Lühitutvustus
Titanium has high strength and excellent welding performance, and has a small density and excellent corrosion resistance. It is most suitable for roofs and walls of buildings. Ti15333 alloy has high strength and is used in various supports and beams of buildings.
1.Introduction of titaan & nbsp;tube for architecture
Titaan on kõrge tugevusega ja suurepärase keevitusvõimega, sellel on väike tihedus ja suurepärane korrosioonikindlus. See sobib kõige paremini hoonete katustele ja seintele. Ti15333 sulamist on kõrge tugevus ja seda kasutatakse hoonete erinevates tugedes ja talades. Titaani lõikamiseks, moodustamiseks ja ühendamiseks kasutatakse hiljuti ilmnenud meetodeid ja tehnoloogiaid, mis ulatuvad roostevabast terasest kaugemale. Titaani saab komponentidega ühendada, kasutades universaalset TIG-keevitusprotsessi, ja iseenda - titaanoksiidkile võib keevituse kahjustamise ära hoida.
2. Chemical composition of titanium tube & nbsp;for architecture
Hinne | N | C | H | Fe | O | Al | V | Pd | Mo | Ni | Ti |
Gr1 | 0.03 | 0.08 | 0.015 | 0.20 | 0.18 | / | / | / | / | / | Tasakaal |
Gr2 | 0.03 | 0.08 | 0.015 | 0.30 | 0.25 | / | / | / | / | / | Tasakaal |
Gr5 | 0.05 | 0.08 | 0.015 | 0.40 | 0.20 | 5.5- 6.75 | 3.5- 4.5 | / | / | / | Tasakaal |
Gr7 | 0.03 | 0.08 | 0.015 | 0.30 | 0.25 | / | / | 0.12- 0.25 | / | / | Tasakaal |
Gr9 | 0.03 | 0.08 | 0.015 | 0.25 | 0.15 | 2.5- 3.5 | 2.0- 3.0 | / | / | / | Tasakaal |
Gr12 | 0.03 | 0.08 | 0.015 | 0.30 | 0.25 | / | / | / | 0.2- 0.4 | 0.6- 0.9 | Tasakaal |
Gr23 | 0.03 | 0.08 | 0.012 | 0.25 | 0.13 | 5.5- 6.5 | 3.5- 4.5 | / | / | / | Tasakaal |
3.Mechanical properties of titanium tube & nbsp;for architecture
Hinne | Tõmbetugevus, Min MPa | Saagikustugevus Min MPa | Elongation in 4D,Min, % | Pindala vähendamine, min% |
Gr1 | 240 | 138 | 24 | 30 |
Gr2 | 345 | 275 | 20 | 30 |
Gr3 | 450 | 380 | 18 | 30 |
Gr4 | 550 | 483 | 15 | 25 |
Gr5 | 895 | 828 | 10 | 25 |
Gr7 | 345 | 275 | 20 | 30 |
Gr9 | 620 | 483 | 15 | 25 |
Gr12 | 483 | 345 | 18 | 25 |
Gr16 | 345 | 275 | 20 | 30 |
Gr23 | 828 | 759 | 10 | 15 |
Ti15333 | 1000 | 965 | 8 | 20 |
4.Titaanisulami värvi muutmise meetodtoru
The oxide film of titanium is formed by the surface of titanium metal reacting with air / water. Compared with the surface of stainless steel and aluminum, the outstanding corrosion resistance of titanium is exactly this layer of oxide film. The different colors of the titanium surface depend on the different thickness of the oxide film ( & lt;10nm, silver; 12nm, gold; 20nm, brown; 35nm, blue). By adjusting the thickness of the oxide film and the surface gloss of the titanium material, the surface of the titanium material used in construction can have a colorful appearance.
Ehitamiseks kasutatavate titaanmaterjalide pinna struktuur on mitmekesine, ulatudes pehmetest, karedatest kuni läikivate pindadeni. Pärast anodeerimist selle värvus ja läige ei tuhmu ning oksiidkile pakseneb. Sel viisil genereeritakse vikerkaareprintsiip, mis on tingitud valguse värvuse häiretest. Kui valgus läbib selle oksiidkile kihi, peegeldub osa sellest, osa murdub ja osa neeldub. Peegeldunud valguse faas on erinev ja häirete pind näitab erinevaid värve. Titaani värvi säilitamiseks hoonetes kasutamisel tuleks tegeliku tootmise korral kaaluda pinna läike kontrolli tehnoloogiat, st lõõmutamis- ja peitsimistingimuste kohandamine võib olla läikeseireseadme tagasiside lõõmutamise kohandamiseks (temperatuur, aeg) ja marineerimine (temperatuur, aeg, happe suhe).
5.Why choose titaan & nbsp;tube for architecture & nbsp;
1.As a building material, titanium not only has a natural luster, but also can show different colors through oxidation. In addition, it has excellent corrosion resistance, and does not need to be coated with an anticorrosive film. Because the titanium material has a small reflectance and has a light silver gray , So its natural color is satisfactory. After annealing and pickling, the surface of titanium is shiny.
2. Adopt the method of anodizing the metal and adjusting the natural gloss of the surface before oxidation to change the hue to meet the customer & #39;s color requirements.
6.Applications of titaan & nbsp;tube for architecture
Jaapan on esimene riik, kus rakendatakse hoonete jaoks titaani, ja see on ka riik, kus hoonetes kasutatakse kõige rohkem titaani. Seda kasutatakse peamiselt hoonete katusel, millele järgnevad kardinapuude, sadamarajatiste, sildade, merealuste tunnelite, välisseinte ja dekoratiivesemete ehitamine, väikesed lisatarvikud, sammaste kaunistamine, välisdekoratsioon, monumendid, sildid, ukseplaadid, piirded, torud, korrosioonivastane - kate jne.
The United Kingdom, France, the United States, Spain, the Netherlands, Canada, Belgium, and Switzerland all have examples of buildings using titanium metal for roofs and curtain walls. Sweden, Singapore, and Egypt have begun to use titanium in some new buildings. In 1997, the Guggenheim Museum in Bilbao, Spain, used titanium metal plates to construct curved surfaces. Abu Dhabi Airport has also selected titanium, and the amount is nearly 100 tons. The airport is the first in the world to use titanium as a building structural material.
7.Photos of & nbsp;titanium tube for architecture
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Kuum tags: titaantoru arhitektuurile, Hiina, tootjad, tarnijad, tehas, kohandatud, pakkumine, laos
