The Experts below are selected from a list of 24 Experts worldwide ranked by ideXlab platform
B. Senthilkumar - One of the best experts on this subject based on the ideXlab platform.
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Eco Friendly Finishing To Bed Spreads Using Cactus Extract for Mosquito Repellency
International journal for social studies, 2018Co-Authors: D. Anitarachel, Balakrishnan, B. SenthilkumarAbstract:In the Textile Industry the Functional textiles of any product varies with its Finishing nature. My idea of this project is to produce an Eco friendly antimicrobial finishing to bed spreads using cactus extract for mosquito repellence. Finishing improves the fabrics performance and give special Cactus Miller, Psidium guajava and Azadirachtaindica etc for the mosquito repellent is one of the most effective tools for protecting human from vector borne diseases. To impact the Eco friendly antimicrobial finishing to bed spreads using cactus extract for mosquito repellence, the method chosen is Dip-Dry method of Cactus Extract. This work is a small effort in developing an eco friendly mosquito repellent finished fabric using the cactus extract. The fabric was finished by Padding Mangle method and evaluated using a exito chamber test. After finishing, the finished fabric showed 100% of repellent activity for direct application method. This study helps in the development of a mosquito repellent fabric which protects the human beings from the mosquito bites and thereby promising safety from the mosquito borne diseases. The Aim of this Project is to serve the Society without mosquito and the diseases.
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Eco Friendly Finishing To Bed Spreads Using Cactus Extract for Mosquito
International journal for social studies, 2016Co-Authors: Anita Rachel, Balakrishnan M, B. SenthilkumarAbstract:In the Textile Industry the Functional textiles of any product varies with its Finishing nature. My idea of this project is to produce an Eco friendly antimicrobial finishing to bed spreads using cactus extract for mosquito repellence. Finishing improves the fabrics performance and give special Cactus Miller, Psidium guajava and Azadirachtaindica etc for the mosquito repellent is one of the most effective tools for protecting human from vector borne diseases. To impact the Eco friendly antimicrobial finishing to bed spreads using cactus extract for mosquito repellence, the method chosen is Dip-Dry method of Cactus Extract. This work is a small effort in developing an eco friendly mosquito repellent finished fabric using the cactus extract. The fabric was finished by Padding Mangle method and evaluated using a exito chamber test. After finishing, the finished fabric showed 100% of repellent activity for direct application method. This study helps in the development of a mosquito repellent fabric which protects the human beings from the mosquito bites and thereby promising safety from the mosquito borne diseases. The Aim of this Project is to serve the Society without mosquito and the diseases. Keywords: Cotton fabric, Extract of cactus Miller, Exito Chamber, Mosquito repellent in textile, Cotton, Knitted Fabrics, Bed Spreads and Bed Sheets, Pad- dry-cure method.
C. Tonin - One of the best experts on this subject based on the ideXlab platform.
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Superheated Water Hydrolyzed Keratin: A New Application as a Foaming Agent in Foam Dyeing of Cotton and Wool Fabrics
ACS Sustainable Chemistry and Engineering, 2017Co-Authors: Parag S. Bhavsar, M. Giansetti, G. Rovero, Marina Zoccola, Alessia Patrucco, Augustin Muresan, Stelian Sergiu Maier, A. Montarsolo, Raffaella Mossotti, C. ToninAbstract:© 2017 American Chemical Society. A large amount of wool produced in the EU region is coarse and of low quality. The limited or nonutilization of such coarse wool leads to landfilling causing environmental pollution. In this paper, we studied the properties of keratin hydrolyzate, produced by a sustainable hydrolysis process, to be used as a foaming agent in foam dyeing of cotton and wool fabrics. This is a preliminary step on the way to find possible applications which overcome the environmental problem of wool waste and byproducts. We report for the first time the use of keratin hydrolyzate as a foaming auxiliary in the textile dyeing process. The surface tension, molecular weight, foam stability, blow ratio, and bubble size of keratin hydrolyzate in aqueous solutions with and without dyeing auxiliaries were determined. The dyeing influential parameter such as wet pickup was studied to identify their effect on dye fixation and color strength. The foam dyeing was compared with conventional cold-pad batch and pad-steam processes for cotton and wool, respectively. In the investigated variant, keratin hydrolyzate shows a reduction in surface tension, good foam stability along with dyeing auxiliaries, a blow ratio of about 10:1, and 0.02-0.1 mm diameter bubble sizes. These results make possible its application as a foaming agent. Cotton and wool fabrics were dyed using reactive and acid dyes respectively, on a horizontal Padding Mangle. In both cases, hydrolyzed keratin acts as a carrier for dye molecules and the mechanism of dyeing depends on the respective pH of the dye solution, keratin, and fiber. Foam dyeing of cotton resulted in comparable color strength, while wool shows higher color strength when compared with conventional dyeing processes. Washing and rubbing fastness of cotton and wool foam dyed fabrics are similar to the respective conventional dyed fabrics. The combinations of sustainable keratin hydrolyzate production and its use as an eco-friendly, biodegradable foaming agent in less add on foam dyeing technology resulted not only in saving of large amounts of water and energy but also will be helpful in minimizing a load on effluent and the environment.
Parag S. Bhavsar - One of the best experts on this subject based on the ideXlab platform.
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Superheated Water Hydrolyzed Keratin: A New Application as a Foaming Agent in Foam Dyeing of Cotton and Wool Fabrics
ACS Sustainable Chemistry and Engineering, 2017Co-Authors: Parag S. Bhavsar, M. Giansetti, G. Rovero, Marina Zoccola, Alessia Patrucco, Augustin Muresan, Stelian Sergiu Maier, A. Montarsolo, Raffaella Mossotti, C. ToninAbstract:© 2017 American Chemical Society. A large amount of wool produced in the EU region is coarse and of low quality. The limited or nonutilization of such coarse wool leads to landfilling causing environmental pollution. In this paper, we studied the properties of keratin hydrolyzate, produced by a sustainable hydrolysis process, to be used as a foaming agent in foam dyeing of cotton and wool fabrics. This is a preliminary step on the way to find possible applications which overcome the environmental problem of wool waste and byproducts. We report for the first time the use of keratin hydrolyzate as a foaming auxiliary in the textile dyeing process. The surface tension, molecular weight, foam stability, blow ratio, and bubble size of keratin hydrolyzate in aqueous solutions with and without dyeing auxiliaries were determined. The dyeing influential parameter such as wet pickup was studied to identify their effect on dye fixation and color strength. The foam dyeing was compared with conventional cold-pad batch and pad-steam processes for cotton and wool, respectively. In the investigated variant, keratin hydrolyzate shows a reduction in surface tension, good foam stability along with dyeing auxiliaries, a blow ratio of about 10:1, and 0.02-0.1 mm diameter bubble sizes. These results make possible its application as a foaming agent. Cotton and wool fabrics were dyed using reactive and acid dyes respectively, on a horizontal Padding Mangle. In both cases, hydrolyzed keratin acts as a carrier for dye molecules and the mechanism of dyeing depends on the respective pH of the dye solution, keratin, and fiber. Foam dyeing of cotton resulted in comparable color strength, while wool shows higher color strength when compared with conventional dyeing processes. Washing and rubbing fastness of cotton and wool foam dyed fabrics are similar to the respective conventional dyed fabrics. The combinations of sustainable keratin hydrolyzate production and its use as an eco-friendly, biodegradable foaming agent in less add on foam dyeing technology resulted not only in saving of large amounts of water and energy but also will be helpful in minimizing a load on effluent and the environment.
M. Giansetti - One of the best experts on this subject based on the ideXlab platform.
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Superheated Water Hydrolyzed Keratin: A New Application as a Foaming Agent in Foam Dyeing of Cotton and Wool Fabrics
ACS Sustainable Chemistry and Engineering, 2017Co-Authors: Parag S. Bhavsar, M. Giansetti, G. Rovero, Marina Zoccola, Alessia Patrucco, Augustin Muresan, Stelian Sergiu Maier, A. Montarsolo, Raffaella Mossotti, C. ToninAbstract:© 2017 American Chemical Society. A large amount of wool produced in the EU region is coarse and of low quality. The limited or nonutilization of such coarse wool leads to landfilling causing environmental pollution. In this paper, we studied the properties of keratin hydrolyzate, produced by a sustainable hydrolysis process, to be used as a foaming agent in foam dyeing of cotton and wool fabrics. This is a preliminary step on the way to find possible applications which overcome the environmental problem of wool waste and byproducts. We report for the first time the use of keratin hydrolyzate as a foaming auxiliary in the textile dyeing process. The surface tension, molecular weight, foam stability, blow ratio, and bubble size of keratin hydrolyzate in aqueous solutions with and without dyeing auxiliaries were determined. The dyeing influential parameter such as wet pickup was studied to identify their effect on dye fixation and color strength. The foam dyeing was compared with conventional cold-pad batch and pad-steam processes for cotton and wool, respectively. In the investigated variant, keratin hydrolyzate shows a reduction in surface tension, good foam stability along with dyeing auxiliaries, a blow ratio of about 10:1, and 0.02-0.1 mm diameter bubble sizes. These results make possible its application as a foaming agent. Cotton and wool fabrics were dyed using reactive and acid dyes respectively, on a horizontal Padding Mangle. In both cases, hydrolyzed keratin acts as a carrier for dye molecules and the mechanism of dyeing depends on the respective pH of the dye solution, keratin, and fiber. Foam dyeing of cotton resulted in comparable color strength, while wool shows higher color strength when compared with conventional dyeing processes. Washing and rubbing fastness of cotton and wool foam dyed fabrics are similar to the respective conventional dyed fabrics. The combinations of sustainable keratin hydrolyzate production and its use as an eco-friendly, biodegradable foaming agent in less add on foam dyeing technology resulted not only in saving of large amounts of water and energy but also will be helpful in minimizing a load on effluent and the environment.
Marina Zoccola - One of the best experts on this subject based on the ideXlab platform.
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Superheated Water Hydrolyzed Keratin: A New Application as a Foaming Agent in Foam Dyeing of Cotton and Wool Fabrics
ACS Sustainable Chemistry and Engineering, 2017Co-Authors: Parag S. Bhavsar, M. Giansetti, G. Rovero, Marina Zoccola, Alessia Patrucco, Augustin Muresan, Stelian Sergiu Maier, A. Montarsolo, Raffaella Mossotti, C. ToninAbstract:© 2017 American Chemical Society. A large amount of wool produced in the EU region is coarse and of low quality. The limited or nonutilization of such coarse wool leads to landfilling causing environmental pollution. In this paper, we studied the properties of keratin hydrolyzate, produced by a sustainable hydrolysis process, to be used as a foaming agent in foam dyeing of cotton and wool fabrics. This is a preliminary step on the way to find possible applications which overcome the environmental problem of wool waste and byproducts. We report for the first time the use of keratin hydrolyzate as a foaming auxiliary in the textile dyeing process. The surface tension, molecular weight, foam stability, blow ratio, and bubble size of keratin hydrolyzate in aqueous solutions with and without dyeing auxiliaries were determined. The dyeing influential parameter such as wet pickup was studied to identify their effect on dye fixation and color strength. The foam dyeing was compared with conventional cold-pad batch and pad-steam processes for cotton and wool, respectively. In the investigated variant, keratin hydrolyzate shows a reduction in surface tension, good foam stability along with dyeing auxiliaries, a blow ratio of about 10:1, and 0.02-0.1 mm diameter bubble sizes. These results make possible its application as a foaming agent. Cotton and wool fabrics were dyed using reactive and acid dyes respectively, on a horizontal Padding Mangle. In both cases, hydrolyzed keratin acts as a carrier for dye molecules and the mechanism of dyeing depends on the respective pH of the dye solution, keratin, and fiber. Foam dyeing of cotton resulted in comparable color strength, while wool shows higher color strength when compared with conventional dyeing processes. Washing and rubbing fastness of cotton and wool foam dyed fabrics are similar to the respective conventional dyed fabrics. The combinations of sustainable keratin hydrolyzate production and its use as an eco-friendly, biodegradable foaming agent in less add on foam dyeing technology resulted not only in saving of large amounts of water and energy but also will be helpful in minimizing a load on effluent and the environment.
