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Papers by SWANAND PACHPORE

Engineering review, 2023

This review paper provides a comprehensive analysis of the various factors affecting micro-formin... more This review paper provides a comprehensive analysis of the various factors affecting micro-forming and the parameters involved in manufacturing micro-parts. To ensure minimal wear and tear and error-free products, it is important to optimize both the process parameters and framework. The paper aims to highlight the importance of metal micro-forming technology in designing and manufacturing highly precise micro metallic devices, biodegradable implants, micro-pumps, and gears. Through this review paper, readers can gain a better understanding of metal micro-forming, the variables that influence micro-forming and deep drawing, and the process parameters that affect micro-forming and deep drawing technology. Optimizing the process parameters is crucial for the success of micro-forming and can lead to improved product quality, increased production efficiency, cost reduction, process robustness, and improved material properties. The paper specifically discusses the significance of parameters such as blank holder force and size effects on variables that play an important role in optimizing the metal micro-forming process.

Journal of Engineering Research and Sciences

Root Canal Treatment (RCT) is one of the most common endodontic clinical procedures performed in ... more Root Canal Treatment (RCT) is one of the most common endodontic clinical procedures performed in the field of dentistry amounting to almost 25 million performed every year. It is thus essential for endodontists to ensure best practices. However, through a recent survey, it has been observed endodontists resort to supplemental methods and protocols during procedures due to the scarcity of precision devices in the market. This not only compromises sound practices but also elevates the risk of operational failures & additional infections at the cost of the patient. Despite this deviation, the survey further highlights that touch and heat devices offer better stability, precision, and safety. This paper sets out to explore the ongoing challenges faced by endodontists in this field particularly in the methods to cut Gutta-percha and seal the canal and establish the need for heating element technology in such procedures.

International Journal of Computational and Electronic Aspects in Engineering

These In recent years, the intense competition in development of new products followed by their r... more These In recent years, the intense competition in development of new products followed by their rapid prototyping has given rise to an intense competition in the market. In order to automate the design, development of Application Programming Interface (API) is most commonly followed method. The presented work showcases an attempt to develop an API for calculation of area of Heat Exchanger required for an IC Engine. The sAPI has been developed using two commonly used coding languages-HTML (Hypertext Markup Language) and Java script. The HTML along with the integration of CSS is used to develop the user interface and the mathematical formulae have been formatted into the Java script. The API is focused towards understanding the combined effect of various parameters in a heat transfer system.

Computational Intelligence in Manufacturing

Journal of Engineering Research and Sciences

A deep groove ball bearing is a rotary element designed for supporting a radial as well as axial ... more A deep groove ball bearing is a rotary element designed for supporting a radial as well as axial load, low friction, and widely used due to little noise and vibration which supports high rotational speeds. In this article, the author carried out a structural analysis (using FE Simulation) of a single row deep groove ball bearing for estimating contact stress and total deformation for three grades of materials viz. Silicon Nitride (Si3N4), 440C Stainless Steel, and AISI 4140 Alloy Steel. Under the scope of the study, modeling is done using Autodesk Platform and analyzed using ANSYS as an FEA tool. The natural boundary conditions were applied to estimate the fatigue life of bearings under standard operating conditions. The obtained results indicate Silicon nitride material was found to be more significant amongst all materials taken for considerations.

An exoskeleton is a wearable electromechanical structure that is intended to resemble and allow m... more An exoskeleton is a wearable electromechanical structure that is intended to resemble and allow movements in a manner similar to the human skeletal system. They can be used by both disabled and able people alike to increase physical strength in carrying out tasks that would be otherwise difficult, or as a rehabilitation device to aid in physiotherapeutic activities of a weakened body part. This paper intends to introduce a voice-controlled upper body exoskeleton for industrial applications which can aid workers wearing it by reducing stresses on their arms and shoulders over longer periods and add up to 20kg more strength in lifting applications. The 3D design, calculations and considerations, and load analysis are presented along with brief results of a basic prototype model of the exoskeleton.

International Journal of Advance Research, Ideas and Innovations in Technology, 2017

The main aim of this work is to predict the design performance based on stress/strain and Behavio... more The main aim of this work is to predict the design performance based on stress/strain and Behaviour of cylinder head under various operating conditions. The effects of various engineering operating conditions such as combustion gas maximum internal pressure, thermal stress behaviour and fatigue stress of the cylinder head have been analysed. In any working engine, the piston and the cylinder head are the most vulnerable members due to increased mechanical and thermal loadings. The mechanical loading is mainly due to gas pressure in the gas chamber and its magnitude can be judged in terms of peak pressure. Thermal loading is due to temperature and heat transfer conditions in the piston surface cylinder liner and cylinder head. The geometry modeling was carried out using popular computer-aided engineering tools, CATIA V5R19 and the analysis was carried out using a finite element analysis (FEA) software package ANSYS. The result can be used to determine the quality of design as well as...

Dental anatomy plays a crucial role in human body as it helps in survival. The after-treatment pr... more Dental anatomy plays a crucial role in human body as it helps in survival. The after-treatment protocol in the root canal treatment (RCT) for improper functioning of the anatomy is major challenge for dentists. RCT deals with repairing and saving the tooth that is badly decayed or becomes infected. The RCT, if analyzed mechanically; various factors govern efficacy of the treatment out of which incomplete filling and sealing of 3D root canal space with suitable biomaterial against bacterial growth is major parameter. Today, thanks to modern technologies satisfactory results are obtained, but the cost of treatment is substantially increased which is unaffordable. Thus, a survey was carried by visiting doctors practicing for more than 25 years in conservative dentistry to recent students admitted to dental surgery in various colleges to understand tools/aids used during RCT with hypothesis of developing low cost obturation device for augmenting the dental device feasibility. The succes...

IJSRD, 2017

From its humble beginnings in wood to its current slim geometry in high quality light weight carb... more From its humble beginnings in wood to its current slim geometry in high quality light weight carbon fiber composites, improvements in the badminton racket have largely been due to material advancements. The link between design and performance remains relatively poorly understood. Current rackets are designed heuristically, based on experience of the manufacturer and the player. The objective of this research is to add a scientific perspective to the design of badminton rackets, by studying the underlying physics of the game. The design of a badminton racket requires an understanding of the player, the racket, and how they interact in generating a stroke. The dynamics of the stroke can be used to assess their performance. Performance can be characterized in terms of power and control, which can respectively be quantified by the shuttlecock speed and the consistency of the stroke. Since the stroke involves both rigid-body and flexible-body dynamics of the racket it can be characterized by several stroke parameters such as racket head speed at impact from the rigid-body motion, and elastic deflection and elastic velocity at impact from the deformation behavior. This study based of the finite element method, a computer simulation method, to analysis the dynamic property of racket and string. Three-dimensional model was created Creo according to the geometry of a Yonex made graphite Badminton racket. Using ANSYS is done to calculate the modal frequency and shape; the results are to be obtained for determination of the failure in the badminton racket frame.

International Journal of Advance Research, Ideas and Innovations in Technology, 2020

Dental anatomy plays a crucial role in human body as it helps in survival. The after-treatment pr... more Dental anatomy plays a crucial role in human body as it helps in survival. The after-treatment protocol in the root canal treatment (RCT) for improper functioning of the anatomy is major challenge for dentists. RCT deals with repairing and saving the tooth that is badly decayed or becomes infected. The RCT, if analyzed mechanically; various factors govern efficacy of the treatment out of which incomplete filling and sealing of 3D root canal space with suitable biomaterial against bacterial growth is major parameter. Today, thanks to modern technologies satisfactory results are obtained, but the cost of treatment is substantially increased which is unaffordable. Thus, a survey was carried by visiting doctors practicing for more than 25 years in conservative dentistry to recent students admitted to dental surgery in various colleges to understand tools/aids used during RCT with hypothesis of developing low cost obturation device for augmenting the dental device feasibility. The success rate of obturation device is high over hand pluggers; but the cost parameter limits the usage of same. The survey also coveys that complete sealing is also not possible with hand pluggers as well as existing available aids, and thus there is a need to develop a low cost obturation device using dual energy (low operating frequency and heat) source for increasing efficacy of treatment. To test feasibility of the collected data, it's being analyzed through p-test (p>0.05) for selected parameters and correlation was found to be statistically significant.

International Research Journal of Engineering and Technology, 2020

In recent years, reduction in overall cost of component to survive in competitive market is very ... more In recent years, reduction in overall cost of component to survive in competitive market is very essential. This can be done by integrating engineering tools and systems prior to actual prototyping. The common method to do this is making an Application Programming Interface (API) using concept of design automation through knowledge-based engineering. In the presented work an attempt is being made for development of API for scheming of torsional strength of shaft. The development is being done by using commonly available platform such as HTML (Hyper Text Markup Language) and JavaScript programming; out of which the UI was designed using HTML and the coding part being done using JavaScript programming. The developed API will help undergraduate students to understand effect of each mechanical parameter torsional strength.

- International Journal for Scientific Research & Development, 2020

Abstract— Purpose: The use of Engineering tools and integrated systems prior to actual prototypin... more Abstract— Purpose: The use of Engineering tools and
integrated systems prior to actual prototyping of end product
is essential to reduce overall cost component. In democratic
countries like India, a new kind of system will certainly help
to directly enhance the abilities of fresher graduates. It is a
dire need of today’s India to come up with knowledge based
Engineering system which will be a platform to have a
systematic and convergent way to get a new design of
product at hand. The intent of this paper to summarize &
exhibit important aspects of Knowledge Based Engineering
(KBE) in with respect to benefits, criteria and application in
Engineering.
Design/Methodology/Approach: The review of Knowledge
based Engineering is based on 64 papers selected based
upon the methodologies adopted for modelling and
implementation of interface in the field of engineering
published from 1989 to till date in academic databases
namely Science Direct, Emerald, Taylor & Francis Journals
and articles published in international conference
proceedings, and some of the paid journal articles, etc. with
‘Knowledge Based Engineering’ and ‘Module Based
Learning’ as keywords.
Finding: Through the literature review, this paper brings up
the analysis of aforementioned aspect of methodologies
adopted in implementation of KBE system in engineering
and benefits received by optimizing the work time, cost and
improving the efficiency of change in engineering process.
Research Limitations/implications: The literature on
practical difficulties for implementation of KBE system and
tradeoff between benefits and risk associated with KBE are
seldom available.
Originality/Value: This paper presents a literature review on
three crucial aspects namely benefits, applications to various
fields, methods of implementation in Knowledge Based
Engineering. These are identified according to their level of
importance. The main contribution of this paper is to draw
together three above mentioned important aspects of
Knowledge Based Engineering.

Engineering review, 2023

This review paper provides a comprehensive analysis of the various factors affecting micro-formin... more This review paper provides a comprehensive analysis of the various factors affecting micro-forming and the parameters involved in manufacturing micro-parts. To ensure minimal wear and tear and error-free products, it is important to optimize both the process parameters and framework. The paper aims to highlight the importance of metal micro-forming technology in designing and manufacturing highly precise micro metallic devices, biodegradable implants, micro-pumps, and gears. Through this review paper, readers can gain a better understanding of metal micro-forming, the variables that influence micro-forming and deep drawing, and the process parameters that affect micro-forming and deep drawing technology. Optimizing the process parameters is crucial for the success of micro-forming and can lead to improved product quality, increased production efficiency, cost reduction, process robustness, and improved material properties. The paper specifically discusses the significance of parameters such as blank holder force and size effects on variables that play an important role in optimizing the metal micro-forming process.

Journal of Engineering Research and Sciences

Root Canal Treatment (RCT) is one of the most common endodontic clinical procedures performed in ... more Root Canal Treatment (RCT) is one of the most common endodontic clinical procedures performed in the field of dentistry amounting to almost 25 million performed every year. It is thus essential for endodontists to ensure best practices. However, through a recent survey, it has been observed endodontists resort to supplemental methods and protocols during procedures due to the scarcity of precision devices in the market. This not only compromises sound practices but also elevates the risk of operational failures & additional infections at the cost of the patient. Despite this deviation, the survey further highlights that touch and heat devices offer better stability, precision, and safety. This paper sets out to explore the ongoing challenges faced by endodontists in this field particularly in the methods to cut Gutta-percha and seal the canal and establish the need for heating element technology in such procedures.

International Journal of Computational and Electronic Aspects in Engineering

These In recent years, the intense competition in development of new products followed by their r... more These In recent years, the intense competition in development of new products followed by their rapid prototyping has given rise to an intense competition in the market. In order to automate the design, development of Application Programming Interface (API) is most commonly followed method. The presented work showcases an attempt to develop an API for calculation of area of Heat Exchanger required for an IC Engine. The sAPI has been developed using two commonly used coding languages-HTML (Hypertext Markup Language) and Java script. The HTML along with the integration of CSS is used to develop the user interface and the mathematical formulae have been formatted into the Java script. The API is focused towards understanding the combined effect of various parameters in a heat transfer system.

Computational Intelligence in Manufacturing

Journal of Engineering Research and Sciences

A deep groove ball bearing is a rotary element designed for supporting a radial as well as axial ... more A deep groove ball bearing is a rotary element designed for supporting a radial as well as axial load, low friction, and widely used due to little noise and vibration which supports high rotational speeds. In this article, the author carried out a structural analysis (using FE Simulation) of a single row deep groove ball bearing for estimating contact stress and total deformation for three grades of materials viz. Silicon Nitride (Si3N4), 440C Stainless Steel, and AISI 4140 Alloy Steel. Under the scope of the study, modeling is done using Autodesk Platform and analyzed using ANSYS as an FEA tool. The natural boundary conditions were applied to estimate the fatigue life of bearings under standard operating conditions. The obtained results indicate Silicon nitride material was found to be more significant amongst all materials taken for considerations.

An exoskeleton is a wearable electromechanical structure that is intended to resemble and allow m... more An exoskeleton is a wearable electromechanical structure that is intended to resemble and allow movements in a manner similar to the human skeletal system. They can be used by both disabled and able people alike to increase physical strength in carrying out tasks that would be otherwise difficult, or as a rehabilitation device to aid in physiotherapeutic activities of a weakened body part. This paper intends to introduce a voice-controlled upper body exoskeleton for industrial applications which can aid workers wearing it by reducing stresses on their arms and shoulders over longer periods and add up to 20kg more strength in lifting applications. The 3D design, calculations and considerations, and load analysis are presented along with brief results of a basic prototype model of the exoskeleton.

International Journal of Advance Research, Ideas and Innovations in Technology, 2017

The main aim of this work is to predict the design performance based on stress/strain and Behavio... more The main aim of this work is to predict the design performance based on stress/strain and Behaviour of cylinder head under various operating conditions. The effects of various engineering operating conditions such as combustion gas maximum internal pressure, thermal stress behaviour and fatigue stress of the cylinder head have been analysed. In any working engine, the piston and the cylinder head are the most vulnerable members due to increased mechanical and thermal loadings. The mechanical loading is mainly due to gas pressure in the gas chamber and its magnitude can be judged in terms of peak pressure. Thermal loading is due to temperature and heat transfer conditions in the piston surface cylinder liner and cylinder head. The geometry modeling was carried out using popular computer-aided engineering tools, CATIA V5R19 and the analysis was carried out using a finite element analysis (FEA) software package ANSYS. The result can be used to determine the quality of design as well as...

Dental anatomy plays a crucial role in human body as it helps in survival. The after-treatment pr... more Dental anatomy plays a crucial role in human body as it helps in survival. The after-treatment protocol in the root canal treatment (RCT) for improper functioning of the anatomy is major challenge for dentists. RCT deals with repairing and saving the tooth that is badly decayed or becomes infected. The RCT, if analyzed mechanically; various factors govern efficacy of the treatment out of which incomplete filling and sealing of 3D root canal space with suitable biomaterial against bacterial growth is major parameter. Today, thanks to modern technologies satisfactory results are obtained, but the cost of treatment is substantially increased which is unaffordable. Thus, a survey was carried by visiting doctors practicing for more than 25 years in conservative dentistry to recent students admitted to dental surgery in various colleges to understand tools/aids used during RCT with hypothesis of developing low cost obturation device for augmenting the dental device feasibility. The succes...

IJSRD, 2017

From its humble beginnings in wood to its current slim geometry in high quality light weight carb... more From its humble beginnings in wood to its current slim geometry in high quality light weight carbon fiber composites, improvements in the badminton racket have largely been due to material advancements. The link between design and performance remains relatively poorly understood. Current rackets are designed heuristically, based on experience of the manufacturer and the player. The objective of this research is to add a scientific perspective to the design of badminton rackets, by studying the underlying physics of the game. The design of a badminton racket requires an understanding of the player, the racket, and how they interact in generating a stroke. The dynamics of the stroke can be used to assess their performance. Performance can be characterized in terms of power and control, which can respectively be quantified by the shuttlecock speed and the consistency of the stroke. Since the stroke involves both rigid-body and flexible-body dynamics of the racket it can be characterized by several stroke parameters such as racket head speed at impact from the rigid-body motion, and elastic deflection and elastic velocity at impact from the deformation behavior. This study based of the finite element method, a computer simulation method, to analysis the dynamic property of racket and string. Three-dimensional model was created Creo according to the geometry of a Yonex made graphite Badminton racket. Using ANSYS is done to calculate the modal frequency and shape; the results are to be obtained for determination of the failure in the badminton racket frame.

International Journal of Advance Research, Ideas and Innovations in Technology, 2020

Dental anatomy plays a crucial role in human body as it helps in survival. The after-treatment pr... more Dental anatomy plays a crucial role in human body as it helps in survival. The after-treatment protocol in the root canal treatment (RCT) for improper functioning of the anatomy is major challenge for dentists. RCT deals with repairing and saving the tooth that is badly decayed or becomes infected. The RCT, if analyzed mechanically; various factors govern efficacy of the treatment out of which incomplete filling and sealing of 3D root canal space with suitable biomaterial against bacterial growth is major parameter. Today, thanks to modern technologies satisfactory results are obtained, but the cost of treatment is substantially increased which is unaffordable. Thus, a survey was carried by visiting doctors practicing for more than 25 years in conservative dentistry to recent students admitted to dental surgery in various colleges to understand tools/aids used during RCT with hypothesis of developing low cost obturation device for augmenting the dental device feasibility. The success rate of obturation device is high over hand pluggers; but the cost parameter limits the usage of same. The survey also coveys that complete sealing is also not possible with hand pluggers as well as existing available aids, and thus there is a need to develop a low cost obturation device using dual energy (low operating frequency and heat) source for increasing efficacy of treatment. To test feasibility of the collected data, it's being analyzed through p-test (p>0.05) for selected parameters and correlation was found to be statistically significant.

International Research Journal of Engineering and Technology, 2020

In recent years, reduction in overall cost of component to survive in competitive market is very ... more In recent years, reduction in overall cost of component to survive in competitive market is very essential. This can be done by integrating engineering tools and systems prior to actual prototyping. The common method to do this is making an Application Programming Interface (API) using concept of design automation through knowledge-based engineering. In the presented work an attempt is being made for development of API for scheming of torsional strength of shaft. The development is being done by using commonly available platform such as HTML (Hyper Text Markup Language) and JavaScript programming; out of which the UI was designed using HTML and the coding part being done using JavaScript programming. The developed API will help undergraduate students to understand effect of each mechanical parameter torsional strength.

- International Journal for Scientific Research & Development, 2020

Abstract— Purpose: The use of Engineering tools and integrated systems prior to actual prototypin... more Abstract— Purpose: The use of Engineering tools and
integrated systems prior to actual prototyping of end product
is essential to reduce overall cost component. In democratic
countries like India, a new kind of system will certainly help
to directly enhance the abilities of fresher graduates. It is a
dire need of today’s India to come up with knowledge based
Engineering system which will be a platform to have a
systematic and convergent way to get a new design of
product at hand. The intent of this paper to summarize &
exhibit important aspects of Knowledge Based Engineering
(KBE) in with respect to benefits, criteria and application in
Engineering.
Design/Methodology/Approach: The review of Knowledge
based Engineering is based on 64 papers selected based
upon the methodologies adopted for modelling and
implementation of interface in the field of engineering
published from 1989 to till date in academic databases
namely Science Direct, Emerald, Taylor & Francis Journals
and articles published in international conference
proceedings, and some of the paid journal articles, etc. with
‘Knowledge Based Engineering’ and ‘Module Based
Learning’ as keywords.
Finding: Through the literature review, this paper brings up
the analysis of aforementioned aspect of methodologies
adopted in implementation of KBE system in engineering
and benefits received by optimizing the work time, cost and
improving the efficiency of change in engineering process.
Research Limitations/implications: The literature on
practical difficulties for implementation of KBE system and
tradeoff between benefits and risk associated with KBE are
seldom available.
Originality/Value: This paper presents a literature review on
three crucial aspects namely benefits, applications to various
fields, methods of implementation in Knowledge Based
Engineering. These are identified according to their level of
importance. The main contribution of this paper is to draw
together three above mentioned important aspects of
Knowledge Based Engineering.