Textile dictonary

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MLV Textile Engg. College. Textile Dictonary. Training Reports: Textile Dictonary: TEXTILE TESTING Textile Dictonary: TEXTILE TESTING: Textile Mathematics: Textile Norms: Textile Fibre: Textile Technology: More Textile: CLICK ON THE PICTURE TO SEE AUSTRELIA'S LARGEST TEXTILE TESTING LAB. Department of Textiles, Fashion Merchandising and Design. Click on

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Fit in garments for the wearer’s comfort. In this sense, textile antennas made from felt, denim, cotton, silk, etc., are a good choice for wearable applications. Flexible and stretchable antennas [4] are quite popular for different applications such as augmented and virtual realities [5], neonatal intensive care monitoring [6], and bio-integrated electronics [7].A narrowband wearable textile antenna with an area of 50 mm × 50 mm was reported in [8]. It resonated in the 2.4 GHz and 5.2 GHz with −3.2 dBi and 6.6 dBi gain values, respectively. A dual ISM band planar inverted-F antenna (PIFA) textile antenna working at 433 MHz and 2.4 GHz was proposed in [9]. This antenna had −0.6 dBi and 6.8 dBi gain values and impedance bandwidths of 8.0% and 12.6% at the reported resonances (433 MHz and 2.45 GHz), respectively. Another textile-based PIFA antenna was proposed in [10]. This antenna had a gain of 6.7 dBi and worked only in a single 5 GHz frequency band for WBAN applications. In [11], a 71 mm × 65 mm size Yagi-like textile antenna for RFID applications was proposed. A defective ground wearable antenna with 104.7 mm × 100 mm with multiband behavior was reported in [12]. For wearable internet of things (IoT) applications, a tri-band antenna was proposed in [13]. This antenna had a size of 80 mm × 80 mm and it was functioning in the 2.4 GHz, 5.2 GHz, and 5.75 GHz frequency bands. In [14], wearable antenna for virtual reality was proposed, which worked at an 8 GHz frequency band. A wearable dual-band multi-layer patch antenna was proposed in [15]. However, this work did not evaluate specific absorption rate (SAR) and bending analysis.Another wearable antenna for brain monitoring applications was reported in [16]. This antenna was non-textile with footprints of 70 mm × 30 mm and operated in the ISM 2.4 GHz frequency band. A low-profile textile-based antenna system was presented in [16] for body temperature and sweat sensing with an antenna size of 68 mm × 68 mm. Another low-profile multi-band textile circular patch antenna was reported in [17]. A compact single-band antenna (ISM 5.8 GHz) with a limited ground plane and low SAR value was proposed in [18].A wearable textile quasi-Yagi antenna functioning in dual frequency bands (0.868 GHz and 2.45 GHz) was proposed in [19]. The area of this antenna was 65 mm × 60 mm, and the gain was relatively low (−1.4 dBi). A high-gain and high-profile (multi-layer substrate) textile antenna working in dual frequency bands (2.45 GHz and 3.45 GHz) of area 0.49λ0 × 0.49λ0 was reported in [20]. A narrowband and low-gain textile antenna working in multiple frequency bands was presented in [21]. One more antenna designed for military applications, functioning at 8 GHz, was explained in [22]. However, this antenna had a large size and low gain of 5.2 dBi. A multiband textile antenna with the ultrawideband (UWB) was proposed in [23] with a gain of 7.2 dBi. A single ISM 2.4 GHz textile antenna was

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High-Gain Low-SAR Antenna for Off-Body Communication. IEEE Antennas Wirel. Propag. Lett. 2021, 20, 1175–1179. [Google Scholar] [CrossRef]Li, H.; Du, J.; Yang, X.; Gao, S. Low-Profile All-Textile Multiband Microstrip Circular Patch Antenna for WBAN Applications. IEEE Antennas Wirel. Propag. Lett. 2022, 21, 779–783. [Google Scholar] [CrossRef]Çelenk, E.; Tokan, N.T. All-Textile On-Body Antenna for Military Applications. IEEE Antennas Wirel. Propag. Lett. 2022, 21, 1065–1069. [Google Scholar] [CrossRef]Samal, P.B.; Chen, S.J.; Fumeaux, C. Wearable Textile Multiband Antenna for WBAN Applications. IEEE Trans. Antennas Propag. 2023, 71, 1391–1402. [Google Scholar] [CrossRef]Memon, A.W.; de Paula, I.L.; Malengier, B.; Vasile, S.; Van Torre, P.; Van Langenhove, L. Breathable textile rectangular ring microstrip patch antenna at 2.45 ghz for wearable applications. Sensors 2021, 21, 1635. [Google Scholar] [CrossRef] [PubMed]Luo, C.; Gil, I.; Fernandez-Garcia, R. Textile UHF-RFID Antenna Embroidered on Surgical Masks for Future Textile Sensing Applications. IEEE Trans. Antennas Propag. 2022, 70, 5246–5253. [Google Scholar] [CrossRef]Martinez, I.; Mao, C.X.; Vital, D.; Shahariar, H.; Werner, D.H.; Jur, J.S.; Bhardwaj, S. Compact, Low-Profile and Robust Textile Antennas with Improved Bandwidth for Easy Garment Integration. IEEE Access 2020, 8, 77490–77500. [Google Scholar] [CrossRef]Le, D.; Ahmed, S.; Ukkonen, L.; Bjorninen, T. A Small All-Corners-Truncated Circularly Polarized Microstrip Patch Antenna on Textile Substrate for Wearable Passive UHF RFID Tags. IEEE J. Radio Freq. Identif. 2021, 5, 106–112. [Google Scholar] [CrossRef]Liu, Y.; Yu, M.; Xu, L.; Li, Y.; Ye, T.T. Characterizations and Optimization Techniques of Embroidered RFID Antenna for Wearable Applications. IEEE J. Radio Freq. Identif. 2020, 4, 38–45. [Google Scholar] [CrossRef]Thalmann, T.; Popović, Z.; Notaroš, B.M.; Mosig, J.R. Investigation and design of a multi-band wearable antenna. In Proceedings of the European Conference on Antennas and Propagation, EuCAP 2009, Proceedings, Berlin, Germany, 23–27 March 2009; pp. 462–465. [Google Scholar]Malik, H.; Alam, M.M.; Le Moullec, Y.; Kuusik, A. NarrowBand-IoT Performance Analysis for Healthcare Applications. Procedia Comput. Sci. 2018, 130, 1077–1083. [Google Scholar] [CrossRef]Yang, H.; Liu, X. Wearable Dual-Band and Dual-Polarized Textile Antenna for On- and Off-Body Communications. IEEE Antennas Wirel. Propag. Lett. 2020, 19, 2324–2328. [Google Scholar] [CrossRef]Gabriel, S.; Lau, R.W.; Gabriel, C. The dielectric properties of biological tissues: II. Measurements in the frequency range 10 Hz to 20 GHz. Phys. Med. Biol. 1996, 41, 2251–2269. [Google Scholar] [CrossRef] [PubMed]Rahman, N.H.A.; Yamada, Y.; Nordin, M.S.A. Analysis on the Effects of the Human Body on the Performance of Electro-Textile Antennas for Wearable Monitoring and Tracking Application. Materials 2019, 12, 1636. [Google Scholar] [CrossRef] [PubMed]Major, P.; Flap, M.; Flap, M. Iowa Head and Neck Protocols. 2017, pp. 1–8. Available online: (accessed on 9 April 2024).Gljušćić, P.; Zelenika, S.; Blažević, D.; Kamenar, E. Kinetic energy harvesting for wearable medical sensors. Sensors 2019, 19, 4922. [Google Scholar] [CrossRef] Figure 1. Wearable textile monopole antenna on phantom model (WPh = LPh = 150 mm). Figure 1. Wearable textile monopole antenna on phantom model (WPh = LPh = 150 mm). Figure 2. Design of antenna: (a) Top view (b) Bottom view. Figure 2. Design of antenna: (a) Top view (b) Bottom view. Figure 3. Design evolution of the antenna in

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All publications are solely those of the individual author(s) and contributor(s) and not of MDPI and/or the editor(s). MDPI and/or the editor(s) disclaim responsibility for any injury to people or property resulting from any ideas, methods, instructions or products referred to in the content. © 2024 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license ( Share and Cite MDPI and ACS Style Sharma, D.; Tiwari, R.N.; Kumar, S.; Sharma, S.; Matekovits, L. A Compact Wearable Textile Antenna for NB-IoT and ISM Band Patient Tracking Applications. Sensors 2024, 24, 5077. AMA Style Sharma D, Tiwari RN, Kumar S, Sharma S, Matekovits L. A Compact Wearable Textile Antenna for NB-IoT and ISM Band Patient Tracking Applications. Sensors. 2024; 24(15):5077. Chicago/Turabian Style Sharma, Deepti, Rakesh N. Tiwari, Sachin Kumar, Satyendra Sharma, and Ladislau Matekovits. 2024. "A Compact Wearable Textile Antenna for NB-IoT and ISM Band Patient Tracking Applications" Sensors 24, no. 15: 5077. APA Style Sharma, D., Tiwari, R. N., Kumar, S., Sharma, S., & Matekovits, L. (2024). A Compact Wearable Textile Antenna for NB-IoT and ISM Band Patient Tracking Applications. Sensors, 24(15), 5077. Note that from the first issue of 2016, this journal uses article numbers instead of page numbers. See further details here. Article Metrics. MLV Textile Engg. College. Textile Dictonary. Training Reports: Textile Dictonary: TEXTILE TESTING Textile Dictonary: TEXTILE TESTING: Textile Mathematics: Textile Norms: Textile Fibre: Textile Technology: More Textile: CLICK ON THE PICTURE TO SEE AUSTRELIA'S LARGEST TEXTILE TESTING LAB. Department of Textiles, Fashion Merchandising and Design. Click on

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Who are we?KoDe is a new-generation textile agency. Our company was established to change the rules in the textile industry. KoDe for the fashion solutions for the the Textile Products Supply Chain.We assist and manage the creation of collections for many global companies.We play an essential link role between international brands and local producers; what sets us apart from the competition is our use of digitalisation and transparency.Producing abroad may appear challenging and risky. Our aim is to enhance the efficiency and transparency of your production and collection stages. At every stage, our clients will be able to monitor their progress.As a company we do believe in Team Work! Let us be part of your team!For our business and our team of experts—who are multilingual in French, German, and English—it is crucial that we have a clear understanding of our clients' demands.Designed to alter the terms of the game for a team of knowledgeable textile engineers who are changing along with the textile industry on a regular basis.​The goal of KoDe's design and development is to address issues facing the textile sector. We think that more knowledge about fashion is needed in the world and that young entrepreneurs like us who are starting their own businesses should take these crucial factors into consideration.​

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Author Message Jean Henri Chandler Location: New OrleansJoined: 20 Nov 2006 Spotlight topics: 1Posts: 1,420 Posted: Thu 13 Feb, 2020 12:27 pm Post subject: Differentiating textiile armors Aketon, Jupon, Gambeson I wonder if someone here has a better grip on this subject than I and could help clarify this class of armor. I'm hoping to figure out appropriate terminology for different types of textile armor that we have sufficiently well documented so as to be sure they existed.In the Classical era we have the linothorax for which we have some evidence in Hellenistic armies. I've also seen the term 'subarmalis' brought up before in a Roman context though I don't know if that is a modern invention or not. Starting in the Carolingian era we start to see armor coming from the European textile industry, made of linen and other textiles, sometimes padded with felt, horse hair or animal fur.We see many names mostly of french origin such as jupon, aketon, and gambeson. Later pourpoint.We see different purposes such as:Textile armor, stand alone (aketon? the buff coat?)Textile armor, worn under metal armor (pourpoint? gambeson?)Textile armor, worn over metal armor (jupon? tabard?) in some cases perhaps in part to help protect the armor itselfTextile armor, incorporated with metal armor (jack of plates, brigandine, the Arab Jazerrant)Then there are the different materials. Linen, quilted or not, seems to be most common in Europe. Later we see the Arabs using silk and I'm sure this was copied in some places in Europe too. I've seen mention of fustian and cotton. There is also mention of such modifications as covering textile armor with pitch for water proofing, and the (in)famous mention of reinder hide armor which may actually also be some form of waterproofing or weatherproofing over more prosaic textile armor of some kind.There

What is Textile? Types of Textile - Textile Industry

Calculate the required yardage of fabric for a project:Required fabric yardage: FormulaFormula of Fabric Yardage Calculation:Calculate the required yardage of fabric = (project Width * project Length) / (fabric Width * 36) * fabric LengthWhere: 1 yard = 36 inches = 3 feetFabric Yardage ChartSimple chart for a Fabric Yardage Calculator that helps determine the amount of fabric needed for a project.Project Width (inches)Project Length (inches)Fabric Width (inches)Required Fabric (yards)1836450.52448450.753660541.04872601.56084602.07296602.584108603.0How to Use Fabric Yardage Calculator?Provide the input value of textile fabric width and length in the fabric yardage Calculator. Then click the button for the calculation function. When the button is clicked, the answer will be provided from the Textile Calculator. From the values from the input fields. You can calculate the required yardage of fabric using the provided formula. Fabric Yardage Calculator by Length and Width FormulaFabric Yardage = (Length in inches or cm × Width in inches or cm) ÷ 1296 (for yards)For example, if the fabric is 60 inches wide and 120 inches long, the calculation would be:Fabric Yardage = (60 × 120) ÷ 1296Fabric Yardage = 7200 ÷ 1296Fabric Yardage = 5.56 yards (rounded up to the nearest hundredth)So, the fabric yardage required for this piece of fabric is 5.56 yards. Users have to take the entire risk as to the textile calculator’s quality, performance, and accuracy.Discover more from Textile CalculatorSubscribe to get the latest posts sent to your email.

Production Management in Textile Industry - Textile - Textile Learner

Scissors (shears plus small, sharp embroidery scissors), and a box of sharp pins.Day 9, Sunday, Oct. 13On our final day together, we’ll head south by bus for more inspiration and shopping. You’ll gain insights into textile creativity at the Textielmuseum in Tilburg. From exhibitions of textile arts to a state-of-the-art textile lab, you’ll see the latest in fabrics and fibers. Gear up for a visit to Harrie Bosch Modestoffen, Eindhoven—your last chance on this trip to add the finest European fabrics to your sewing stash. In the evening, we’ll return to Amsterdam to enjoy a farewell canal cruise, complete with dinner.Day 10, Monday, Oct. 14Bid farewell to the Netherlands as you depart for your onward journey. No doubt, you’ll cherish this enriching learning experience and your new sewing friends—and the meaningful souvenirs that will elevate your future sewing.Don't miss this extraordinary opportunity to explore the craftsmanship and heritage of European textile traditions. Secure your spot today. Places are limited.. MLV Textile Engg. College. Textile Dictonary. Training Reports: Textile Dictonary: TEXTILE TESTING

Textiles - an introduction - Textile School

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Introduction to Textiles and Textile Fibers

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