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Dinesh Bhatia

Himachal Pradesh Technical University, Textile Engineering, Faculty Member

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Assistant Professor Textile Engineering JNGEC Sundernagar Himachal Pradesh
Phone: +918054603399
Address: Assistant Professor, Department of Textile Engineering, Jawahar Lal Nehru Government Engineering College, Sundernagar, District Mandi, Himachal Pradesh, 🇮🇳, Pincode 175018

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Papers by Dinesh Bhatia

Optimization of Structurally Modified Wool/Polyester Blended Yarns Using Desirability Function

Fibers are structural unit of a staple yarn, and its properties influence the properties of yarn.... more Fibers are structural unit of a staple yarn, and its properties influence the properties of yarn. Structural modification through selective removal of component opens further scope of application. Yarns were prepared according to the mixture design for different fibers using design expert software. The effect of composition and selective removal of PVA on yarn properties has been reported. The potential of different fibers optimization to achieve maximum desirability for different properties of yarn for treated and untreated yarns with the help of desirability function has also been reported. It has been observed that dissolution of PVA component led to an increase in compressibility and reduction in packing fraction. Results of optimization for treated and untreated yarns show that almost same overall desirability can be achieved by using lower percentage of wool fiber in the case of treated yarn.

Structural Analysis Of Merino Wool, Pashmina And Angora Fibers Using Analytical Instruments Like Scanning Electron Microscope And Infra-Red Spectroscopy

Textile fibrous materials are used for making utility products in day to day use. These fibers fi... more Textile fibrous materials are used for making utility products in day to day use. These fibers find applications in polymer blends, composites, fiber reinforce plastics, bio-medical textiles and many such high end uses. However, fibers like merino wool, pashmina and angora fibers are some of the natural animal fibers which are obtained in nature and find wide applications if converted into usable product. These natural fibers are characterized with specific microstructure which can be tapped to design and create new products. The importance of understanding these surface and micro-structures helps in designing and engineering a particular product in textile science and engineering. In this study we look into the finer detail application of SEM used to characterize the surface, intersurface and other dynamic properties of these fibers. Scanning electron microscope has the capability to image these fiber surfaces at different magnifications which thus facilitates the observations to be examined at varying conditions of usage. These SEM images also gives insight into the steps that can be used to manipulate the process and product development steps used for textile materials. On the other hand spectral analysis using Infra-red spectroscopy gives broad information on the qualitative and quantitative analysis of these fibers. FTIR helps in elucidation of structure property of these natural fibers which are obtained from animal source.

Thermophysiological wear comfort of clothing an overview

Thermophysiological wear comfort concerns with the heat and moisture transport properties of clot... more Thermophysiological wear comfort concerns with the heat and moisture transport properties of clothing and
the way it helps the clothing to maintain the heat balance of the body during various level of activity. Heat and moisture flow through clothing is a complex phenomenon. So, heat and moisture transfer analysis for clothing is an important issue for researchers. This article delves into the processes which are involved in heat and moisture transmission along with mathematical models of heat, liquid and vapour transport through clothing to understand
the exact phenomena of heat and moisture transmission. The reported testing methods and parameters used for determining heat and moisture are also summarized in this article. This article also describes the need of heat and moisture transmission in clothing, desired attributes for heat and moisture management and parameters affecting
heat and moisture transmission in clothing.

Moisture Management Behaviour of Knitted Fabric from Structurally Modified Ring and Vortex Spun Yarn

The acceptability of a new product is decided by its performance, level of improvement in quality... more The acceptability of a new product is decided by its performance, level of improvement in quality and economy of production. The basic aim of generating micro pores in a textile structure is to provide better thermo-physiological comfort by enhancing the breathability and hence improving moisture management behaviour. In the present study, an attempt has been made to create a relatively more open structure through removal of a component. A comparative assessment with a homogeneous and parent yarn was also made. Yarns of two linear densities, each from ring and vortex spinning systems were produced using 100 % polyester and 80:20 polyester/cotton blend. The modified yarn was produced by removing a component , viz; cotton, by treatment with sulphuric acid from the blended yarn. The knitted fabric from modified yarn was found to show significant improvement in air permeability, water vapour permeability and total absorbency while the wicking characteristic was found to decline.

Thermo-physiological Properties of Structurally Modifi ed Wool/Polyester Blended Machine and Hand-Spun Yarns as a Weft in Handloom Fabrics

Thermo-physiological Properties of Structurally Modifi ed Wool/Polyester Blended Machine and Hand... more Thermo-physiological Properties of Structurally Modifi ed Wool/Polyester Blended Machine and Hand-Spun Yarns as a Weft in Handloom Fabrics Lastnosti toplotne udobnosti ročno stkanih tkanin z votkom iz strukturno modifi cirane preje iz mešanice volna/poliester, izdelanim strojno in ročno Original scientifi c article/Izvirni znanstveni članek Abstract An attempt was made to compare the combined desirability value for a treated and untreated handloom fabric using machine-spun and hand-spun blended yarns as weft. The experimental plan included the preparation of both hand-spun and machine-spun yarns at diff erent blend compositions according to a mixture design prepared on Design-Expert software, followed by the preparation of fabric on a handloom. The dissolution of one component using a suitable chemical treatment was then performed on both fabrics made from hand-spun and machine-spun yarn by taking into account an expected signifi cant change in the arrangement of constituent fi bres that ultimately enhance performance in terms of the thermo-physiological behaviour of fabrics. All properties viz air permeability, compressibility, thermal resistance, water vapour permeability, bending rigidity and drying capacity showed signifi cant diff erences for both type of fabrics. Fabrics with hand-spun yarn as a weft demonstrated higher values of thermal resistance, compressibility, water vapour permeability and drying capacity due to the voluminous and soft structure of hand-spun yarn compared to fabric with machine-spun yarn as a weft. In general, after the dissolution of the polyvinyl alcohol component, both types of fabrics exhibited higher values of thermal resistance, compressibility, drying capacity and water vapour per-meability, while values for air permeability and bending rigidity were lower for untreated fabrics. The results of the optimisation of treated fabrics with machine-spun yarn as weft demonstrated the highest desirability value (0.73), as well as a lower percentage of wool fi bres (55%), followed by treated fabrics with hand-spun yarn as weft, which demonstrated a desirability value of 0.66 and a percentage of wool fi bres of 60% in the blend composition. Untreated fabrics (both machine-spun and hand-spun) exhibited a similar desirability value and at same blend composition (20% polyester, 70% wool and 10% polyvinyl alcohol). Izvleček Neobdelane in obdelane ročno stkane tkanine z votkom iz strojno in ročno izdelanih mešanih prej so bile primerjane z vidika kombiniranega indeksa zaželenosti. Eksperimentalni načrt vključuje pripravo ročno in strojno spredene preje iz mešanic različne sestave glede na načrt, zasnovan s pomočjo programskega orodja Design-Expert, ki mu je sledila izdelava tkanin na ročnih statvah. Obe vrsti tkanin, izdelanih z ročno oziroma strojno spredeno prejo v votku, so bile kemično obdelane, pri čemer se je raztopila ena komponenta, da bi dosegli pričakovano spremembo razporeditve 139

Selection of Handloom Fabrics Based on Thermo-Physiological Characteristics Using Multi -Attributes Decision Making Algorithm

Dissolution of one component from multi-component yarn by suitable chemical treatment brought a s... more Dissolution of one component from multi-component yarn by suitable chemical treatment brought a significant change in structure that ultimately enhance the performance in terms of thermo-physiological behavior of fabrics. In this study, attempt has been made to develop a ranking of handloom fabric quality, which can be used for selecting fabrics based on thermo-physiological characteristics like thermal resistance, air permeability, water vapor permeability, compressibility, drying capacity, and bending rigidity. Technique for Order Preference by Similarity
to Ideal Solution Method (TOPSIS) and Grey Relational Analysis Method (GRA) has been used for ranking 48 handloom samples (before and after treatment) made
up of same warp yarn and different filling (for both machine and hand spun) prepared according to mixture design from different percentages of wool, polyester and poly vinyl alcohol (PVA). Ranking results obtained through TOPSIS and GRA show that after treatment of handloom fabric made up of hand spun yarn having less percentage of wool as a weft can be used in place of treated handloom fabric having machine spun yarn with higher percentage of wool.
Results also indicate that dissolution of PVA component improves ranking in both fabrics either having machine spun or hand spun yarns as a weft

Impact on Properties of Woven Fabric from Structurally Modified Shoddy/Wool Blended Worsted Yarn

The acceptability of new product is decided by its performance, level of improvement in quality a... more The acceptability of new product is decided by its performance, level of improvement in quality and economy of production. In the present study attempt has been made to create pores in twill woven fabric made from shoddy/wool/PVA blended yarn. The modified yarn was produced by removing a component viz; PVA, by treatment with hot water from blended yarn. A comparative assessment for different properties like bending behavior, air permeability, crease recovery, extensibility, strength and porosity for fabrics made from parent and treated yarn was done. The fabric from treated yarn was found to show significant improvement in bending rigidity, crease recovery, air permeability and extensibility while strength decline marginally.

Recycled fibers: An overview

Today, in the world of modern technologies, the demand for production is increasing so rapidly in... more Today, in the world of modern technologies, the demand for production is increasing so rapidly in all aspects of the
required living commodities. In order to meet all the required demands, over production and utilization of all resources
seem not enough. Therefore, the increasing demand for textile making huge clothing production is not only based on
demand for more population but it’s also changing new fashion habits as well. Improving raw material exploitation has
become the most important challenge facing scientific and industrial community. Textile production wastes are undesirable
but inevitable by- products in many manufacturing process (spinning, weaving, knitting, or garment manufacturing) and
are frequently undervalued. However, if one can convert such wastes into useful product economically, there will be great
contribution to the market. In this paper attempt has been made to give idea about different types of waste produced in
textile industries (spinning, weaving, knitting, or garment manufacturing) and also types of waste which can be used again
in recycling process to make some value added product. Also give different types of methods by which this waste can be
used to make new high quality products from existing material.

Comparative assessment & empirical modeling for aesthetic behavior of vortex & ring yarn knitted fabrics on laundering

Visual presence of a garment or clothing provides physical qualities in relationship with the bod... more Visual presence of a garment or clothing provides physical qualities in relationship with the body. Both functional and
aesthetic attributes contribute to the overall performance of the apparel system for a consumer. Development of new
technology, materials and newer research is adding to the expectation of the consumer. Aesthetic of any fabric attracts a
customer first. The aesthetic of a fabric prior to use can be altered either by changing the raw material or by the type of
yarn or by the method of manufacturing the fabric. The spinning system, loop length, yarn linear density, washing cycle
were found to have significant effect in influencing the aesthetic properties of knitted fabric. Contribution of loop length
and spinning system on spirality was found to be more dominating as compared to linear density and number of washing
cycles. Pilling of fabric and dimensional stability, which influence the visual appearance of a fabric, was mainly influenced
by the spinning system used as compared to other factors under consideration. Reflectance, which is generally influenced
more by the washing cycle, has also been found to be influenced by the spinning system and loop length used in producing
the fabric

Optimization of Structurally Modified Wool/Polyester Blended Yarns Using Desirability Function

Fibers are structural unit of a staple yarn, and its properties influence the properties of yarn.... more Fibers are structural unit of a staple yarn, and its properties influence the properties of yarn. Structural modification through selective removal of component opens further scope of application. Yarns were prepared according to the mixture design for different fibers using design expert software. The effect of composition and selective removal of PVA on yarn properties has been reported. The potential of different fibers optimization to achieve maximum desirability for different properties of yarn for treated and untreated yarns with the help of desirability function has also been reported. It has been observed that dissolution of PVA component led to an increase in compressibility and reduction in packing fraction. Results of optimization for treated and untreated yarns show that almost same overall desirability can be achieved by using lower percentage of wool fiber in the case of treated yarn.

Structural Analysis Of Merino Wool, Pashmina And Angora Fibers Using Analytical Instruments Like Scanning Electron Microscope And Infra-Red Spectroscopy

Textile fibrous materials are used for making utility products in day to day use. These fibers fi... more Textile fibrous materials are used for making utility products in day to day use. These fibers find applications in polymer blends, composites, fiber reinforce plastics, bio-medical textiles and many such high end uses. However, fibers like merino wool, pashmina and angora fibers are some of the natural animal fibers which are obtained in nature and find wide applications if converted into usable product. These natural fibers are characterized with specific microstructure which can be tapped to design and create new products. The importance of understanding these surface and micro-structures helps in designing and engineering a particular product in textile science and engineering. In this study we look into the finer detail application of SEM used to characterize the surface, intersurface and other dynamic properties of these fibers. Scanning electron microscope has the capability to image these fiber surfaces at different magnifications which thus facilitates the observations to be examined at varying conditions of usage. These SEM images also gives insight into the steps that can be used to manipulate the process and product development steps used for textile materials. On the other hand spectral analysis using Infra-red spectroscopy gives broad information on the qualitative and quantitative analysis of these fibers. FTIR helps in elucidation of structure property of these natural fibers which are obtained from animal source.

Thermophysiological wear comfort of clothing an overview

Thermophysiological wear comfort concerns with the heat and moisture transport properties of clot... more Thermophysiological wear comfort concerns with the heat and moisture transport properties of clothing and
the way it helps the clothing to maintain the heat balance of the body during various level of activity. Heat and moisture flow through clothing is a complex phenomenon. So, heat and moisture transfer analysis for clothing is an important issue for researchers. This article delves into the processes which are involved in heat and moisture transmission along with mathematical models of heat, liquid and vapour transport through clothing to understand
the exact phenomena of heat and moisture transmission. The reported testing methods and parameters used for determining heat and moisture are also summarized in this article. This article also describes the need of heat and moisture transmission in clothing, desired attributes for heat and moisture management and parameters affecting
heat and moisture transmission in clothing.

Moisture Management Behaviour of Knitted Fabric from Structurally Modified Ring and Vortex Spun Yarn

The acceptability of a new product is decided by its performance, level of improvement in quality... more The acceptability of a new product is decided by its performance, level of improvement in quality and economy of production. The basic aim of generating micro pores in a textile structure is to provide better thermo-physiological comfort by enhancing the breathability and hence improving moisture management behaviour. In the present study, an attempt has been made to create a relatively more open structure through removal of a component. A comparative assessment with a homogeneous and parent yarn was also made. Yarns of two linear densities, each from ring and vortex spinning systems were produced using 100 % polyester and 80:20 polyester/cotton blend. The modified yarn was produced by removing a component , viz; cotton, by treatment with sulphuric acid from the blended yarn. The knitted fabric from modified yarn was found to show significant improvement in air permeability, water vapour permeability and total absorbency while the wicking characteristic was found to decline.

Thermo-physiological Properties of Structurally Modifi ed Wool/Polyester Blended Machine and Hand-Spun Yarns as a Weft in Handloom Fabrics

Thermo-physiological Properties of Structurally Modifi ed Wool/Polyester Blended Machine and Hand... more Thermo-physiological Properties of Structurally Modifi ed Wool/Polyester Blended Machine and Hand-Spun Yarns as a Weft in Handloom Fabrics Lastnosti toplotne udobnosti ročno stkanih tkanin z votkom iz strukturno modifi cirane preje iz mešanice volna/poliester, izdelanim strojno in ročno Original scientifi c article/Izvirni znanstveni članek Abstract An attempt was made to compare the combined desirability value for a treated and untreated handloom fabric using machine-spun and hand-spun blended yarns as weft. The experimental plan included the preparation of both hand-spun and machine-spun yarns at diff erent blend compositions according to a mixture design prepared on Design-Expert software, followed by the preparation of fabric on a handloom. The dissolution of one component using a suitable chemical treatment was then performed on both fabrics made from hand-spun and machine-spun yarn by taking into account an expected signifi cant change in the arrangement of constituent fi bres that ultimately enhance performance in terms of the thermo-physiological behaviour of fabrics. All properties viz air permeability, compressibility, thermal resistance, water vapour permeability, bending rigidity and drying capacity showed signifi cant diff erences for both type of fabrics. Fabrics with hand-spun yarn as a weft demonstrated higher values of thermal resistance, compressibility, water vapour permeability and drying capacity due to the voluminous and soft structure of hand-spun yarn compared to fabric with machine-spun yarn as a weft. In general, after the dissolution of the polyvinyl alcohol component, both types of fabrics exhibited higher values of thermal resistance, compressibility, drying capacity and water vapour per-meability, while values for air permeability and bending rigidity were lower for untreated fabrics. The results of the optimisation of treated fabrics with machine-spun yarn as weft demonstrated the highest desirability value (0.73), as well as a lower percentage of wool fi bres (55%), followed by treated fabrics with hand-spun yarn as weft, which demonstrated a desirability value of 0.66 and a percentage of wool fi bres of 60% in the blend composition. Untreated fabrics (both machine-spun and hand-spun) exhibited a similar desirability value and at same blend composition (20% polyester, 70% wool and 10% polyvinyl alcohol). Izvleček Neobdelane in obdelane ročno stkane tkanine z votkom iz strojno in ročno izdelanih mešanih prej so bile primerjane z vidika kombiniranega indeksa zaželenosti. Eksperimentalni načrt vključuje pripravo ročno in strojno spredene preje iz mešanic različne sestave glede na načrt, zasnovan s pomočjo programskega orodja Design-Expert, ki mu je sledila izdelava tkanin na ročnih statvah. Obe vrsti tkanin, izdelanih z ročno oziroma strojno spredeno prejo v votku, so bile kemično obdelane, pri čemer se je raztopila ena komponenta, da bi dosegli pričakovano spremembo razporeditve 139

Selection of Handloom Fabrics Based on Thermo-Physiological Characteristics Using Multi -Attributes Decision Making Algorithm

Dissolution of one component from multi-component yarn by suitable chemical treatment brought a s... more Dissolution of one component from multi-component yarn by suitable chemical treatment brought a significant change in structure that ultimately enhance the performance in terms of thermo-physiological behavior of fabrics. In this study, attempt has been made to develop a ranking of handloom fabric quality, which can be used for selecting fabrics based on thermo-physiological characteristics like thermal resistance, air permeability, water vapor permeability, compressibility, drying capacity, and bending rigidity. Technique for Order Preference by Similarity
to Ideal Solution Method (TOPSIS) and Grey Relational Analysis Method (GRA) has been used for ranking 48 handloom samples (before and after treatment) made
up of same warp yarn and different filling (for both machine and hand spun) prepared according to mixture design from different percentages of wool, polyester and poly vinyl alcohol (PVA). Ranking results obtained through TOPSIS and GRA show that after treatment of handloom fabric made up of hand spun yarn having less percentage of wool as a weft can be used in place of treated handloom fabric having machine spun yarn with higher percentage of wool.
Results also indicate that dissolution of PVA component improves ranking in both fabrics either having machine spun or hand spun yarns as a weft

Impact on Properties of Woven Fabric from Structurally Modified Shoddy/Wool Blended Worsted Yarn

The acceptability of new product is decided by its performance, level of improvement in quality a... more The acceptability of new product is decided by its performance, level of improvement in quality and economy of production. In the present study attempt has been made to create pores in twill woven fabric made from shoddy/wool/PVA blended yarn. The modified yarn was produced by removing a component viz; PVA, by treatment with hot water from blended yarn. A comparative assessment for different properties like bending behavior, air permeability, crease recovery, extensibility, strength and porosity for fabrics made from parent and treated yarn was done. The fabric from treated yarn was found to show significant improvement in bending rigidity, crease recovery, air permeability and extensibility while strength decline marginally.

Recycled fibers: An overview

Today, in the world of modern technologies, the demand for production is increasing so rapidly in... more Today, in the world of modern technologies, the demand for production is increasing so rapidly in all aspects of the
required living commodities. In order to meet all the required demands, over production and utilization of all resources
seem not enough. Therefore, the increasing demand for textile making huge clothing production is not only based on
demand for more population but it’s also changing new fashion habits as well. Improving raw material exploitation has
become the most important challenge facing scientific and industrial community. Textile production wastes are undesirable
but inevitable by- products in many manufacturing process (spinning, weaving, knitting, or garment manufacturing) and
are frequently undervalued. However, if one can convert such wastes into useful product economically, there will be great
contribution to the market. In this paper attempt has been made to give idea about different types of waste produced in
textile industries (spinning, weaving, knitting, or garment manufacturing) and also types of waste which can be used again
in recycling process to make some value added product. Also give different types of methods by which this waste can be
used to make new high quality products from existing material.

Comparative assessment & empirical modeling for aesthetic behavior of vortex & ring yarn knitted fabrics on laundering

Visual presence of a garment or clothing provides physical qualities in relationship with the bod... more Visual presence of a garment or clothing provides physical qualities in relationship with the body. Both functional and
aesthetic attributes contribute to the overall performance of the apparel system for a consumer. Development of new
technology, materials and newer research is adding to the expectation of the consumer. Aesthetic of any fabric attracts a
customer first. The aesthetic of a fabric prior to use can be altered either by changing the raw material or by the type of
yarn or by the method of manufacturing the fabric. The spinning system, loop length, yarn linear density, washing cycle
were found to have significant effect in influencing the aesthetic properties of knitted fabric. Contribution of loop length
and spinning system on spirality was found to be more dominating as compared to linear density and number of washing
cycles. Pilling of fabric and dimensional stability, which influence the visual appearance of a fabric, was mainly influenced
by the spinning system used as compared to other factors under consideration. Reflectance, which is generally influenced
more by the washing cycle, has also been found to be influenced by the spinning system and loop length used in producing
the fabric