excess biowaste and receding pure resources. SiO2 from biowaste also can be utilized as filler and used to develop superhydrophobic coating, providing numerous potential applications.
  • Publication
    Influence of sodium chloride on recycled HDPE in superhydrophobic surface development
    ( 2024-12)
    Thor Keat Seng
    ;
    Muhammad Salihin Zakaria
    ;
    Razif Muhammed Nordin
    ;
    Khairul Anwar Abdul Halim
    ;
    Nur Farhana Hayazi
    ;
    Lokman Hakim Ibrahim
    Inspired by lotus leaf, superhydrophobic surfaces have emerged rapidly in recent years. It is due to its excellence ability in self-cleaning and corrosion protection, to name a few. In this research, a green superhydrophobic surface was constructed on the surface of recycled High-Density Polyethylene (rHDPE) by utilizing Sodium chloride (NaCl) as a water-soluble surface modifying agent. The treatment process is simple,and cost-efficient as it only used rHDPE and NaCl as the main materials with additional chemicals and at the same time leave no impact on the environment. Variation of NaCl grinding period influenced the value of CA by which 240 minutes grinded NaCl displayed highest CA of 161.4°. This may be attributed by the increase of surface roughness as the grinding time increase. Furthermore, the surface morphology, topography, and self-cleaning ability of superhydrophobic surafce were analyzed to further understand the surface characteristics. The anti-sticking and self-cleaning properties were successfully displayed by the superhydrophobic surface thus, showing its potential as an eco-friendly material.
  • Publication
    Effect of primer layer and curing method on geopolymer paste coating properties
    ( 2024-12)
    Farah Farhana Zainal
    ;
    Jie Xin See
    ;
    Noraziana Parimin
    ;
    Nur Farhana Hayazi
    ;
    Sri Hastuty
    This technical paper presents a comprehensive study on the properties of geopolymer coating applied to mild steel pipelines as a potential alternative to Ordinary Portland cement (OPC) concrete structures. The geopolymer paste was formulated using a mixture of fly ash and alkaline activators, specifically sodium hydroxide (NaOH) solution and sodium silicate (Na2SiO3) solution. Two types of primers, epoxy metal primer and self-etch primer were applied before the geopolymer coating and various curing conditions were investigated. The geopolymer samples were subjected to two different curing processes: one set was cured in an oven at 60°C for 24 hours while the other set was left to cure under ambient conditions. After the curing period, the samples were aged at ambient conditions for 28 days. The properties of the fly ash and geopolymer paste were evaluated through a range of tests including phase analysis, morphology analysis, optical emission spectroscopy (OES) analysis, chemical composition analysis and adhesion strength testing. The results revealed that the geopolymer coatings exhibited surface cracks and efflorescence attributed to unreacted sodium oxide. X-Ray diffraction (XRD) analysis confirmed the presence of quartz, hematite, magnetite, aluminum oxide and mullite in the geopolymer coating. The self-etch primercoated samples demonstrated improved adhesion and corrosion resistance properties with a denser and more cohesive microstructure. The geopolymer coating when applied with a self-etch primer and cured at 60°C for 2 hours, achieved the highest adhesion strength of 2.2 MPa, indicating strong bonding with the mild steel pipelines. These findings contribute to the understanding of geopolymer coatings and their potential application in enhancing the performance and durability of mild steel pipelines, offering a sustainable alternative to conventional concrete coatings with improved corrosion resistance and adhesion properties.
  • Publication
    Mineralogical characterizations of Langkawi ilmenite ore for carbothermal reduction
    ( 2022-01-01)
    Mohammed A.I.
    ;
    Nur Farhana Diyana Mohd Yunos
    ;
    Muhammad Asri Idris
    ;
    Zul Azhar Zahid Jamal
    ;
    Nur Farhana Hayazi
    ;
    Nomura T.
    The mineralogical characterizations of Langkawi’s ilmenite were investigated using XRD, XRF and SEM/EDS for morphological analysis. The minerals mainly consisted the phases of FeTiO3, Fe3O4 and TiO2 and Rietveld refinement indicated that the ore contained 35.85% of TiO2 and 26.52% of Fe3O4. The amount of the elements calculated form the quantitative and XRF analysis are reliable and in acceptable ranges. The morphology of the ore showed that the ore is formed mainly in sub-rounded grains with titanium and iron as main elements. The ore was categorized as a low-grade ore, but it can be upgraded for TiO2 production using carbothermal reduction reactions, where the results of XRD, XRF, SEM showed extractable amount of TiO2 more than 32wt%.
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