About
15
Publications
8,260
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Citations
Introduction
My primary research focus lies at the intersection of biomechanics and the study of mechanical properties, particularly in the realm of composite materials. I am deeply invested in material characterization to understand the nuances and potential applications of various composites in real-world scenarios. Additionally, my interests span to tribology, specifically the study of friction, wear, and lubrication in mechanical constructs.
Current institution
Additional affiliations
June 2020 - September 2020
Position
- Intern
Description
- Though it was 3 months of internship, I had involved with three different projects in a short period of time. 1)Malaysian Technical University Network (MTUN) research matching grant proposal (RM105,000). Entitled "Design and development of post-decorticator kenaf automated scouring system to increase quality and yield of national kenaf/fibre production." 2)Aerospace Composite Malaysia (ACM). Helped in automated spray booth running project. 3)Sample preparation for the hybrid tubes research test.
Education
September 2017 - September 2021
Publications
Publications (15)
This paper investigates the mechanical behavior of the paediatric femur under compression using finite element analysis, simulating scenarios like single-legged stands and falls. It aims to understand stress distribution, deformation, and fracture risks, focusing on the femoral neck to improve prevention strategies. The study also addresses the uni...
Surgeons face a significant challenge due to the heat generated during drilling, as excessive temperatures at the bone–tool interface can lead to irreversible damage to the regenerative soft tissue and result in thermal osteonecrosis. While previous studies have explored the use of machine learning to predict the temperature rise during bone drilli...
Drilling is a widely employed technique in machining processes, crucial for efficient material removal. However, when applied to living tissues, its invasiveness must be carefully considered. This study investigates drilling processes on polyurethane foam blocks mimicking human bone mechanical properties. Various drill bit types (118° twist, 135° t...
This study aimed to elucidate the influences of several drilling parameters on bone temperature during drilling, as excessive heat generation can cause thermal bone damage and affect post-surgery recovery. In vitro drilling tests were conducted on bovine femoral shaft cortical bone specimens. The parameters considered included tool rotational speed...
In this study, the drilling parameters will be evaluated to obtain optimal parameters in minimizing the impact of drilling damage on synthetic bone blocks. The effect of damage observed in the study is osteonecrosis that occurs in the drill hole for implant site preparation, where a smaller value is desired. The drilling parameters are optimized us...
Bone drilling is a universal surgical procedure commonly used for internal fracture fixation, implant placement, or reconstructive surgery in orthopedics and dentistry. The increased temperature during such treatment increases the risk of thermal penetration of the bone, which may delay healing or compromise the fixation's integrity. Thus, avoiding...
Predicting thermal response in orthopaedic surgery or dental implantation remains a significant challenge. This study aims to find a practical approach for measuring temperature elevation during a bone drilling experiment by analyzing the existing methods. Traditionally thermocouple has frequently been used to predict the bone temperature in the dr...
![(a) Load-displacement curve; (b) tensile stress–strain curve of bone [21].](publication/365242684/figure/fig4/AS:11431281387661936@1745127048925/a-Load-displacement-curve-b-tensile-stress-strain-curve-of-bone-21_Q320.jpg)
![Schematic diagram of the bone drilling process [37].](publication/365242684/figure/fig5/AS:11431281387577224@1745127049375/Schematic-diagram-of-the-bone-drilling-process-37_Q320.jpg)
This study aims to summarize the current state of scientific knowledge on factors that contribute to heat generation during the bone drilling process and how these aspects can be better understood and avoided in the future through new research methodologies. Frictional pressures, mechanical trauma, and surgical methods can cause thermal damage and...
Predicting thermal response in orthopedic surgery or dental implantation remains a significant challenge. This study aims to find an effective approach for measuring temperature elevation during a bone drilling experiment by analyzing the existing methods. Traditionally thermocouple has frequently been used to predict the bone temperature in the dr...
Bone drilling is a universal surgical procedure commonly used for internal fracture fixation, implant placement, or reconstructive surgery in orthopedics and dentistry. The increased temperature during such treatment increases the risk of thermal penetration of the bone, which may delay healing or compromise the fixation’s integrity. Thus, avoiding...
![Figure 1.1:Location of Kampung Abi Atas Paip in Google Maps [10]](profile/Md-Ashequl-Islam/publication/357511173/figure/fig1/AS:1107719956242432@1641112426850/Location-of-Kampung-Abi-Atas-Paip-in-Google-Maps-10_Q320.jpg)
Questions
Question (1)
