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Variables générées pour cette modification
Variable | Valeur |
---|---|
Nom du compte de l’utilisateur (user_name) | 'DannielleHuot' |
ID de la page (page_id) | 0 |
Espace de noms de la page (page_namespace) | 0 |
Titre de la page (sans l’espace de noms) (page_title) | 'Tubular Bus Bar For Electrical And Optical Applications' |
Titre complet de la page (page_prefixedtitle) | 'Tubular Bus Bar For Electrical And Optical Applications' |
Action (action) | 'edit' |
Résumé/motif de la modification (summary) | '' |
Ancien modèle de contenu (old_content_model) | '' |
Nouveau modèle de contenu (new_content_model) | 'wikitext' |
Texte wiki de l’ancienne page, avant la modification (old_wikitext) | '' |
Texte wiki de la nouvelle page, après la modification (new_wikitext) | '<br>Tubular busbar, also known as flat woven bar or tubular bar, is a bar made of cross-linked bar stock with round edges. It is usually fabricated by welding galvanized steel bars of different sizes and shapes in succession. This type of bar offers flexible mounting and detachment options to suit varying industrial requirements. As it is extensively used in all kinds of industries, it is available at a competitive price.<br><br><br>Tubular busbar manufacturers offer an extensive range of high quality and reliable equipment to meet diverse requirements across a wide array of applications. These include spot cooling, thermal expansion, permanent magnet damping and much more. The flexibility of this bar allows for the attachment of various types of power transmission components that are suitable for application areas. For instance, flat wire bus has been found to be a cost-effective solution in thermal expansion applications. Due to its reliability and superior performance, it is one of the most widely accepted busbars in the market.<br><br><br>While designing a tubular busbar, various factors have to be considered, like mounting, cable length, power transmission, dielectric breakdown resistance, and thermal expansion performance. A tubular busbar with a low temperature Rise is preferred for thermal expansion because it allows for long cable runs in an efficient manner. This increases productivity, thereby ensuring timely delivery of goods. In addition to thermal expansion, the cable length has to be long enough for proper cable routing to avoid possible conductor separation and damage.<br><br><br>Further, it ensures reliable and smooth transfer of electricity from the source to the terminal. Therefore, a properly designed busbar ensures smooth power transfer, and consequently, increases production. In case you loved this information along with you desire to receive more details with regards to [https://www.rhibusbar.com/product/electrical_power_bending_busbar.html please click the following web site] generously visit the site. With a tubular bus, power construction projects can be implemented easily because it has the ability to absorb energy efficiently, which is necessary for any application. Besides this, it enhances the overall safety, particularly in thermal and electrical applications.<br><br><br>Another important factor while designing a busbar, which proves beneficial is the smooth surface it renders. This not only ensures ease of installation, but also makes it easy to maintain. Since a busbar dissipates heat very quickly, it needs to be made out of a tough and lightweight aluminum alloy tube. In order to achieve the right level of uniformity in cable runs, the high performance steels are used for making the busbars.<br><br><br>The tubular busbar conductor is often made out of two different types of materials, in which the first type is commonly made out of sheet metal, while the second one is the metal tube. In the former, sheet metal is used to make a tubular busbar; however, the second type is often welded with the help of TIG welding machine. The welded tubular busbar can easily support either positive or negative displacement. Positive displacement is required in electrical and optical applications and the negative displacement is needed in welding involving high frequency alternating current (HFC) devices.<br><br><br>Due to the tubular structure, the stress is equally distributed throughout the whole length of the busbar when compared to a pure steel busbar. However, the higher the frequency of current, the larger the size of the coil. This leads to a smaller space for the current to travel through, leading to less resistance. Apart from this, the small space for the current to travel through reduces the possibility of a short circuit in the electrical field during welding, leading to loss of power and other losses that may result in the working life of the busbar itself.<br><br><br>The tubular busbar can be of various shapes, depending on its application and the requirements of the customer. It can be shaped as a flat, round, rectangular, tapered, diamond plate, flange etc. As the current flows through it, the winding can displace the metal traces, which form the contact surface. The mechanical strength and the heat dissipation properties of the busbar are determined by its design and provide sufficient support to the load. Therefore, it is mandatory to choose the right busbar based upon the application and design.<br>' |
Tous les liens externes ajoutés dans la modification (added_links) | [
0 => 'https://www.rhibusbar.com/product/electrical_power_bending_busbar.html'
] |
Tous les liens externes dans le nouveau texte (all_links) | [
0 => 'https://www.rhibusbar.com/product/electrical_power_bending_busbar.html'
] |
Liens dans la page, avant la modification (old_links) | [] |
Horodatage Unix de la modification (timestamp) | 1710418940 |