VIDEO NOTES
These video materials are provided to support and enhance the quality of your Final Year Project (FYP).
Design of questionaire by Assoc. Prof. Dr. Azanizawati Ma'aram.
This video explains how to make a good and effective questionnaire. There are some simple mistakes that can cause the questionnaire not give actual results.
This video explains how to make a good and effective questionnaire. There are some simple mistakes that can cause the questionnaire not give actual results.
Planning an experiment by Dr. Desmond Daniel.
This video explains briefly but concisely how students can begin experimental research. It starts with identifying problems, literature review up to the stage of making analysis and conclusions.
This video explains briefly but concisely how students can begin experimental research. It starts with identifying problems, literature review up to the stage of making analysis and conclusions.
CFD simulation for dummies by Dr. Hidayat.
This video explains 7 core procedures of conducting CFD simulation study. Throughout this video, you will understand how to minimize discretization error using mesh refinement study and make proper selection of mesh size that has both an acceptable accuracy and a reasonable computational time.
This video explains 7 core procedures of conducting CFD simulation study. Throughout this video, you will understand how to minimize discretization error using mesh refinement study and make proper selection of mesh size that has both an acceptable accuracy and a reasonable computational time.
Introduction to measurement uncertainty by Dr. Muhammad Faiz Hilmi.
This sharing session is about introduction to measurement of uncertainty special for students who are performing experimental works. Statement of uncertainty should be included in measurement to boost our confidence level regarding the validity of our results. Initially, the uncertainty has been defined in this video. Then, the difference between error and uncertainty has been explained. Finally, the sources of uncertainty have been evaluated.
This sharing session is about introduction to measurement of uncertainty special for students who are performing experimental works. Statement of uncertainty should be included in measurement to boost our confidence level regarding the validity of our results. Initially, the uncertainty has been defined in this video. Then, the difference between error and uncertainty has been explained. Finally, the sources of uncertainty have been evaluated.
Design process in Final Year Project by Dr. Muhamad Fauzi Abd Rased.
In the video, several steps that need to be implemented in a study involving process design, starting from the recognition of needs stage to the prototype and documentation stage.
In the video, several steps that need to be implemented in a study involving process design, starting from the recognition of needs stage to the prototype and documentation stage.
What you should know about internal combustion engine research by Prof. Dr. Mohd Farid Muhamad Said.
This video explains briefly the Chapter of the Results and Discussion. It highlights the important criteria and content that need to be discussed and explained by the students. The video is more on the results of internal combustion engine performances, which include the example of experimental and simulation activities. Students can understand how the raw and analysis data (experimental / simulation) should be presented and what are the main reasons/factors need to be included in the results discussion.
This video explains briefly the Chapter of the Results and Discussion. It highlights the important criteria and content that need to be discussed and explained by the students. The video is more on the results of internal combustion engine performances, which include the example of experimental and simulation activities. Students can understand how the raw and analysis data (experimental / simulation) should be presented and what are the main reasons/factors need to be included in the results discussion.
Material characterization by Dr. Mohd Zamri Mohd Yusop.
This video is the guide for FYP students to choose and select a suitable materials characterization for the FYP. In this video also a few example was given to guide on how to present the materials characterization data with the combination of different materials characterization instruments.
This video is the guide for FYP students to choose and select a suitable materials characterization for the FYP. In this video also a few example was given to guide on how to present the materials characterization data with the combination of different materials characterization instruments.
Wind tunnel testing technique by Assoc. Prof. Dr. Ir. Shabudin Mat.
This video explain the sample procedures for wind tunnel testing techniques carried out in UTM Aerolab.
This video explain the sample procedures for wind tunnel testing techniques carried out in UTM Aerolab.
Conceptual design for biocomposite products by Dr. Muhammad Asyraf.
This video is to help students and instructors with a brief guide on development of conceptual design for biocomposite products. Integrating sustainability in engineering designs is crucial to producing greener products aligned with current market demand. Several steps in a study involving conceptual design along with Design for Sustainability, starting from idea development, concept development to concept selection stage. The contents enable students to grasp adequate concepts and understanding on how conceptual design of biocomposite products is applied in the concurrent engineering process.
This video is to help students and instructors with a brief guide on development of conceptual design for biocomposite products. Integrating sustainability in engineering designs is crucial to producing greener products aligned with current market demand. Several steps in a study involving conceptual design along with Design for Sustainability, starting from idea development, concept development to concept selection stage. The contents enable students to grasp adequate concepts and understanding on how conceptual design of biocomposite products is applied in the concurrent engineering process.
Engine research by Dr. Hasbullah Padzillah.
This video explains some of the research ideas that you could consider if you’re interested in doing engine research for your Final Year Project.
This video explains some of the research ideas that you could consider if you’re interested in doing engine research for your Final Year Project.
Power injection molding by Dr. Najlaa.
This video provides a brief introduction of Manufacturing Process for Powder Injection Molding (PIM) process. Through this video also students may get some ideas on what and how PIM process can be implemented for the Final Year Project.
This video provides a brief introduction of Manufacturing Process for Powder Injection Molding (PIM) process. Through this video also students may get some ideas on what and how PIM process can be implemented for the Final Year Project.
Design of Experiment (DoE) by Dr. Nor Hasrul.
This video explaining about the basic of Design of Experiment. Design of experiments (DOE) is defined as a branch of applied statistics that deals with planning, conducting, analyzing, and interpreting controlled tests to evaluate the factors that control the value of a parameter or group of parameters. It can be applied in any process including experiment and simulation to optimize the factors (input) for specific responses (output).
This video explaining about the basic of Design of Experiment. Design of experiments (DOE) is defined as a branch of applied statistics that deals with planning, conducting, analyzing, and interpreting controlled tests to evaluate the factors that control the value of a parameter or group of parameters. It can be applied in any process including experiment and simulation to optimize the factors (input) for specific responses (output).
Corrosion in biomedical applications by Dr. Abdul Hakim.
This video describes the basic characterizations and available results of the corrosion studies of metal-based materials that functioned as implants in body fluid environment. Since metallic implants work in fluid-flow and harsh biochemical conditions, the corrosion of the metallic implants is inevitable and thus, there is a vital need to study and thoroughly assess the corrosion behaviors of the implants so as not to elicit any harmful effect to the surrounding body tissue while maintaining to provide adequate mechanical integrity over the course corrosion. The advent of biodegradable metals in the metallic implant field has evoked the biomaterials community with their potential ability to completely dissolve in the body once the defective sites have fully healed.
This video describes the basic characterizations and available results of the corrosion studies of metal-based materials that functioned as implants in body fluid environment. Since metallic implants work in fluid-flow and harsh biochemical conditions, the corrosion of the metallic implants is inevitable and thus, there is a vital need to study and thoroughly assess the corrosion behaviors of the implants so as not to elicit any harmful effect to the surrounding body tissue while maintaining to provide adequate mechanical integrity over the course corrosion. The advent of biodegradable metals in the metallic implant field has evoked the biomaterials community with their potential ability to completely dissolve in the body once the defective sites have fully healed.
Stages in simulation study by Dr. Nor Asmaa.
This video shows a brief explanation to students on the stages of simulation study. The simulation is using queueing model as the explanatory example for students to grasp a quick understanding and concept of each stage in the basic methodology of simulation.
This video shows a brief explanation to students on the stages of simulation study. The simulation is using queueing model as the explanatory example for students to grasp a quick understanding and concept of each stage in the basic methodology of simulation.
Characterization of polyurethane composite by Dr. Mohd Haziq.
This video shows a brief explanation to students on the stages of simulation study. The simulation is using queueing model as the explanatory example for students to grasp a quick understanding and concept of each stage in the basic methodology of simulation.
This video shows a brief explanation to students on the stages of simulation study. The simulation is using queueing model as the explanatory example for students to grasp a quick understanding and concept of each stage in the basic methodology of simulation.
Computational solid mechanics by Dr. Ali Farokhi Nejad.
Computational solid mechanics: Possible approaches to solve a mechanical problem.
Computational solid mechanics: Possible approaches to solve a mechanical problem.
A study of vertical axis wind turbine by Dr. Mohd Badrul Salleh.
This video briefly explains the research background of a study of vertical axis wind turbines for renewable energy applications. The explanation covers the fields of interests and methodologies used in the wind turbine-related research.
This video briefly explains the research background of a study of vertical axis wind turbines for renewable energy applications. The explanation covers the fields of interests and methodologies used in the wind turbine-related research.
Bone implant research by Dr. Muhammad Azfar Noordin.
This video summarizes the importance of synthetic of bone graft in treating osteonecrosis. Besides autograft, the used of bio- inert metal for bone graft has been widely used as the go to solution in treating the disease. Due to some drawbacks such as aseptic loosening has push researchers to explore more regarding the use of biodegradable metal.
This video summarizes the importance of synthetic of bone graft in treating osteonecrosis. Besides autograft, the used of bio- inert metal for bone graft has been widely used as the go to solution in treating the disease. Due to some drawbacks such as aseptic loosening has push researchers to explore more regarding the use of biodegradable metal.
Engineering applications of neural networks by Dr. Rawaida.
Utilizing AI techniques for predictive maintenance in engineering.
Utilizing AI techniques for predictive maintenance in engineering.
Wear analysis and reliability prediction using finite element (FE) simulation by Dr. Maslinda.
This research focuses on studying wear patterns and predicting the reliability of mechanical components using Finite Element (FE) simulation. Wear analysis examines how materials degrade due to friction, temperature, and mechanical loads, while reliability prediction forecasts the lifespan and performance of these components. By utilizing FE simulations, engineers can model material behavior under different conditions, helping to identify failure points and optimize designs for durability and safety. This combined approach provides valuable insights to enhance the longevity and reliability of engineering systems.
This research focuses on studying wear patterns and predicting the reliability of mechanical components using Finite Element (FE) simulation. Wear analysis examines how materials degrade due to friction, temperature, and mechanical loads, while reliability prediction forecasts the lifespan and performance of these components. By utilizing FE simulations, engineers can model material behavior under different conditions, helping to identify failure points and optimize designs for durability and safety. This combined approach provides valuable insights to enhance the longevity and reliability of engineering systems.
Overview of wearable patch for diagnostic-therapeutic application, semiconductor material and processes, additive manufacturing research by Dr. Nurfarrahain.
This video explains some research areas that you could consider if you’re interested in doing research related to manufacturing for your final year project or/and master project. First, the development of wearable patches for medical applications. Second, improvement on semiconductor material and fabrication process. Third, additive manufacturing study for materials such as metal, plastic, and ceramic, parameter optimization, and fabrication of advanced properties products.
This video explains some research areas that you could consider if you’re interested in doing research related to manufacturing for your final year project or/and master project. First, the development of wearable patches for medical applications. Second, improvement on semiconductor material and fabrication process. Third, additive manufacturing study for materials such as metal, plastic, and ceramic, parameter optimization, and fabrication of advanced properties products.
Computational biomechanics: Engineering solution for bone related disease by Dr. Nor Aiman.
In this video, I share an overview of computational biomechanics research and highlight how it can drive innovation in the healthcare sector, illustrated with a case study example. There’s still so much to discover in this exciting field.
In this video, I share an overview of computational biomechanics research and highlight how it can drive innovation in the healthcare sector, illustrated with a case study example. There’s still so much to discover in this exciting field.
Innovative biomaterials for bone repair by Dr. Fatin.
This video explores how biocomposite materials are designed for bone healing and tissue engineering. Perfect for students and researchers interested in biomaterials, bone repair, and regenerative medicine.
This video explores how biocomposite materials are designed for bone healing and tissue engineering. Perfect for students and researchers interested in biomaterials, bone repair, and regenerative medicine.
Optimization machining process by Dr. Muhammad Juzaili Hisam.
The current work being carried out in align with sustainable manufacturing process.
The current work being carried out in align with sustainable manufacturing process.
Metal forming by Dr. Muhammad Shafiq Ibrahim.
This video explains how to shape metal using plastic deformation (reshaping without cutting) via forces like rolling, forging, bending, extrusion, deep drawing and hot/cold rolling.
This video explains how to shape metal using plastic deformation (reshaping without cutting) via forces like rolling, forging, bending, extrusion, deep drawing and hot/cold rolling.
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