Letteratura scientifica selezionata sul tema "Heating textile"
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Articoli di riviste sul tema "Heating textile":
Józefczak, Arkadiusz, Katarzyna Kaczmarek, Rafał Bielas, Jitka Procházková e Ivo Šafařík. "Magneto-Responsive Textiles for Non-Invasive Heating". International Journal of Molecular Sciences 24, n. 14 (21 luglio 2023): 11744. http://dx.doi.org/10.3390/ijms241411744.
Chatterjee, Kony, e Tushar K. Ghosh. "Thermoelectric Materials for Textile Applications". Molecules 26, n. 11 (25 maggio 2021): 3154. http://dx.doi.org/10.3390/molecules26113154.
KANIA, ANNA, e MARCIN BARBURSKI. "IMPROVING LOCAL THERMAL COMFORT IN BUILDINGS: A STUDY OF PROPERTIES OF HEATING TEXTILE COMPOSITES IN CONSTRUCTION INDUSTRY". Fibres and Textiles 30, n. 1 (2023): 80–83. http://dx.doi.org/10.15240/tul/008/2023-1-014.
Koncar, V., C. Cochrane, M. Lewandowski, F. Boussu e C. Dufour. "Electro‐conductive sensors and heating elements based on conductive polymer composites". International Journal of Clothing Science and Technology 21, n. 2/3 (27 febbraio 2009): 82–92. http://dx.doi.org/10.1108/09556220910933808.
Chen, Hung-Jen, e Lan-Hui Huang. "An Investigation of the Design Potential of Thermochromic Home Textiles Used with Electric Heating Techniques". Mathematical Problems in Engineering 2015 (2015): 1–5. http://dx.doi.org/10.1155/2015/151573.
Blachowicz, Tomasz, Maciej Malczyk, Ilda Kola, Guido Ehrmann, Eva Schwenzfeier-Hellkamp e Andrea Ehrmann. "Textiles for Very Cold Environments". Processes 12, n. 5 (1 maggio 2024): 927. http://dx.doi.org/10.3390/pr12050927.
Ali, Muhammad, Saira Faisal, Shenela Naqvi, Khadija Abdul Wahab, Rida Afreen e Long Lin. "Electrically heated wearable textiles produced by conventional pigmented inks containing carbon black". Pigment & Resin Technology 51, n. 4 (14 luglio 2021): 390–96. http://dx.doi.org/10.1108/prt-05-2021-0051.
YOSHIMURA, YURIKA, e TAKERU OHE. "Textile Processing by Microwave Heating". FIBER 66, n. 10 (2010): P.339—P.343. http://dx.doi.org/10.2115/fiber.66.p_339.
Hasanbeigi, Ali, e M. Jibran S. Zuberi. "Electrified Process Heating in Textile Wet-Processing Industry: A Techno-Economic Analysis for China, Japan, and Taiwan". Energies 15, n. 23 (25 novembre 2022): 8939. http://dx.doi.org/10.3390/en15238939.
Reese, Julian, Gerald Hoffmann, Johannes Fieres e Chokri Cherif. "Characterization of the electrical behavior of a discontinuous hybrid yarn textile made of recycled carbon and PA6 fibers during Joule heating". Journal of Thermoplastic Composite Materials 33, n. 10 (29 giugno 2020): 1317–35. http://dx.doi.org/10.1177/0892705720930794.
Tesi sul tema "Heating textile":
Hasan, M. M. B., M. Offermann, M. Haupt, A. Nocke e Ch Cherif. "Carbon filament yarn-based hybrid yarn for the heating of textile-reinforced concrete". Sage, 2014. https://tud.qucosa.de/id/qucosa%3A35610.
Leopold, Diatezo. "Multifunctional materials for intelligent textile : Toward automotive applications". Electronic Thesis or Diss., Lyon, INSA, 2023. http://www.theses.fr/2023ISAL0114.
This PhD student research project concerns the development and use of printable multifunctional materials, focusing on the trade-offs between material properties and application specification, with a particular emphasis on joule heating and electroluminescence functions. The originality of the work lies in a coupled approach between multifunctional materials and textile integration. The first part of the study concerned the selection of multifunctional materials deemed potentially interesting for the creation of intelligent textiles adapted to TESCA-groupe's target sectors. This involved characterizing the electrical and thermal properties of both the conductive materials and the textile substrate. In addition, analyses using scanning electron microscopy (SEM)/energy dispersive spectroscopy (EDS) and X-ray diffraction (XRD) were carried out to study the microstructure, including adhesion, the thickness of the deposited layers and the chemical composition of the materials. The second aspect focused on an accelerated ageing study on unit specimens of textile substrates coated with conductive ink, in compliance with the specifications required by Tesca. The aim of this approach was to identify the inherent limitations of each material, such as maximum deformation, temperature variations, adhesion, process compatibility, etc., with a view to proposing areas for optimization or taking these limitations into account when designing transducers integrated on textile substrates. This first step enabled us to establish a base of multifunctional materials that could be used for specific applications, such as heating mats, capacitive or resistive switches, transducers, sensors for mechanical quantities, among others. The third aspect of this research consisted in assembling these basic elements to create sub-functions described as "intelligent". In fact, the production of transducers generally involved combining different multifunctional materials to meet the specific requirements of the target application
Deruaz, Jean-Pierre. "Utilisation des champs électromagnétiques dans les traitements d'ennoblissement textiles". Nancy 1, 1989. http://www.theses.fr/1989NAN10294.
林繼棟 e Kai-tung George Lam. "A novel thermomechanical treatment process for enhancing gamma fibre texture recrystallisation components". Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2002. http://hub.hku.hk/bib/B42576507.
Lunt, Phillip E. "Heating Protocol for the Construction of a Statistical Model Predicting the Texture Parameters of Commercially Available Baby Foods". Miami University / OhioLINK, 2020. http://rave.ohiolink.edu/etdc/view?acc_num=miami15874852673775.
Chase, Jennifer Leigh. "Utah Red Raspberry Jam: The Effects of Formulation, Heating, and Time on Color, Flavor, Texture, and Antioxidant Capacity". BYU ScholarsArchive, 2013. https://scholarsarchive.byu.edu/etd/4278.
Ali, Abubeker Yimam. "Understanding the effects of mineralogy, ore texture and microwave power delivery on microwave treatment of ores". Thesis, Stellenbosch : University of Stellenbosch, 2010. http://hdl.handle.net/10019.1/3988.
ENGLISH ABSTRACT: Previous work has shown that microwave heating of mineral ores induces fractures around grain boundaries due to the differences in absorption of microwaves and the resulting differential thermal expansion among the various mineral phases in the ore particles. As a consequence, this reduces the energy required in subsequent grinding and enhances liberation of valuable minerals. In this study, first, the influences of different variables on bulk strength reduction of microwave treated ores have been investigated. Nine different binary ore models were constructed by randomly disseminating 10 vol.% microwave absorbing minerals in transparent matrices. Computational simulations of heating, thermal damage and unconfined compressive strength (UCS) tests on the conceptual binary ores have been undertaken by using finite-difference modelling techniques. The influence of thermo-mechanical properties of minerals on strength reduction of microwave treated ores was examined. It was shown that in general the thermal properties of the microwave absorbing mineral and the mechanical properties of the transparent matrix have the most significant effect on the strength reduction. Binary ores containing a microwave absorbing mineral that has a high thermal expansion coefficient in a strong transparent matrix achieved higher reductions in strength. The influence of absorbent phase grain size on strength reduction of ores was also quantified. It was shown that for the same energy inputs and mineral types, the reductions in strength were much higher in coarse-grained ores. It has also been shown that for the same mineralogy and treatment condition, ores with poorly disseminated heated phase achieved much higher strength reduction. The effect of microwave treatment on the mechanical state of an ore sample was also examined. It was demonstrated that unconfined compressive strength is less sensitive to microwave-induced micro-fractures and found to be a poor descriptor of liberation behaviour. A new method of characterizing damage in microwave treated ore using a continuum approach was developed. The method measures the damage around the grain boundary regions during the heating process. Using the method, it was possible to elucidate in detail the influences of power density, mineralogy, ore texture on microwave treatment of ore. It was shown that the amount of grain boundary damage incurred at a specific power density and energy input is dependent both on the ore mineralogy and its texture. The energy inputs that were required for significant (> 10%) grain boundary damage in the ores range from 0.09 to 7.06 kWh/t depending on the power density applied, the ore mineralogy and its texture. It was also shown that for a given mineralogy and ore texture there is a power density level below which no further increase in grain boundary damage is possible by increasing exposure time. The effect of pulse repetition frequency on grain boundary damage was also elucidated using the method. It was found that high pulse repetition frequencies (³ 50 Hz) resulted in an amount of grain boundary damage that was indistinguishable from that caused by continuous wave operation for a fixed energy input. It has also been shown that for a fixed microwave energy input the best result would be obtained by using the lowest possible pulse repetition frequency and highest peak pulse power. The effect of microwave treatment of ores at different treatment conditions on the extent of damage and crack pattern was also investigated in detail using bondedparticle model (BPM). It has been shown that the amount of micro-cracks and also the cracks pattern in an ore sample after microwave treatment significantly depend on its mineralogy, microwave treatment condition (power density) and absorbent phase grain size. It has also been shown that a minimum power density is required to localize damage around the grain boundary in an ore sample. This minimum power density was found to strongly depend on the ore mineralogy and its texture. Initial simulation test work concerning the effect of microwave treatment on liberation of minerals is also presented. It has been shown that microwave irradiation considerably changed the fracture pattern of an ore in simulated single particle crushing. The fracture pattern of the ore treated at high power density (Pd = 0.1 kW /mm3abs for 1 ms) was along the grain boundary and the absorbent mineral was intact. In the ore treated at lower power density for the same energy input (Pd = 1 W/mm3abs for 0.1 s) both intergranular and transgranular fractures were observed. However, in all cases the fracture patterns were preferentially localized around the grain boundary compared to that of the untreated ore.
AFRIKAANSE OPSOMMING: Vorige studies het getoon dat mikrogolfverhitting van mineraalertse tot breuke om die ertskorrelgrense aanleiding gee, omdat die verskillende mineraalfases in die ertsdeeltjies die mikrogolwe verskillend absorbeer, en dus ook verskillend uitsit. Korrelgrensbreuke verminder die vereiste energie vir latere slypwerk, en verhoog die vrystelling van waardevolle minerale. Hierdie studie het eerstens die uitwerking van verskillende veranderlikes op die algehele sterktevermindering van mikrogolfbehandelde ertse ondersoek. Hiervoor is nege verskillende binêre ertsmodelle vervaardig deur mikrogolfabsorberende minerale met ʼn volumepersentasie van 10% lukraak in deursigtige matrikse te versprei. Met behulp van eindigeverskilmodelleringstegnieke is berekeningsimulasies van verhitting, warmteskade en onbegrensde druksterkte (“unconfined compressive strength”) op die konseptuele binêre ertse uitgevoer. Die invloed van termomeganiese mineraaleienskappe op die sterktevermindering van mikrogolfbehandelde ertse is eerste onder die loep geneem. Daar is bevind dat die warmte-eienskappe van die mikrogolfabsorberende mineraal, en die meganiese eienskappe van die deursigtige matriks, die beduidendste uitwerking op sterktevermindering het. Binêre ertse wat ʼn mikrogolfabsorberende mineraal bevat met ʼn hoë warmte-uitsettingskoëffisiënt in ʼn sterk deursigtige matriks, het groter sterkteverminderings getoon. Die invloed van korrelgrootte in die absorbeerfase op die sterktevermindering van ertse is volgende versyfer. Die studie het getoon dat, op grond van dieselfde energie-insette en mineraalsoorte, grofkorrelrige ertse groter sterktevermindering ondergaan het. Eweneens is bewys dat, met dieselfde mineralogie en behandelingsomstandighede, ertse met ʼn swak verspreide verhittingsfase ook groter sterktevermindering ervaar. Die uitwerking van mikrogolfbehandeling op die meganiese toestand van ʼn ertsmonster is boonop ondersoek. Die studie het getoon dat onbegrensde druksterkte minder gevoelig vir mikrogolfgeïnduseerde mikrobreuke is, en as ʼn swak aanwyser van vrystellingsgedrag beskou word. ʼn Nuwe metode om skade by mikrogolfbehandelde ertse te tipeer is gevolglik met behulp van ʼn kontinuumbenadering ontwikkel. Dié metode meet die skade rondom die korrelgrens gedurende die verhittingsproses. Deur middel van voormelde metode was dit dus moontlik om die invloed van kragdigtheid, mineralogie en ertstekstuur op die mikrogolfbehandeling van erts deeglik te ondersoek. Daar is bevind dat die mate van korrelgrensskade by ʼn bepaalde kragdigtheid en energie-inset, van sowel die ertsmineralogie as ertstekstuur afhang. Na gelang van die toegepaste kragdigtheid, die ertsmineralogie en ertstekstuur, het die vereiste energie-insette vir beduidende (>10%) korrelgrensskade van 0,09 tot 7,06 kWh/t gewissel. Dit het voorts geblyk dat enige bepaalde mineralogie en ertstekstuur oor ʼn minimum kragdigtheidsvlak beskik, onder welke vlak geen verlenging in blootstellingstyd enige verdere korrelgrensskade kan veroorsaak nie. Die uitwerking van pulsherhaalfrekwensie op korrelgrensskade is ook met behulp van bogenoemde metode verklaar. Die studie het getoon dat, op grond van ʼn vaste energie-inset, hoë pulsherhaalfrekwensies (≥50 Hz) en gelykgolfwerking presies dieselfde hoeveelheid korrelgrensskade tot gevolg het. Volgende is daar met behulp van ʼn gebondedeeltjiemodel (“bonded-particle model”) noukeurig ondersoek ingestel na die uitwerking van verskillende mikrogolfbehandelingsomstandighede op die hoeveelheid skade en die kraakpatroon by ertse. Die studie het getoon dat die hoeveelheid mikrokrake sowel as die kraakpatroon in ʼn mikrogolfbehandelde ertsmonster in ʼn groot mate van die betrokke erts se mineralogie, mikrogolfbehandelingsomstandighede (kragdigtheid) en korrelgrootte in die absorbeerfase afhang. Daar is ook bevind dat ʼn minimum kragdigtheid nodig is om skade tot die gebied om die korrelgrens te beperk, welke minimum kragdigtheid oënskynlik grotendeels deur die ertsmineralogie en -tekstuur bepaal word. Die studie bevat ook die resultate van aanvangsimulasietoetse oor die uitwerking van mikrogolfbehandeling op mineraalvrystelling. Die toetse het getoon dat mikrogolfbestraling ʼn beduidende verandering tot gevolg het in die ertsbreekpatroon met gesimuleerde enkeldeeltjievergruising. Die breekpatroon van die erts wat by hoë kragdigtheid (Pd = 0,1 kW/mm3abs vir 1 ms) behandel is, het ál langs die korrelgrens gestrek, terwyl die absorberende mineraal nog ongeskonde was. In die erts wat by laer kragdigtheid dog dieselfde energie-inset behandel is (Pd = 1 W/mm3abs vir 0,1 s), is sowel tussenkorrel- as oorkorrelbreuke opgemerk. In teenstelling met die onbehandelde erts, was die breekpatrone by die behandelde erts egter in alle gevalle steeds merendeels rondom die korrelgrens geleë.
Nguyen, Chi-Toan. "Microstructure changes during fast beta cycles of zirconium alloys". Thesis, University of Manchester, 2018. https://www.research.manchester.ac.uk/portal/en/theses/microstructure-changes-during-fast-beta-cycles-of-zirconium-alloys(f8812f2b-21d3-420d-a9f7-d5be72bcccb5).html.
YU-CHEN, TUNG, e 童郁甄. "Application Development of Smart Textiles-Creative Design on Heating Pad". Thesis, 2015. http://ndltd.ncl.edu.tw/handle/zgg47s.
逢甲大學
創意設計碩士學位學程
104
Given the rise of smart textiles, to bring innovative market impact, these issues generate demand for innovative health care products and personal care of the wearable mobile devices. This study focused on physical function characteristic analysis and patent-related preferences heating pad product of analysis, and complete pad creative design, to explore the material appearance, composition structure and functional problems, with the overall results of the analysis to construct the optimal functional integration of functional structure and function material to create a line of consumer groups applied electric textiles, pointed out by the findings of the study consumer preferences for electric heating textiles, which are based on Kansei engineering design of a thermal insulation of a far-infrared good, versatile, multi-purpose nature of the electric textiles, so as to achieve uniform temperature, heat stability, carbon reduction, security, health care, progressive innovation and breadth of merchandise.
Huang, Lan-Hui, e 黃蘭惠. "The Design of Thermochromic Home Textiles by Using Electric Heating Techniques". Thesis, 2010. http://ndltd.ncl.edu.tw/handle/66652781821431008809.
樹德科技大學
應用設計研究所
98
With the dramatic global warming and climate change, the development and research of intelligent textiles, especially eco-friendly and energy-saving temperature-sensitive textiles, are increasingly important. Studies of electric heating fabrics, however, have so far mostly focused on heating efficiency and technical problems solving , leaving the field of development and designs of these fabrics in terms of aesthetics unexplored. In , this study , aims to develop electric heating home textiles that changes colors and patterns with temperatures by integrating thermochromic pigments and electric heating textiles.The thermochromic electric heating home textile are also applied to lighting and furniture to expand its applications, to increas functionality and visual effects of home textiles. In this study, stainless steel conductive yarns are the major heating element for the electric heating textile. The experiments of this study focused on analyzing electric resistance and heating properties of conductive yarns, and observing color changing time and color changes of thermochromic pigments Then create pattern changing effects by combining the electric heating textile with thermochromic pigments. Works that create auras are , therefore, developed by integrating the pattern changing effects from the experiment results and backlight effects. The find creations show that the color changing effects are close to the original design, and their color saturation, has contributed to the desired effects, which meet the demand of creating auras and conveying artistic conception as designated by this study.
Libri sul tema "Heating textile":
Al-Saad, M. H. S. Microwave heating in continuous textile fabric processing. Manchester: UMIST, 1985.
Purushothama, B. Humidification and ventilation management in textile industry. New Delhi: Woodhead Pub. India, 2009.
Purushothama, B., e B. Purushothama. Humidification and ventilation management in textile industry. New Delhi: Woodhead Pub. India, 2009.
Purushothama, B. Humidification and Ventilation Management in Textile Industry. Taylor & Francis Group, 2009.
Purushothama, B. Humidification and Ventilation Management in Textile Industry. Woodhead Publishing India PVT. LTD, 2009.
Blinman, Eric, James M. Heidke e Myles R. Miller. Cooking Technologies. A cura di Barbara Mills e Severin Fowles. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199978427.013.32.
Molho, Emanuel, e Deborah Molho. The Dictionary Catalogue: Catalogue of General, Technical, Medical, Legal, Business and Other Specialized Foreign Language Dictionaries: Accounting Aeronautics Agriculture Architecture Automotive Biology Business Chemistry Data Processing Education Electronics Finance Heating and Ventilation Insurance Language Law Manufacturing Mathematics Medicine Mining Music Philosophy Photography Physics Psychology Publishing Religion Television Textiles. French & European Pubns, 2000.
Capitoli di libri sul tema "Heating textile":
Rao, K. S. "Solar Water Heating System in a Textile Industry — a Case Study". In Solar Water Heating Systems, 347–60. Dordrecht: Springer Netherlands, 1986. http://dx.doi.org/10.1007/978-94-009-5480-9_25.
Kapsalis, Panagiotis, Tine Tysmans e Thanasis Triantafillou. "Rapid Heating of Textile Reinforced Concrete: Effect of Textile Coating and Hybrid Textile Layups". In Lecture Notes in Civil Engineering, 1837–50. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-88166-5_158.
Li, Sheng, Yi Li, Fengzhi Li e Shuxiao Wang. "Computational Simulation of Multi-Phase Coupled Heat and Moisture Transfer in Phase Change and Self-Heating Porous Materials". In Computational Textile, 247–54. Berlin, Heidelberg: Springer Berlin Heidelberg, 2007. http://dx.doi.org/10.1007/978-3-540-70658-8_15.
Shitemi, Kenneth K., e Kirimi Kiriamiti. "Production of solketal, a fuel additive, through microwave heating and catalysis". In Advances in Phytochemistry, Textile and Renewable Energy Research for Industrial Growth, 256–64. London: CRC Press, 2022. http://dx.doi.org/10.1201/9781003221968-35.
Tran, Manh Tien, Xuan Hong Vu e Emmanuel Ferrier. "Experimental study of the thermomechanical behavior of the carbon textile reinforced refractory concrete subjected to the constant load and temperature heating". In Lecture Notes in Civil Engineering, 531–36. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-15-0802-8_83.
Muthukumar, N., G. Thilagavathi, T. Kannaian e S. Periyasamy. "Development and Characterization of Metal Woven Electric Heating Fabrics". In Functional Textiles and Clothing, 119–27. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-7721-1_11.
"Appendix 2: Cooling heating systems". In Humidification and Ventilation Management in Textile Industry, 308–16. Elsevier, 2009. http://dx.doi.org/10.1533/9780857092847.308.
Purushothama, B. "Designing heating, ventilating air-conditioning (HVAC)". In Humidification and Ventilation Management in Textile Industry, 212–26. Elsevier, 2009. http://dx.doi.org/10.1533/9780857092847.212.
N. El-Shall, Fatma, Karema M. Haggag, Mohamed M. El-Molla e Ahmed I. Hashem. "Synthesis of Polyurethane Acrylate Oligomers Using Microwave Irradiation Energy as Aqueous Binder for Textile Printing". In Roadmap to Sustainable Textiles [Working Title]. IntechOpen, 2023. http://dx.doi.org/10.5772/intechopen.112425.
Kumar, Sudheer, e Sukhila Krishnan. "Nanomaterials for Flexible Photovoltaic Fabrics". In Current and Future Developments in Nanomaterials and Carbon Nanotubes, 258–71. BENTHAM SCIENCE PUBLISHERS, 2022. http://dx.doi.org/10.2174/9789815050714122030018.
Atti di convegni sul tema "Heating textile":
Neruda, Marek, e Lukas Vojtech. "Heating ability of electrically conductive textile materials". In 2014 16th International Conference on Mechatronics - Mechatronika (ME). IEEE, 2014. http://dx.doi.org/10.1109/mechatronika.2014.7018332.
Dupler, Ellen, Nika Gagliardi, Esther Foo, Simon Ozbek, Sophia Utset-Ward e Lucy Dunne. "Toward Textile-Based Heating Devices for the Distal Extremities: Experimental Characterization of System Design Parameters". In 2019 Design of Medical Devices Conference. American Society of Mechanical Engineers, 2019. http://dx.doi.org/10.1115/dmd2019-3290.
Aychilie, Desalegn Beshaw, e Yordan Kyosev. "Sewing needle heating: A review on the research regarding causes, effects and methods for its reduction". In INTERNATIONAL CONFERENCE ON TEXTILE AND APPAREL INNOVATION (ICTAI 2021). AIP Publishing, 2022. http://dx.doi.org/10.1063/5.0077068.
Caya, Meo Vincent C., Claudette Jean R. De Pano e Justine Gail S. Magpayo. "Development of Wearable Wireless Heating E-Textile using Conductive Threads for Thermotherapy". In 2020 IEEE 12th International Conference on Humanoid, Nanotechnology, Information Technology, Communication and Control, Environment, and Management (HNICEM). IEEE, 2020. http://dx.doi.org/10.1109/hnicem51456.2020.9400105.
Grosu, Marian Catalin, Raluca Maria Aileni e Teodor Sarbu. "ELECTRICAL RESISTIVITY DISTRIBUTION ANALYSIS FOR TEXTILE STRUCTURES BASED ON COPPER YARNS". In 23rd SGEM International Multidisciplinary Scientific GeoConference 2023. STEF92 Technology, 2023. http://dx.doi.org/10.5593/sgem2023/4.1/s17.07.
Poboroniuc, Marian-Silviu, Antonela Curteza, Viorica Cretu e Laura Macovei. "Designing wearable textile structures with embeded conductive yarns and testing their heating properties". In 2014 International Conference and Exposition on Electrical and Power Engineering (EPE). IEEE, 2014. http://dx.doi.org/10.1109/icepe.2014.6970016.
Yrureta, Rodney Gian R., Meo Vincent C. Caya e Wen-Yaw Chung. "Development of Wireless Heating E-Textile Belt for Thermotherapy Application with Four Quadrant Control". In 2020 IEEE 12th International Conference on Humanoid, Nanotechnology, Information Technology, Communication and Control, Environment, and Management (HNICEM). IEEE, 2020. http://dx.doi.org/10.1109/hnicem51456.2020.9400129.
Gagliardi, Nika, Esther Foo, Ellen Dupler, Simon Ozbek e Lucy Dunne. "Design of a Stitched Textile-Based Thermal Actuator Garment to Attenuate Peripheral Microclimate Experience". In 2018 Design of Medical Devices Conference. American Society of Mechanical Engineers, 2018. http://dx.doi.org/10.1115/dmd2018-6965.
Couceiro, Marlene, e Cristina Carvalho. "Thermal comfort of buildings and their occupants - Dialogue between Nature, Textiles and Architecture". In 13th International Conference on Applied Human Factors and Ergonomics (AHFE 2022). AHFE International, 2022. http://dx.doi.org/10.54941/ahfe1001556.
Nazarova, Matluba, Juramirza Kayumov e Khilola Tursunova. "Development of heating coats in Uzbekistan on the basis of analysis of the technologies of local wool fibers processing in small enterprises". In PROBLEMS IN THE TEXTILE AND LIGHT INDUSTRY IN THE CONTEXT OF INTEGRATION OF SCIENCE AND INDUSTRY AND WAYS TO SOLVE THEM: (PTLICISIWS-2022). AIP Publishing, 2023. http://dx.doi.org/10.1063/5.0145673.
Rapporti di organizzazioni sul tema "Heating textile":
Oh, Ju Hyun, Aimee Martinez, Huaixuan Cao, Garrett George, Jared Cobb, Poonam Sharma, Lauren Fassero et al. Radio frequency heating of washable conductive textiles for bacteria and virus inactivation. Engineer Research and Development Center (U.S.), gennaio 2024. http://dx.doi.org/10.21079/11681/48060.