Mir Irfan Ul Haq scite author profile

Purpose This paper aims to explore the effect of bed temperature, primary layer thickness and infill pattern (rectilinear, honeycomb, triangular) on the mechanical properties of tensile strength and bending strength of 3D printed parts. Design/methodology/approach Samples in accordance to various ASTM standards were printed by fused deposition modelling (FDM) method by varying the various input paramaters such as bed temperature, primary layer thickness and infill pattern (rectilinear, honeycomb, triangular). Tensile and bending testing was carried out on the printed parts, and post to the testing, fractography has been carried out using scanning electron microscope. Findings With increase in bed temperature tensile strength and flexural strength first increases then decreases. With the increase in primary layer thickness, tensile strength and flexural strength increase. With regard to infill patterns, triangular and honeycomb exhibit better tensile strength and better flexural strength. Practical implications The 3D printing is increasingly becoming important for manufacturing of engineering parts, determining the process parameters which could result in better mechanical and physical properties shall certainly help designers and manufacturers globally. Originality/value This work elucidates the effect of various process parameters of FDM on tensile and flexural properties of the samples.

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Friction and wear characteristics of vegetable oils using nanoparticles for sustainable lubrication

Shafi

Raina

Haq

2018

Tribology - Materials, Surfaces & Interfaces

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The non biodegradability associated with the mineral oils, ever increasing global demand for lubricants and limited crude oil resources have led to a paradigm shift of focus from nonrenewable to renewable. The problems of friction and wear being innate to engineering applications, further poses environmental hazards by way of more fuel consumption and wear debris. The present paper is aimed to highlight the research studies carried out to exploit the addition of nanoparticle additives in vegetable oils. The encouraging results obtained therein suggest that vegetable oils have a tremendous potential to be used as lubricating oils. Moreover, the issues which are limiting their use have also been presented in this paper.

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Industry 5.0: Potential Applications in COVID-19

Javaid

Haleem

Singh

et al. 2020

J. Ind. Intg. Mgmt.

168

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Industry 5.0, the fifth industrial revolution, consists of smart digital information and manufacturing technologies. This industrial revolution generates effective processes and makes rapid improvement in industries and healthcare. Solutions to challenges posed by COVID-19 pandemic can be identified with the deployment of Industry 5.0-based technologies. It helps to provide personalized therapy and treatment processes to the COVID-19 patients if a detailed patient’s information is available. The aim of Industry 5.0 technologies is to create a smart healthcare environment with real-time capabilities. During the COVID-19 pandemic, these technologies can provide a remote monitoring system in healthcare. This paper identifies and studies major technologies of Industry 5.0 helpful for the COVID-19 pandemic. The supportive features of Industry 5.0 for the COVID-19 pandemic are discussed diagrammatically. Finally, we identified and studied significant challenges faced in the context of Industry 5.0 technologies for the COVID-19 pandemic. The literature revealed that this technological innovation allows a high personalization level to fulfill personal specific demands of the patient and doctors. These technologies play a significant role in making the life of doctors better. Further, doctors can use this technology to focus on critically infected patients and provide proper appropriate information regarding their better treatment. Moreover, Industry 5.0 technologies can help doctors and medical students for required medical training during this COVID-19 outbreak.

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Mir Irfan Ul Haq

3D printing – A review of processes, materials and applications in industry 4.0

Industrial applications of natural fibre-reinforced polymer composites – challenges and opportunities

Effect of fused deposition modelling process parameters on mechanical properties of 3D printed parts

Friction and wear characteristics of vegetable oils using nanoparticles for sustainable lubrication

Industry 5.0: Potential Applications in COVID-19

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