Muhamad Farizuan Rosli
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Preferred name
Muhamad Farizuan Rosli
Official Name
Muhamad Farizuan , Rosli
Alternative Name
Rosli, Mohd Farizuan
Farizuan, M. R.
Rosli, M. F.
Farizuan, R. M.
Main Affiliation
Scopus Author ID
57220942871
Researcher ID
FVH-3641-2022

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  • Publication
    Non flow process ultra high temperature (UHT) boiler application to dadih processes
    ( 2019-07-30)
    Irfan Abd Rahim
    ;
    Muhamad Farizuan Rosli
    ;
    Shayfull Zamree Abd. Rahim
    ;
    Mohammad M.A.H.
    ;
    Azlida A.
    ;
    Radhwan Hussin
    The 'dadih' and milk factory is kind of a small factory and it is called as SME (Small and Medium Enterprise). The purpose of visiting to these factories is to find out the main problem faced by the factories currently. Through a series of analysis such as questionnaire, interview and also observation, the problems are found. According to the factories visited, the cooking method by the factories are varies. Some of the factories are using the traditional method which is cooking by using gas stove and some are using semi-automated boiler. However, the boiling point of the traditional cooking method is around 100°C and it is not able to kill the milk spores in the milk products. A high temperature (135°C-150°C) to cook the milk products in short time (3s-5s) is the basic requirement to kill the milk spores in the milk products. The milk spores are the main reason to shorten the life span of the milk products. According to the information provided by the factory, the life span of 'dadih' produced by using the traditional method are very short which is maximum 2 or 3 weeks if it is refrigerated. In other words, if the products are placed in a normal room temperature, it will not last more than 4 hours. The problem is those factories are intended to buy a UHT boiler but the existing boiler in the market is too big and too expensive which is not suitable and affordable by Small and Medium size (SME) companies.
  • Publication
    Redesign of drone remote control using design for manufacturing and assembly (DFMA) method
    ( 2019-07-30)
    Xin T.J.
    ;
    Muhamad Farizuan Rosli
    ;
    Radhwan Hussin
    ;
    Shayfull Zamree Abd. Rahim
    ;
    Mohd Fathullah Ghazli@Ghazali
    "The redesign of drone remote control using DFMA method" is a case study to analyze and redesigned the controller product through its assembly process in term of manual handling time, manual insertion time, total assembly time, design efficiency of the design and manufacturing method for the design. The components and manufacturing of the drone remote control were undergone alteration with design for manufacturing and assembly (DFMA) and redesigned methods. The main focuses of this research are to analyze the current design efficiency of drone remote control and improved the design efficiency. At the same time, the redesign was applied to existing model under the same platform. As a result, the assembly time for redesign showed an improvement of 24.93% where the assembly time was reduced from 480.56 s to 360.79 s and design efficiency was increased 1.66% from 4.99% to 6.65%. Therefore, the best design with optimal value is accomplished.
  • Publication
    Analysis of torchlight using engineering analysis tools
    ( 2021-05-03)
    Mohd. Hazwan Mohd. Hanid
    ;
    Muhamad Farizuan Rosli
    ;
    Wan Abdul Rahman Assyahid Wan Ibrahim
    ;
    Radhwan Hussin
    ;
    Ahmad S.A.S.
    ;
    Ting Hua Jui
    ;
    Nur Ainin Faissal
    ;
    Nurafzarini Mohd Rusdi
    ;
    Nor Syahirah Mat Piah
    The objective of this paper to improve the design of the torchlight when holding the torchlight and to increase the durability of the torchlight against water by using the float materials. The torchlight also has been analysed using Design for Manufacturing Assembly (DFMA), Failure Modes and Effect Analysis (FMEA), and Sustainability Analysis in order to provide better product.
  • Publication
    Optimization parameter effects on the quality surface finish of the three-dimensional printing (3D-printing) fused deposition modeling (FDM) using RSM
    ( 2019-07-30)
    Radhwan Hussin
    ;
    Shayfull Zamree Abd. Rahim
    ;
    Muhamad Farizuan Rosli
    ;
    Effendi M.S.M.
    ;
    Irfan Abd Rahim
    Fused Deposition Modeling (FDM) is an additive manufacturing technology which is used to print the 3D (Three-Dimensional) object. It has relatively low surface qualities that will affect the performance of the printed part. Thus, this research has been done to analyze the selected parameter effect on the quality surface finish of the 3D printing objects and find the optimum response of processing parameters using Response Surface Methodology (RSM). In order to predict the surface roughness, three parameters have been chosen which are layer thickness, print speed and fill density. The relations among responses and process parameters are determined and their validity is proved using Analysis of Variance (ANOVA). Then, the response surface plots are analyzed to establish main factor effects and their interaction on responses. The confirmation experiment has been carried out with the response optimizer to get the optimum parameter of the surface finish quality. Based on the results obtained, the surface roughness is mainly affected by the layer thickness compared to the fill density and print speed.
  • Publication
    Analysis performance on original Wing 2 HLK168 drone controller using DFMA approach
    ( 2019-07-30)
    Farahin K.
    ;
    Muhamad Farizuan Rosli
    ;
    Radhwan Hussin
    This project explores the design enhancements by applying the techniques of Manufacturing and Assembly Design (DFMA). This project explores the design enhancements by applying the techniques of Manufacturing and Assembly Design (DFMA). The drone control components were isolated to obtain data. By using the Boothroyd-Dewhurst method, the data obtained will be analyzed to verify the design efficiency during manual handling and manual insertion time. Using the Computer Aided Three-Dimensional Application (CATIA) software, the components of the original and improvement products were separated and drawn. The data next that have been generated by differentiate these two products is next been analysed. Through the analysis, the results tell that the design efficiency of enhancement product is better than the existing design. This is because of the reducing in number of parts, manual handling and manual insertion times and also due to the design costs. Finally, the improvement in the design of the drone control can meet the needs of consumers and may providing satisfaction to them.
  • Publication
    Redesign of bahulu production layout to improve the efficiency of process flow
    ( 2019-07-30)
    Radhwan Hussin
    ;
    Shayfull Zamree Abd. Rahim
    ;
    Muhamad Farizuan Rosli
    ;
    Effendi M.S.M.
    ;
    Irfan Abd Rahim
    This research presents the optimum efficiency improvement of process flow by redesigned the production layout using facility planning methods in a company producing traditional cakes which are bahulu that currently have bottleneck issue, inefficient flow and unnecessary excess movement between activities. The objectives of this study to improve the current plant layout by redesigned it with increasing the production efficiency and productivity of the company. To achieve this aim, there are several layouts generated using Systematic Layout Planning (SLP) and Graph-Based Theory (GBT) and the Efficiency Rate (ER) of each layout was calculated. The layout with the highest rate was then selected and validated by using WITNESS software. The result showed that the ER of the selected layout improved from 74.49% to 93.40% and also increased the productivity and reduced the processing time up to 10%. The described case study will show how the efficiency and productivity of a real manufacturing system can be improved by redesign layout.
  • Publication
    Analysis particle trajectory and air flow on hopper for swiftlet feeding machine using computational fluid dynamics (CFD)
    ( 2019-07-30)
    Radhwan Hussin
    ;
    Shayfull Zamree Abd. Rahim
    ;
    Muhamad Farizuan Rosli
    ;
    Effendi M.S.M.
    ;
    Irfan Abd Rahim
    Currently, the bird house entrepreneur feeds the bird manually, and there is the opportunity to develop the feeding machine for swiftlets with good efficiency. This research is focused on analyzing the flow of the particle for the mechanism of the machine. The methodology of this project includes the collection of data, brainstorming and interprets data, design concept, analysis, fabrication, and testing. The design of the automatic swiftlets feeding machine is using Solidworks software. With this software, the structure can be analyzed to Finite Element Analysis (FEA) directly. The flow of the air from the blower that acts as the mechanism in this machine can be analyzed by using the Computational Fluid Dynamis (CFD) simulation. The result of the analysis is shown in the form of the finite element analysis, particle trajectory of food, and the air flow from the blower.
  • Publication
    FEA: Automatic air freshener dispenser
    ( 2021-05-03)
    Mohd. Hazwan Mohd. Hanid
    ;
    Muhamad Farizuan Rosli
    ;
    Rahman W.
    ;
    Radhwan Hussin
    ;
    Ahmad S.A.S.
    ;
    Khairunnisa Norli
    ;
    Ndrieniza Anak Saini
    ;
    Nur Afifah Mazlan
    ;
    Nuruljannah Omar
    This research focused on the redesign the main body of automatic air freshener dispenser. Automatic air freshener dispenser used for spraying fragrance automatically according to the setting provided. This type of air freshener no need to spray manually, labor saving and more convenient. This automatically air freshener dispenser will automatically spray the fragrance into the whole room space to purify air and remove smelly odor. Other than that, the objectives of this mini project are to redesign the main body of the automatic air freshener dispenser. The design of the automatic air freshener dispenser is using CAD software which is CATIA and then transfer to Finite Element Analysis (FEA) to analyses the capabilities of part design. At the end of this paper, this research will give understanding about design using CATIA Software and do analysis that improved the redesign body of the automatic air freshener dispenser.
      1
  • Publication
    Ergonomic study of X-L wheelchair
    ( 2021-07-21)
    Wan Abdul Rahman Assyahid Wan Ibrahim
    ;
    Shayfull Zamree Abd. Rahim
    ;
    Radhwan Hussin
    ;
    Muhamad Farizuan Rosli
    ;
    Mohd Fathullah Ghazli@Ghazali
    ;
    Murizam Darus
    ;
    Ahmad Humaizi Hilmi
    Wheelchairs have been used widely as the one of the vehicles that are designated purposely to help the disabled patient to easily move around. However, the standard wheelchairs currently available in the market are mostly fit to patients which have average size and can only accommodate the patient with maximum body mass up to 100kg. When a big size or extra-large (XL) patient with body mass more than 100 kg uses this standard wheelchair, they may feel discomfort, cramped as well as restricted movement. Furthermore, the structure of standard wheelchairs may not be safe enough to hold the load of big size patient weight. Therefore, this project is focused to study the appropriate an ergonomic body sizes and dimensions of big patients that body mass ranging from minimum 100kg to maximum 150kg. The investigation is focused on the customer needs as well as anthropometry body measurements. The data was collected from the questionnaires and direct interview among 30 personnel with the body mass in target range. The information gathered then had been used to custom design the XL wheelchair that fulfil the most requirements and having sturdy structure that safety to be used.
      2
  • Publication
    Optimization of heating rate on hybrid microwave sintering of the PM Fe-Cr MMCs reinforced with Al2O3particle
    ( 2021-07-21)
    Wan Abdul Rahman Assyahid Wan Ibrahim
    ;
    Shayfull Zamree Abd. Rahim
    ;
    Radhwan Hussin
    ;
    Muhamad Farizuan Rosli
    ;
    Mohd Fathullah Ghazli@Ghazali
    ;
    Murizam Darus
    This study reports the optimization of heating rate on the microwave sintered Fe-Cr-Al2O3 metal matrix composite (MMC). The heating rate was selected between 10°C/min to 60°C/min with increment of 10°C/min respectively. The samples were fabricated via PM route and microwave sintering was carried out in a tubular microwave furnace HAMiLab-V3 in N2 atmosphere purposely to avoid any oxidation and chemical reaction to samples. The microstructure of sintered samples was evaluated using SEM and bulk density and porosity were determined based on ASTM B962 - 17 and the microhardness were determined based on ASTM E384. The optimized heating rate of the sample was selected based on the micro hardness value and total porosity percentage as well as based on SEM microstructure analysis. The results revealed that the optimum heating rate occurred at 20°C/min due to the highest value of hardness achieved which is about 119.28 HV with at the highest bulk density about 6.07 g/cm3 and at the lowest total porosity about 14.55%. SEM micrographs also showed that the diffusion was mostly effective at 20°C/min heating rate compared to others, indicated that significant grain boundary diffusion of Fe matrix into Al2O3 particle was occurred.
      5  4