Mustaqqim Abdul Rahim
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Preferred name
Mustaqqim Abdul Rahim
Official Name
Mustaqqim, Abdul Rahim
Alternative Name
Abdul Rahim, Mustaqqim
Abdul Rahim, M.
Rahim, Mustaqim Abdul
Rahim, M. Abdul
Mustaqqim, Abdul Rahim
Rahim, Mustaqqim Abdul
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Scopus Author ID
56353069700
Researcher ID
IRA-4259-2023

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  • Publication
    Investigating the effect of steel wire and carbon black from worn out tyre on the strength of concrete
    ( 2024-10)
    Norlia Mohamad Ibrahim
    ;
    Ali Naqiuddin Zamah Shari
    ;
    Nur Zakiah Anis Abdul Rahim
    ;
    Nur Liza Rahim
    ;
    Mustaqqim Abdul Rahim
    ;
    Roshazita Che Amat
    ;
    Norshah Aizat Shuaib
    ;
    György Deak
    Technology in concrete is rapidly developing to improve the quality and properties of concrete. One of the many recycled materials is worn-out tyres. Currently, the use of tires is very widespread considering the use of vehicles that increase from time to time. Piles of discarded tires can cause a lot of damage to the environment. So, by using steel wire waste (SWW) as new fiber reinforcement in concrete and with the combination with carbon black (CB), it is hoped that, by doing this, not only it could improve the quality of concrete, but also preserves the environment. Therefore, the objective of this research was, to identify the properties of fresh concrete with the addition of SWW and CB, and also to investigate the physical and mechanical properties of hardened concrete, incorporating of SWW as additional fiber reinforcement and CB. For fresh concrete, workability using a slump test was conducted. Several tests were carried out on the properties of hardened concrete. Among them were compressive strength, flexural strength, splitting tensile strength, and water absorption. The physical appearance of the concrete has also been examined and recorded. There are four batches of concrete which consist of one control batch and three batches of concrete with various weights of SWW which are in the portion of 300 g, 600 g, and 900 g, and the weight of CB is maintained at 300 g for all batches. For workability, all concrete batches with the addition of SWW and CB show acceptable workability. For the case of the density of fresh concrete, samples containing 900 g addition of SWW have the highest density which was 2520 kg/m³, as expected. Results for water absorption show that the lowest value is contributed by the control sample which was 7.6%. For compressive and flexural strength, 300 g addition of SWW has the highest value which was 28.52 MPa for compressive strength and 7.52 MPa for flexural strength. Lastly, for splitting tensile strength, the highest value was also obtained when 300 g addition of SW was added which was 5.4 MPa. To conclude, SWW and CB can be added to concrete to obtain comparable strength of concrete. However, some modifications could be made to both recycle materials to improve concrete performance.
  • Publication
    Effects of trans-polyoctylene rubber in polypropylene/recycled acrylonitrile butadiene/rice husk powder composites
    ( 2014)
    Ragunathan Al Santiagoo
    ;
    Sam Sung Ting
    ;
    Azlinda Abdul Ghani
    ;
    Kamarudin Hussin
    ;
    Hanafi Ismail
    ;
    Mustaqqim Abdul Rahim
    ;
    Zuhayr Md Ghazaly
    Composites of polypropylene/Acylonitrile butadiene rubber/Rice husk powder/ (PP/NBRr/RHP) with and without trans-polyoctylene rubber (TOR) were prepared, and the effects of trans-polyoctylene rubber were investigated. By using rice husk powder of 150300μm, five different compositions of PP/NBRr/RHP composites (i.e.100/0, 80/20, 70/30, 60/40 and 40/60 phr) were prepared in an internal mixer at 180 °C and 50 rpm rotor speed. The results indicate that the incorporation of TOR improved the tensile properties of PP/NBRr/RHPcomposites. Scanning electron microscopy of the fractured surfaces proved that TOR promoted good adhesion between the PP-NBRr matrices and RHP.
  • Publication
    The behaviours of steel fiber as main reinfocement in high performance slurry infiltrated fiber reinforced concrete
    ( 2013)
    Mustaqqim Abdul Rahim
    ;
    Zuhayr Md Ghazaly
    ;
    Ragunathan Al Santiagoo
    ;
    Shahiron Shahidan
    Concrete is a structure that very weak in tension and need additional material to enhance their structural capacity. In 18thcentury, concrete have been recognized as structure that very weak in tension [. Thus, concrete need additional supporting material that can improve the tension capacity. Because of the steel is very good in tension, the steel bar was embedded in concrete at the tensile stress area to obtain the full capacity of the steel bar as reinforcement.
  • Publication
    A study on the potential of geopolymer artificial aggregate as substitute for granite and limestone aggregate
    ( 2020-06-10)
    Mohd Badrul Hisyam Ab Manaf
    ;
    Abdul Razak R.
    ;
    Muhamad K.
    ;
    Mustaqqim Abdul Rahim
    ;
    Ahmad M.M.
    ;
    Hao T.P.
    The aim of this research is to determine the potential of geopolymer artificial aggregate as substitute for granite and limestone aggregates. Several aggregate property test such as aggregate impact test, aggregate crushing test, specific gravity test, water absorption test and the Los Angeles Abrasion test are done on the aggregates. The fly ash-based geopolymer artificial aggregate is produced through geopolymerisation by mixing fly ash with alkaline solution. The results show that the fly ash-based geopolymer artificial aggregate is lighter than natural aggregate in term of its specific gravity. The impact value and crushing value for fly ash-based geopolymer artificial aggregate are slightly higher compared to natural aggregate while the water absorption value is much higher compared to natural aggregate. Furthermore, the fly ash-based geopolymer artificial aggregate has higher value in the Los Angeles Abrasion. Overall, the fly ash-based geopolymer artificial aggregate can be considered as one of the construction materials in the roadwork pavement and in concrete as an alternative for coarse aggregate besides natural aggregate with more lightweight properties.
  • Publication
    Physical behaviours of maximum loading and cracking for slurry infiltrated fibre reinforced concrete
    ( 2020-06-10)
    Mustaqqim Abdul Rahim
    ;
    Zahirah A.
    ;
    Shahidan S.
    ;
    Mohd Badrul Hisyam Ab Manaf
    ;
    Shamshinar Salehuddin
    ;
    Zuhayr Md Ghazaly
    ;
    Afizah Ayob
    ;
    Nor Faizah Bawadi
    ;
    Shamilah Anudai @ Anuar
    ;
    Ahmad A.N.A.
    Concrete prisms are being test with flexural testing by different percentage volume of steel fibres. The total number of 24 prisms were made which contain 3 %, 6 % and 9 % of steel fibres respectively. This only consist experimental results. Specimens used in this study using a prism mold of 100 mm x 100 mm x 500 mm. Eighteen prisms will be added with a layer of 10 mm of steel fibre using slurry method. All of the samples were tested using flexural testing to determine the maximum loading. The highlight scope of this research is to evaluate the physical behavior of Slurry Infiltrated Fibre Reinforced Concrete in term of maximum load and cracking pattern. The results of the study were also compared with concrete without steel fibres. However, the workability of the concrete decreased as the number of steels fibre increase. The maximum load was obtained by the lowest percentage of steel fibre (3%).
  • Publication
    Awareness of the Seismic Effect on Existing High-rise Building in Georgetown Penang
    ( 2024)
    Shamilah Anudai @ Anuar
    ;
    Nurul Nabila Mohd Salleh
    ;
    Mustaqqim Abdul Rahim
    ;
    Nor Faizah Bawadi
    Abstract A seismic event is unpredictable and may occur worldwide depending on the movement of the fault line. The impact of this phenomenon on society, structures, sources and surroundings is significant to be investigated. Thus, this study aims to investigate the seismic awareness level and input information among Malaysians. Several far-field seismic activities in Malaysia have triggered some high-rise buildings, including residential and commercial ones. Due to this situation, the occupants started to worry about their safety living in high-rise buildings designed without seismic considerations. The most important initial step is to investigate the awareness level among the occupants. A survey has been conducted in Georgetown, Pulau Pinang area involving 208 respondents. Findings indicate the respondents have limited experience with seismic events in Malaysia and were never exposed to seismic information. Less than 50% declared to have adequate knowledge about seismic. Only 31.25% of the respondents were exposed to the seismic information. Respondents agree that Malaysia should apply a seismic code of practice for all construction buildings. Most respondents believe that preparation for upcoming seismic activities is still insufficient, and all new buildings should have seismic safety certificates in the future for seismic resistance.
  • Publication
    Experimental Investigation on the Effectiveness of Truss-Shaped Punching Shear Reinforcement in Flat Slab
    ( 2022-07-18)
    Shamshinar Salehuddin
    ;
    Zaini S.S.
    ;
    Johari M.A.M.
    ;
    Nur Liza Rahim
    ;
    Mustaqqim Abdul Rahim
    The use of reinforced concrete flat slabs in building construction increases the floor-to-floor clearance, expedites site operations, and offers aesthetically rewarding features. However, punching shear failure in a flat slab is brittle in nature and can be potentially catastrophic. Many studies have been conducted to improve the punching shear capacity of flat slabs but some of the proposed punching shear reinforcements were complicated and costly. This research aimed to evaluate the effectiveness of a simple and cost-effective; truss-shaped punching shear reinforcement embedded in a 1200 mm × 1200 mm × 175 mm thick flat slab specimen. Three types of truss-shaped punching shear reinforcements were prepared. All specimens were supported at the edges and subjected to gravity load tests. The results showed that the introduction of truss-shaped punching shear reinforcement increased the punching shear capacity in the range of 7.71% to 21.47%. The maximum deflection of these specimens exhibited an insignificant increase compared to the control specimen, suggesting that punching failure governed the ultimate behavior. The additional strength offered by truss-shaped punching shear reinforcement makes flat slabs as a construction material more appealing because they allow them to withstand higher design loads.
  • Publication
    Stress Intensity and Crack Pattern of Reinforced Concrete Beam Embedded with Lightning Protection Cable
    ( 2020-07-09)
    Mustaqqim Abdul Rahim
    ;
    Syazwani Karuddin A.
    ;
    Afizah Ayob
    ;
    Nur Aizat Ahmad A.
    ;
    Shahidan S.
    ;
    Salwa Mohd Zuki S.
    The reinforced concrete beam with lightning protection cable used in this research to determine the stress intensity and crack pattern of the beam. In this research, commercially available software developed by ANSYS used to model the nonlinear behaviour of reinforced concrete beams. The beam will model by using the ANSYS parametric design language (APDL). The beam structure was modelling in 3D geometry with the reinforcement steel bar and lightning cable embedded in the reinforced concrete beam structure. The material uses to develop the beam are Grade 30 concrete and high yield steel for main reinforcement. The material for lightning cable used was galvanized steel iron, which is highly resistance to corrosion and oxidation. The beam model in simply supported with pinned support at two end of beam and three-point load is applied. From the result beam added with lightning cable at bottom can sustain a higher stress intensity compare to the beam without additional lightning cable and beams without lightning cable have developed largest crack compared to the beam with lightning cable.
  • Publication
    Improving the warehouse operation by implementing lean warehousing
    (AIP Publishing Ltd., 2023)
    Ahmad Nur Aizat Ahmad
    ;
    Md Fauzi Ahmad
    ;
    Norhadilah Abdul Hamid
    ;
    Lee Tee Chuan
    ;
    Mohd Kamarul Irwan Abdul Rahim
    ;
    Gusman Nawanir
    ;
    Adnan Bakri
    ;
    Mustaqqim Abdul Rahim
    The growing interest of customers towards online shopping have given a good impact to the e-commerce platform nowadays especially during this pandemic which have a strict limitation of movement among citizen in Malaysia. However, some issue regarding the courier services have arisen regarding the poor service quality that customers received recently and some issue related to warehouse operation arises in certain situation such as product delay, product defects, and short space for inventory placement which create lower productivity and service performance. In order to overcome this situation, this study identified the implementation of lean warehousing in improving service productivity performance in courier company. This research will be focusing on the courier services company that available in Malaysia Delivery Express X is selected as it is one of the courier services that frequently used by customers as a platform to delivers their parcels. This research been conducted using qualitative method which the data been collected by interviewing the respondent and the data gathered is analyzed using Arena Simulation Software. The finding shows what is the best alternative used to improve the service productivity performance of courier service. From this research, the courier service industry can make use of the finding for future purposes and future researcher can explore more about the lean warehousing in courier service industry. Its shows the reduction of time from the research is 8.2% improvement.
  • Publication
    Viability Study on Fly Ash and Bottom Ash from Combustion Waste
    ( 2023-01-01)
    Norlia Mohamad Ibrahim
    ;
    Mohamed S.A.
    ;
    Roshazita Che Amat
    ;
    Nur Liza Rahim
    ;
    Zailani W.W.A.
    ;
    Mustaqqim Abdul Rahim
    ;
    Laslo L.
    ;
    Khairul Nizar Ismail
    The substitution or addition of new supplementary cementitious materials (SCM) in the production of variety of construction materials has gained much interest. One of the examples of SCM is incineration ash which consist of fly ash (FA) and bottom ash (BA) which are the residues from the ignition of biomass and can brings applicable ecological advantages. However, the properties of this new materials need to be investigated to ensure its full potential can be developed. Therefore, this study is initiated to identify the characteristics of incineration ash from local source in Malaysia. To identify the elemental components of ashes, most widely method was adopted which is using X-Ray Fluorescence (XRF). The quantity of unburned carbon in fly ash is measured by loss on ignition, which has a major influence on the product's characteristics. In addition, specific gravity and density were also determined and comparison has been made with cement. In this study it was found out that XRF results shows that both FA and BA consist of the same mineral composition with OPC majorly in silica, aluminium, calcium, and iron which makes is suitable to be used in the concrete. For LOI, the value for BA is much higher compared with FA due to the amount of unburnt carbon in its original compositions and the incomplete burning due to insufficient contact time in the furnace. Based on the result obtained for LOI, the average LOI value for FA and BA is 17.33 % and 44.67 %, respectively. As expected, for the specific gravity and density, FA having the lowest specific gravity and density. The density obtained for FA is 755 kg/m3 and for BA is 593 kg/m3. Overall, the use of incineration ash can be fully investigated by exploring other parameter that influence the performance of construction materials.
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