Relevant bibliographies by topics / Physical Properties of W. Somnifera

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Physical Properties of W. Somnifera'

Author: Grafiati
Published: 3 June 2025
Last updated: 31 July 2025

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Journal articles on the topic "Physical Properties of W. Somnifera"

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Gaurav, Harshita, Divyanshu Yadav, Ankita Maurya, et al. "Biodiversity, Biochemical Profiling, and Pharmaco-Commercial Applications of Withania somnifera: A Review." Molecules 28, no. 3 (2023): 1208. http://dx.doi.org/10.3390/molecules28031208.

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Withania somnifera L. Dunal (Ashwagandha), a key medicinal plant native to India, is used globally to manage various ailments. This review focuses on the traditional uses, botany, phytochemistry, and pharmacological advances of its plant-derived constituents. It has been reported that at least 62 crucial and 48 inferior primary and secondary metabolites are present in the W. somnifera leaves, and 29 among these found in its roots and leaves are chiefly steroidal compounds, steroidal lactones, alkaloids, amino acids, etc. In addition, the whole shrub parts possess various medicinal activities s
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Pandey, Umesh Chandra, Karunakar Shukla, and Rakesh Kumar Jatav. "Pharmacognostical, Phytochemical Screening and Evaluation of Anxiolytic activity of Alcoholic Extract of Withania somnifera (L) Dunal Roots." Journal of Drug Delivery and Therapeutics 13, no. 5 (2023): 29–34. http://dx.doi.org/10.22270/jddt.v13i5.5806.

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The roots of Withania somnifera (L) Dunal (W. somnifera) are used extensively in Ayurveda, the classical Indian system of medicine, and W. somnifera is categorized as a rasayana, which are used to promote physical and mental health, to provide defense against disease and adverse environmental factors and to arrest the aging process. W. somnifera has been used to stabilize mood in patients with behavioural disturbances. The objective of this study was to investigate pharmacognostical, phytochemical features and anxiolytic activity of alcoholic extracts of W. somnifera roots. The various pharmac
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Nykvist, Cathryn Dawn, Mahendra Kumar Trivedi, Gopal Nayak, Alice Branton, and Dahryn Trivedi. "A Comprehensive Physical, Spectroscopic, and Thermal Characterization of Withania somnifera (Ashwagandha) Root Extract Treated with the Energy of Consciousness (The Trivedi Effect®)." International Journal of Biomedical Materials Research 5, no. 1 (2017): 5–14. https://doi.org/10.5281/zenodo.822549.

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Withania somnifera (Ashwagandha) root extract possesses a broad range of pharmacological activities. The aim of current study was to explore the impact of The Trivedi Effect® - Energy of Consciousness Healing Treatment (Biofield Energy Healing Treatment) on the physical, spectroscopic, and thermal properties of ashwagandha root extract using PXRD, PSD, FT-IR, UV-vis spectroscopy, TGA, and DSC analysis. Ashwagandha root extract was divided into two parts. One part was denoted as the control, while the other part was defined as The Trivedi Effect® - Biofield Energy Treated sample, which received
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Vincent, Dianne Heather, Mahendra Kumar Trivedi, Gopal Nayak, Alice Branton, and Dahryn Trivedi. "A Comprehensive Physical, Spectroscopic, and Thermal Characterization of Withania somnifera (Ashwagandha) Root Extract Treated with the Energy of Consciousness (The Trivedi Effect®)." International Journal of Biomedical Materials Research 5, no. 1 (2017): 5–14. https://doi.org/10.5281/zenodo.834415.

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Withania somnifera (Ashwagandha) root extract possesses a broad range of pharmacological activities. The aim of current study was to explore the impact of The Trivedi Effect® - Energy of Consciousness Healing Treatment (Biofield Energy Healing Treatment) on the physical, spectroscopic, and thermal properties of ashwagandha root extract using PXRD, PSD, FT-IR, UV-vis spectroscopy, TGA, and DSC analysis. Ashwagandha root extract was divided into two parts. One part was denoted as the control, while the other part was defined as The Trivedi Effect® - Biofield Energy Treated sample, which received
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Konersman, Douglas Jay, Mahendra Kumar Trivedi, Gopal Nayak, Alice Branton, and Dahryn Trivedi. "A Comprehensive Physical, Spectroscopic, and Thermal Characterization of Withania somnifera (Ashwagandha) Root Extract Treated with the Energy of Consciousness (The Trivedi Effect®)." International Journal of Biomedical Materials Research 5, no. 1 (2017): 5–14. https://doi.org/10.5281/zenodo.835640.

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Withania somnifera (Ashwagandha) root extract possesses a broad range of pharmacological activities. The aim of current study was to explore the impact of The Trivedi Effect® - Energy of Consciousness Healing Treatment (Biofield Energy Healing Treatment) on the physical, spectroscopic, and thermal properties of ashwagandha root extract using PXRD, PSD, FT-IR, UV-vis spectroscopy, TGA, and DSC analysis. Ashwagandha root extract was divided into two parts. One part was denoted as the control, while the other part was defined as The Trivedi Effect® - Biofield Energy Treated sample, which received
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Feeney, Elizabeth Ann, Mahendra Kumar Trivedi, Gopal Nayak, Alice Branton, and Dahryn Trivedi. "A Comprehensive Physical, Spectroscopic, and Thermal Characterization of Withania somnifera (Ashwagandha) Root Extract Treated with the Energy of Consciousness (The Trivedi Effect®)." International Journal of Biomedical Materials Research 5, no. 1 (2017): 5–14. https://doi.org/10.5281/zenodo.836593.

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Withania somnifera (Ashwagandha) root extract possesses a broad range of pharmacological activities. The aim of current study was to explore the impact of The Trivedi Effect® - Energy of Consciousness Healing Treatment (Biofield Energy Healing Treatment) on the physical, spectroscopic, and thermal properties of ashwagandha root extract using PXRD, PSD, FT-IR, UV-vis spectroscopy, TGA, and DSC analysis. Ashwagandha root extract was divided into two parts. One part was denoted as the control, while the other part was defined as The Trivedi Effect® - Biofield Energy Treated sample, which received
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Prague, Jay Anthony, Mahendra Kumar Trivedi, Gopal Nayak, Alice Branton, and Dahryn Trivedi. "A Comprehensive Physical, Spectroscopic, and Thermal Characterization of Withania somnifera (Ashwagandha) Root Extract Treated with the Energy of Consciousness (The Trivedi Effect®)." International Journal of Biomedical Materials Research 5, no. 1 (2017): 5–14. https://doi.org/10.5281/zenodo.838384.

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Withania somnifera (Ashwagandha) root extract possesses a broad range of pharmacological activities. The aim of current study was to explore the impact of The Trivedi Effect® - Energy of Consciousness Healing Treatment (Biofield Energy Healing Treatment) on the physical, spectroscopic, and thermal properties of ashwagandha root extract using PXRD, PSD, FT-IR, UV-vis spectroscopy, TGA, and DSC analysis. Ashwagandha root extract was divided into two parts. One part was denoted as the control, while the other part was defined as The Trivedi Effect® - Biofield Energy Treated sample, which received
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Starodub, Joanne Lydia, Mahendra Kumar Trivedi, Gopal Nayak, Alice Branton, and Dahryn Trivedi. "A Comprehensive Physical, Spectroscopic, and Thermal Characterization of Withania somnifera (Ashwagandha) Root Extract Treated with the Energy of Consciousness (The Trivedi Effect®)." International Journal of Biomedical Materials Research 5, no. 1 (2017): 5–14. https://doi.org/10.5281/zenodo.839093.

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Withania somnifera (Ashwagandha) root extract possesses a broad range of pharmacological activities. The aim of current study was to explore the impact of The Trivedi Effect® - Energy of Consciousness Healing Treatment (Biofield Energy Healing Treatment) on the physical, spectroscopic, and thermal properties of ashwagandha root extract using PXRD, PSD, FT-IR, UV-vis spectroscopy, TGA, and DSC analysis. Ashwagandha root extract was divided into two parts. One part was denoted as the control, while the other part was defined as The Trivedi Effect® - Biofield Energy Treated sample, which received
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Rasdan, Karan, Mahendra Kumar Trivedi, Gopal Nayak, Alice Branton, and Dahryn Trivedi. "A Comprehensive Physical, Spectroscopic, and Thermal Characterization of Withania somnifera (Ashwagandha) Root Extract Treated with the Energy of Consciousness (The Trivedi Effect®)." International Journal of Biomedical Materials Research 5, no. 1 (2017): 5–14. https://doi.org/10.5281/zenodo.840618.

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Withania somnifera (Ashwagandha) root extract possesses a broad range of pharmacological activities. The aim of current study was to explore the impact of The Trivedi Effect® - Energy of Consciousness Healing Treatment (Biofield Energy Healing Treatment) on the physical, spectroscopic, and thermal properties of ashwagandha root extract using PXRD, PSD, FT-IR, UV-vis spectroscopy, TGA, and DSC analysis. Ashwagandha root extract was divided into two parts. One part was denoted as the control, while the other part was defined as The Trivedi Effect® - Biofield Energy Treated sample, which received
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Mayne, Maire Anne, Mahendra Kumar Trivedi, Gopal Nayak, Alice Branton, and Dahryn Trivedi. "A Comprehensive Physical, Spectroscopic, and Thermal Characterization of Withania somnifera (Ashwagandha) Root Extract Treated with the Energy of Consciousness (The Trivedi Effect®)." International Journal of Biomedical Materials Research 5, no. 1 (2017): 5–14. https://doi.org/10.5281/zenodo.843623.

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Withania somnifera (Ashwagandha) root extract possesses a broad range of pharmacological activities. The aim of current study was to explore the impact of The Trivedi Effect® - Energy of Consciousness Healing Treatment (Biofield Energy Healing Treatment) on the physical, spectroscopic, and thermal properties of ashwagandha root extract using PXRD, PSD, FT-IR, UV-vis spectroscopy, TGA, and DSC analysis. Ashwagandha root extract was divided into two parts. One part was denoted as the control, while the other part was defined as The Trivedi Effect® - Biofield Energy Treated sample, which received
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Dissertations / Theses on the topic "Physical Properties of W. Somnifera"

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Killewald, Phillip. "Measuring physical properties of the W boson in 7 TeV proton-proton collisions." The Ohio State University, 2010. http://rave.ohiolink.edu/etdc/view?acc_num=osu1281636776.

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BALDACIM, SANDRO A. "Desenvolvimento, processamento e caracterizacao de compositos ceramicos Sisub(3)Nsub(4)-SiCsub(w)." reponame:Repositório Institucional do IPEN, 2000. http://repositorio.ipen.br:8080/xmlui/handle/123456789/10877.

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COSTA, FRANCINE A. da. "Sintese e sinterizacao de pos compositos do sistema W-Cu." reponame:Repositório Institucional do IPEN, 2004. http://repositorio.ipen.br:8080/xmlui/handle/123456789/11176.

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Le, Bihan Tristan. "SYNTHESE, STRUCTURES CRISTALLINES ET PROPRIETES MAGNETIQUES DE SILICIURES ET GERMANIURES TERNAIRES D'URANIUM OU DE TERRES RARES ET DE METAUX DE TRANSITION (V, Cr, Nb, Mo, Ta, W)." Rennes 1, 1993. http://www.theses.fr/1993REN10045.

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Premiere partie: etude du systeme binaire uranium-silicium: la structure cristalline de usi est d'un type nouveau. Nous avons verifie que le type structural feb, precedemment attribue a usi, est en fait celui d'un oxysiliciure usio#x. Les structures de u#3si#2 (type u#3si#2), u#3si#5 (type alb#2 lac. ) et usi#1#,#8#8 (type thsi#2 lac. ) ont ete verifiees et affinees a partir de monocristaux. Aucun des siliciures binaires d'uranium n'est ordonne magnetiquement a basse temperature, et l'evoution du moment effectif suit le critere de hill. Seconde partie: structures et proprietes magnetiques de s
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Großmann, Anja [Verfasser]. "Influence of manufacturing process parameters on the physical properties of an oil-in-water cream = Einfluss der Herstellungsfaktoren auf die physikalischen Eigenschaften einer O-W-Creme / vorgelegt von Anja Großmann." 2008. http://d-nb.info/98880090X/34.

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Books on the topic "Physical Properties of W. Somnifera"

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Kawazoe, Y., U. Carow-Watamura, and J. Z. Yu, eds. Physical Properties of Ternary Amorphous Alloys. Part 2: Systems from B-Be-Fe to Co-W-Zr. Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-13850-8.

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Kawazoe, Y., U. Carow-Watamura, and J. Z. Yu, eds. Physical Properties of Ternary Amorphous Alloys. Part 3: Systems from Cr-Fe-P to Si-W-Zr. Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-14133-1.

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Takeuchi, Akira, Ursula Carow-Watamura, Dmitri V. Louzguine, and Jing Zhi Yu. Part 3 : Systems from Cr-Fe-P to Si-W-Zr : Volume 37 : Phase Diagrams and Physical Properties of Nonequilibrium Alloys, Subvolume C: Physical Properties of Ternary Amorphous Alloys. Springer, 2011.

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Series, Michigan Historical Reprint. A new treatise on steam engineering, physical properties of permanent gases, and of different kinds of vapor, by John W. Nystrom, C.E. Scholarly Publishing Office, University of Michigan Library, 2005.

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Simchi-Levi, David, Philip Kaminsky, and Edith Simchi-Levi. Designing and Managing the Supply Chain: Concepts, Strategies, and Cases w/CD-ROM Package. McGraw-Hill/Irwin, 1999.

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Maj, Dorota. Modyfikujący wpływ roślinnych dodatków paszowych na użytkowość mięsną i ekspresję wybranych genów u królików w zależności od wieku i płci. Publishing House of the University of Agriculture in Krakow, 2017. http://dx.doi.org/10.15576/978-83-66602-29-8.

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The aim of the study was to determine the effect of feed additives (algae, soybean, and sunflower oil) used in the rabbit feed on: growth indices and slaughter traits, pH, colour, texture, chemical composition, fatty acid profile and oxidative stability (TBARS) of the meat as well as FTO and FABP4 genes expression in the meat’s intramuscular fat (m. longissimus lumborum), depending on the age and sex. The experimental material consisted of Termond White rabbits (n = 160, 80 females and 80 males). Animals were weaned on the 35th day of life, and housed in metal cages arranged in batteries (4 ra
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Book chapters on the topic "Physical Properties of W. Somnifera"

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Kawazoe, Yoshiyuki, and Ursula Carow-Watamura. "B-Co-Fe-W-Zr." In Phase Diagrams and Physical Properties of Nonequilibrium Alloys: 5 Component Amorphous Alloys. Springer Berlin Heidelberg, 2022. http://dx.doi.org/10.1007/978-3-662-64978-7_60.

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Carow-Watamura, U., D. V. Louzguine, and A. Takeuchi. "Nb-Si-W (322)." In Physical Properties of Ternary Amorphous Alloys. Part 3: Systems from Cr-Fe-P to Si-W-Zr. Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-14133-1_122.

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Carow-Watamura, U., D. V. Louzguine, and A. Takeuchi. "Ni-P-W (328)." In Physical Properties of Ternary Amorphous Alloys. Part 3: Systems from Cr-Fe-P to Si-W-Zr. Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-14133-1_128.

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Carow-Watamura, U., D. V. Louzguine, and A. Takeuchi. "P-Ru-W (339)." In Physical Properties of Ternary Amorphous Alloys. Part 3: Systems from Cr-Fe-P to Si-W-Zr. Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-14133-1_139.

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Carow-Watamura, U., D. V. Louzguine, and A. Takeuchi. "Si-W-Zr (351)." In Physical Properties of Ternary Amorphous Alloys. Part 3: Systems from Cr-Fe-P to Si-W-Zr. Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-14133-1_152.

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Dyadyura, Kostiantyn, and Valentina Pererva. "Physical-Mechanical Properties and Structural-Phase State of Nanostructure Wear-Resistant Coatings Based on Nitrides of Metals W and Cr." In Lecture Notes in Mechanical Engineering. Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-22365-6_40.

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Carow-Watamura, U., D. V. Louzguine, and A. Takeuchi. "Mo-Nb-Si (311)." In Physical Properties of Ternary Amorphous Alloys. Part 3: Systems from Cr-Fe-P to Si-W-Zr. Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-14133-1_107.

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Carow-Watamura, U., D. V. Louzguine, and A. Takeuchi. "Mo-Ni-P (312)." In Physical Properties of Ternary Amorphous Alloys. Part 3: Systems from Cr-Fe-P to Si-W-Zr. Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-14133-1_108.

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Carow-Watamura, U., D. V. Louzguine, and A. Takeuchi. "Mo-P-Rh (313)." In Physical Properties of Ternary Amorphous Alloys. Part 3: Systems from Cr-Fe-P to Si-W-Zr. Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-14133-1_109.

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Carow-Watamura, U., D. V. Louzguine, and A. Takeuchi. "Cr-Pd-Si (228)." In Physical Properties of Ternary Amorphous Alloys. Part 3: Systems from Cr-Fe-P to Si-W-Zr. Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-14133-1_11.

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Conference papers on the topic "Physical Properties of W. Somnifera"

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Martin, G., and F. Blanchard. "Development of New Duplex Stainless Steels Corrosion Resistance - New Techniques of Production." In CORROSION 1992. NACE International, 1992. https://doi.org/10.5006/c1992-92409.

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Abstract The main characteristics of super duplex stainless steel tubes and pipes according to UNS S32760 (25Cr 7Ni 3.5Mo W N) with a PREN ≥ 40 are described. Physical properties, pitting and crevice corrosion resistance, and stress corrosion cracking behavior are compared with other alloys also likely to be used in chloride and sea water environments. The interest of the powder metallurgy route for manufacturing seamless tubes in this alloy is underlined.
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Lietzau, Zachary, Manikandan Ramasamy, J. Leishman, John Ekaterinaris, and Rohit Jain. "Comparison of Advanced RANS Modeling with Dual-Plane PIV Measurements for a Hovering Rotor." In Vertical Flight Society 73rd Annual Forum & Technology Display. The Vertical Flight Society, 2017. http://dx.doi.org/10.4050/f-0073-2017-12003.

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Numerical simulations using the Reynolds-Averaged Navier-Stokes (RANS) equations were conducted to study the development and turbulent decay of the tip vortices in the wake produced by a hovering rotor blade. An extensive series of calculations was performed with the OVERFLOW 2.2l code, the results being compared to detailed dual-plane Particle Image Velocimetry (PIV) measurements of a turbulent tip vortex trailed from a single-bladed rotor. The work investigated both the required mesh resolution and most suitable turbulence closure models with corrections for rotation and streamline curvature
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Balasz, I., E. Burzo, and M. Valeanu. "Magnetic properties of Sr2FeMo1−xMxO6 perovskites with M=W or Ta." In SIXTH INTERNATIONAL CONFERENCE OF THE BALKAN PHYSICAL UNION. AIP, 2007. http://dx.doi.org/10.1063/1.2733504.

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Cai, Jing, Fengchun Jiang, Kenneth S. Vecchio, et al. "MECHANICAL AND MICROSTRUCTURAL PROPERTIES OF PTFE∕Al∕W SYSTEM." In SHOCK COMPRESSION OF CONDENSED MATTER - 2007: Proceedings of the Conference of the American Physical Society Topical Group on Shock Compression of Condensed Matter. AIP, 2008. http://dx.doi.org/10.1063/1.2833220.

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Feshchenko, A. A., E. A. Stepanova, V. N. Lepalovskij, E. A. Kravtsov, and V. O. Vas’kovskiy. "Effect of temperature on the hysteresis properties of Co-W films on different substrates." In THE 2ND INTERNATIONAL CONFERENCE ON PHYSICAL INSTRUMENTATION AND ADVANCED MATERIALS 2019. AIP Publishing, 2020. http://dx.doi.org/10.1063/5.0033480.

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Yan, Anru, Zhiyong Wang, and Zhihong Ma. "Thermal physical and mechanical properties of W-Cu alloy fabricated via selctive laser melting." In ICALEO® 2016: 35th International Congress on Applications of Lasers & Electro-Optics. Laser Institute of America, 2016. http://dx.doi.org/10.2351/1.5118552.

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Duffy, Dominic A., Igor P. Marko, Timothy D. Eales та ін. "Physical properties of low threshold current 1.25-μm type-II GaInAs/GaAsSb "W"-lasers". У Novel In-Plane Semiconductor Lasers XX, редактори Alexey A. Belyanin та Peter M. Smowton. SPIE, 2021. http://dx.doi.org/10.1117/12.2577808.

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Tritchkov, Ivan, and Helmut Goetz. "Verification and Validation of Decentralized, Self-Organizing Cyber-Physical Production Systems: A Blueprint Process for Testing Cyber-Physical Production Systems with Self-Properties." In 2016 IEEE 1st International Workshops on Foundations and Applications of Self* Systems (FAS*W). IEEE, 2016. http://dx.doi.org/10.1109/fas-w.2016.35.

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Piedra, Jonatan. "Measurement of the properties of top quarks in decays (includes W polarization, top quark charge and couplings)." In The European Physical Society Conference on High Energy Physics. Sissa Medialab, 2016. http://dx.doi.org/10.22323/1.234.0302.

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Smirnov, Ivan V., Konstantin V. Grinyaev, Alexander N. Tyumentsev, Ivan A. Ditenberg, Vyacheslav M. Chernov, and Mikhail M. Potapenko. "Thermomechanical treatment influence on microstructure and mechanical properties of V-W-Cr alloy." In PROCEEDINGS OF THE INTERNATIONAL CONFERENCE “PHYSICAL MESOMECHANICS. MATERIALS WITH MULTILEVEL HIERARCHICAL STRUCTURE AND INTELLIGENT MANUFACTURING TECHNOLOGY”. AIP Publishing, 2022. http://dx.doi.org/10.1063/5.0084644.

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Reports on the topic "Physical Properties of W. Somnifera"

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Burroughs, Jedadiah, Jason Weiss, and John Haddock. Influence of high volumes of silica fume on the rheological behavior of oil well cement pastes. Engineer Research and Development Center (U.S.), 2021. http://dx.doi.org/10.21079/11681/41288.

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Specialized classes of concrete, such as ultra-high-performance concrete, use volumes of silica fume in concrete that are higher than those in conventional concrete, resulting in increased water demand and mixing difficulty. This study considered the effects of eight different silica fumes in three dosages (10%, 20%, 30%) with three w/b (0.20, 0.30, 0.45) on rheological behavior as characterized by the Herschel-Bulkley model. Results indicated that the specific source of silica fume used, in addition to dosage and w/b, had a significant effect on the rheological behavior. As such, all silica f
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Siripatrawan, Ubonratana. Active Chitosan-Based Film with Antimicrobial Property for Food Packaging Application. Chulalongkorn University, 2010. https://doi.org/10.58837/chula.res.2010.22.

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This research was aimed to develop an active film from chitosan film incorporated with green tea extract to enhance antioxidant and antimicrobial properties in order to be used for food shelf life extension. The experiments were divided into 3 parts. Firstly, chitosan-based film preparation and modification were determined. The results suggested that the optimum chitosan films could be prepared from 2% chitosan in 1% acetic acid. However, the chitosan film was brittle and had low flexibility. Mechanical property of chitosan film was modified by adding different concentrations of glycerol, as a
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You might also be interested in the extended bibliographies on the topic 'Physical Properties of W. Somnifera' for particular source types:
Journal articles
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