ASTM F136 ASTM B348 Titanium Rectangular Profiles 12000mm Titanium Alloy Pipe

Product Description Rectangular Titanium Pipe - Reliable for Industrial Applications Product Description: Titanium tubes can be distinguished according to their shape into round and square tubes. Circular tubes are advantageous in that they provide the most capacity to carry fluid under the circumstances with the same circumference. However, there are also certain drawbacks to round tubes when bending on a plane occurs, as the strength of rectangular or square tubes typically outperforms that of round tubes. The performance of titanium tubes is excellent: they are available in materials like Gr1, Gr2, and Gr5, with titanium alloy Gr5 comprising of Ti6Al4V, with tensile performance of over 800, and a yield of around 30. Additionally, the density of titanium alloy is 4.5 g/cm3, significantly higher than other industrial structure design materials, making it a great choice for mechanical and structural parts, skeletons and the like.   Features: Titanium alloy is known for its high strength and high temperature resistance. It can work for a long amount of time at 450-500 degrees, which is much stronger than its working environment of 150-500 degrees. Additionally, its hardness does not fluctuate under these temperatures. Moreover, its corrosion resistant properties give it an edge over other materials, as it proves to be highly impervious to seawater, alkali, chlorine, nitric acid, sulfuric acid, and other corrosive agents.   Technical Parameters: Serial No. production Specification20 W*H*L(mm) Thickness(mm) Kgs/pcs (approximate) remarks 1 Square tube 20X20X6000 0.8 1.67 Seamless tube 1 2.07 1.5 3.64 2 3.32 2 Square tube 30X30X6000 1 3.32 Seamless tube 1.2 3.75 1.5 4.65 2 6.65 3 Square tube 40X40X6000 1 4.23 Seamless tube 1.5 6.28 2 8.29 3 12.18 4 Square tube 50X50X6000 1.5 7.84 Seamless tube 2 10.36 3 15.29 4 20.05 5 Square tube 60X60X6000 1.5 9.49 Seamless tube 2 12.57 3 18.6 4 24.46 6 Square tube 70X70X6000 2 14.78 Seamless tube 3 21.91 4 28.88 5 35.68 7 Square tube 80X80X6000 3 25.23 Welded tube 4 33.30 5 41.2 Materials Gr1,Gr2,Gr3,Gr4,Gr5,Gr6,Gr7,Gr9 etc. Standards GB/T706-2016,GB/T37520-2019,GB/T41750-2022,N/HL 001-2021,N/HL 002-2021,ASTM F67,AMS4928,ASTM F136,ASTM B348,BT1-0,TP270,TP550,TP450 etc. Applications: Generally, stainless steel is used in the construction and machinery manufacturing industry, as well as in structural and other projects. It can be used in shipbuilding , aerospace and for solar and nuclear power support. Steel structure engineering and power, chemical machinery, boiler construction,house construction, airports and other areas also often uses stainless steel due to its non-magnetic and light hardness qualities.   Packing and Shipping: Titanium Tube Packaging and Shipping Titanium tubes are shipped in a variety of ways to meet the customer’s needs. The most common methods are palletizing, box packing, and shrink-wrapping. Each method has its own advantages and disadvantages, and careful consideration should be given to the customer’s needs when selecting the best shipping method. Palletizing involves wrapping the titanium tubes in a special plastic wrap and then placing them on a pallet for transport. This method offers maximum protection for the product, but can be expensive and time-consuming. Box packing involves packing the titanium tubes in a cardboard box and then taping it shut for transport. This method is less expensive and more efficient, but may not provide as much protection as palletizing. Shrink-wrapping is the most common method of shipping titanium tubes. In this method, the tubes are wrapped in a special plastic wrap and then sealed with heat. This method provides the most protection, but can be expensive and time-consuming. Each of these methods has its own advantages and disadvantages, and should be carefully considered when selecting the best shipping method.