1,343 research outputs found
Influence of moisture management finish on comfort characteristics of knitted fabrics made from different yarns
The influence of moisture management finish on comfort characteristics of knitted fabrics made from five different yarns has been studied in order to find out their level of performance. In order to study this effect, five types of yarns, namely microdenier polyester, spun polyester, polyester / cotton, filament polyester and 100% cotton, have been converted to knitted fabrics. It is observed that microdenier polyester fabrics having high wicking action and quicker moisture evaporation show superior performance with respect to comfort characteristic
Influence of moisture management finish on comfort characteristics of knitted fabrics made from different yarns
102-108The influence of moisture management finish on comfort characteristics of knitted fabrics made from five different yarns has been studied in order to find out their level of performance. In order to study this effect, five types of yarns, namely microdenier polyester, spun polyester, polyester / cotton, filament polyester and 100% cotton, have been converted to knitted fabrics. It is observed that microdenier polyester fabrics having high wicking action and quicker moisture evaporation show superior performance with respect to comfort characteristics
Moisture management finish on woven fabrics
Moisture management behaviour of four different woven fabrics, such as cotton, polyester/cotton blend, microdenierpolyester and nylon, has been studied. A wetting agent of ethoxylated alcohol blend and moisture management finishingagents, such as amino silicone polyether copolymer and hydrophilic polymer, have been prepared and used. Moisturemanagement finishes with wetting agent and without wetting agent are imparted onto woven fabrics. The effect of moisturemanagement finishing process parameters on the comfort properties of woven fabrics has been studied. The optimization ofcomfort level by varying the moisture management finishing process parameters in order to achieve suitability for makingsports wear is done. It is found that the type of fibre and linear density of yarn affect the comfort properties of woven fabricswhich include wicking, wetting, water absorbency and moisture vapour transmission characteristics. Based on the testresults, microdenier polyester fabrics and cotton fabrics exhibit good wicking, wetting and water absorbency characteristicsthan the polyester/cotton blend and nylon. It is found that the combination of ethoxylated alcohol (wetting agent) and therecipe containing amino silicone polyether copolymer and hydrophilic polymer in the ratio of 1:2 with pH of 5.5 at 600-700 Ctemperature is the optimum finishing process than the other two combinations so as to attain better comfort propertiesfor sportswear
Moisture management finish on woven fabrics
486-491Moisture management behaviour of four different woven fabrics, such as cotton, polyester/cotton blend, microdenier polyester and nylon, has been studied. A wetting agent of ethoxylated alcohol blend and moisture management finishing agents, such as amino silicone polyether copolymer and hydrophilic polymer, have been prepared and used. Moisture management finishes with wetting agent and without wetting agent are imparted onto woven fabrics. The effect of moisture management finishing process parameters on the comfort properties of woven fabrics has been studied. The optimization of comfort level by varying the moisture management finishing process parameters in order to achieve suitability for making sports wear is done. It is found that the type of fibre and linear density of yarn affect the comfort properties of woven fabrics which include wicking, wetting, water absorbency and moisture vapour transmission characteristics. Based on the test results, microdenier polyester fabrics and cotton fabrics exhibit good wicking, wetting and water absorbency characteristics than the polyester/cotton blend and nylon. It is found that the combination of ethoxylated alcohol (wetting agent) and the recipe containing amino silicone polyether copolymer and hydrophilic polymer in the ratio of 1:2 with pH of 5.5 at 600-700 C temperature is the optimum finishing process than the other two combinations so as to attain better comfort properties for sportswear
An approach to Kaarya Karana Vaada in context to Prakruti Sama Samveta and Vikruti Vishama Samvetha
Ayurveda is an ancient science based on different schools of philosophies. As it is an applied science so it has the scientific background. The fundamental principles of Ayurveda are laid down after undergoing experimentation from time to time. This is the reason that these principles are still applicable and holds good even in present era. One such basic principle is Kaarya Karana Vaada (cause and effect theory). Kaarya Karana Vaada consists of two basic philosophy, Satkaaryavaada (theory of existence) and Asatkaaryavaada (theory of non existence). The principles of diagnosis and management of disease according to Ayurveda is based on this Kaarya Karana sidhantha. It helps in understanding the concepts of prakruti Sama Samavetha and vikruti Vishama Samavetha , the two principles explained in Ayurveda to understand the concept of diagnosis , treatment and health management
Basti - A critical review on the basis of historical aspect
Basti is one of the most vital measure described in different texts for the internal purification of the body. Panchakarma plays a major role in eradicating the disease and its wide applicability bound Acharyas to describe it as 'Chikitsardha'. Because of its said peculiarities, we decided to search and elaborate its descriptions in various texts starting from the oldest one i.e. Vedas. Basti has been described in nearly all texts starting from Veda, Purana upto Yogic and all Ayurvedic Samhitas. Although various Acharyas described its various types and applications but most of the Ayurvedic Samhitas mentioned Basti especially for pacification of Vata Dosha
Barriers and facilitators experienced by osteopaths in implementing a biopsychosocial (BPS) framework of care when managing people with musculoskeletal pain – a mixed methods systematic review
BACKGROUND: Clinical practice guidelines commonly recommend adopting a biopsychosocial (BPS) framework by practitioners managing musculoskeletal pain. However, it remains unclear how osteopaths implement a BPS framework in the management of musculoskeletal pain. Hence, the objective of this review was to systematically appraise the literature on the current practices, barriers and facilitators experienced by osteopaths in implementing a BPS framework of care when managing people with musculoskeletal pain. METHODS: The following electronic databases from January 2005 to August 2020 were searched: PubMed, CINAHL, Science Direct, Google Scholar, ProQuest Central and SCOPUS. Two independent reviewers reviewed the articles retrieved from the databases to assess for eligibility. Any studies (quantitative, qualitative and mixed methods) that investigated the use or application of the BPS approach in osteopathic practice were included in the review. The critical appraisal skills program (CASP) checklist was used to appraise the qualitative studies and the Mixed Methods Appraisal Tool (MMAT) was used to appraise quantitative or mixed methods studies. Advanced convergent meta-integration was used to synthesise data from quantitative, qualitative and mixed methods studies. RESULTS: A total of 6 studies (two quantitative, three qualitative and one mixed methods) were included in the final review. While two key concepts (current practice and embracing a BPS approach) were generated using advanced meta-integration synthesis, two concepts (barriers and enablers) were informed from qualitative only data. DISCUSSION: Our review finding showed that current osteopathic practice occurs within in the biomedical model of care. Although, osteopaths are aware of the theoretical underpinnings of the BPS model and identified the need to embrace it, various barriers exist that may prevent osteopaths from implementing the BPS model in clinical practice. Ongoing education and/or workshops may be necessary to enable osteopaths to implement a BPS approach
Magneto-optics of massive Dirac fermions in bulk Bi2Se3
We report on magneto-optical studies of Bi2Se3, a representative member of
the 3D topological insulator family. Its electronic states in bulk are shown to
be well described by a simple Dirac-type Hamiltonian for massive particles with
only two parameters: the fundamental bandgap and the band velocity. In a
magnetic field, this model implies a unique property - spin splitting equal to
twice the cyclotron energy: Es = 2Ec. This explains the extensive
magneto-transport studies concluding a fortuitous degeneracy of the spin and
orbital split Landau levels in this material. The Es = 2Ec match differentiates
the massive Dirac electrons in bulk Bi2Se3 from those in quantum
electrodynamics, for which Es = Ec always holds.Comment: 5 pages, 3 figures and Supplementary materials, to be published in
Physical Review Letter
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