Titanium and Grade 7 Titanium Plate are active metals, which can easily react with oxygen in the air to form a very thin transparent oxide film, which passivates the surface and forms a passivation film. On the one hand, this passivation film protects the base metal and improves the corrosion resistance of the metal surface; on the other hand, because the formation of the passivation film reduces the activity and electrical and thermal conductivity, it is difficult to coat the surface, which will obviously affect the bonding force between the coating layer and the substrate. Therefore, activation treatment must be performed before the surface of titanium and Grade 3 Pure Titanium Plate, which is a critical step to ensure the bonding force between the plated layer and the substrate.
Xi'an HST Metal Material Co., Ltd.is a high-tech innovative enterprise, mainly producing high-end non-ferrous metal materials, the main products involve titanium and titanium alloy Bar, wire, plate, pipe, flange and other titanium whole industry chain products with the standards of ASTM, ASME, AMS, DIN、NFL、COCT、TP、BSand other precious metal products, such asNickel, Zirconium, Tungsten, Molybdenum, Tantalum and so on.
2022年3月17日星期四
2022年3月15日星期二
Characteristics and Application of TC4 Titanium Rod
As a new generation of future metal, titanium metal has strong corrosion resistance. The TC4 titanium rod produced, processed, and manufactured with titanium metal as raw material is quite stable in organic media and has a wide range of applications in the medical and chemical fields; machined titanium round rod High-temperature resistance, this feature allows it to be used in high temperature operating environments without deformation and aging; in addition, TC4 titanium rods have high strength, that is, they have super mechanical properties, so they can be used in high-pressure processes; TC4 The regeneration effect of titanium rods is good and the service life is long. There are two kinds of regeneration treatment methods: physical regeneration method and chemical regeneration method. The physical regeneration method includes pure water backflushing, steam backflushing and ultrasonic cleaning; chemical treatment methods include acid washing and alkali cleaning. Wash both.
2022年3月14日星期一
What are the physical phenomena of titanium processing?
The cutting force of titanium alloy processing is only slightly higher than that of steel with the same hardness, but the physical phenomenon of processing titanium alloy is much more complicated than that of processing steel, which makes titanium alloy processing face huge difficulties. The thermal conductivity of most titanium alloys is very low, only 1/7 of steel and 1/16 of aluminum.
Therefore, the heat generated in the process of cutting titanium alloys will not be quickly transferred to the workpiece or taken away by the chips, but will accumulate in the cutting area, and the temperature generated can be as high as 1 000 °C or more, which will cause the cutting edge of the tool to rapidly wear, chip and crack. A built-up edge is created, which quickly causes a worn edge, which in turn generates more heat in the cutting area, further reducing tool life.
The high temperatures generated during the cutting process also destroy the surface integrity of the titanium tubing for bike frame parts, resulting in a decrease in the geometric accuracy of the parts and work hardening that severely reduces their fatigue strength.
The elasticity of Grade 5 Ti-6Al-4V Titanium Plate may be beneficial for part performance, but during cutting, the elastic deformation of the workpiece is an important cause of vibration. The cutting pressure causes the "elastic" workpiece to move away from the tool and bounce so that the friction between the tool and the workpiece is greater than the cutting action. The friction process also generates heat, aggravating the problem of poor thermal conductivity of titanium alloys.
2022年3月10日星期四
Defects of Titanium Alloys
Titanium alloys are widely used in important load-bearing components of aircraft and aircraft engines because of their high specific strength, good medium temperature performance, corrosion resistance, and good welding performance, and are an important metal structural material. According to statistics, the weight ratio of titanium alloys used in foreign aircraft has reached about 30%, which shows that the application of titanium alloys in the aviation industry has a broad future.
However, titanium alloy flange also have some disadvantages, such as large deformation resistance, poor thermal conductivity, large notch sensitivity (about 1.5), and changes in microstructure have a significant impact on mechanical properties, which leads to smelting, forging and heat treatment. Complexity, prone to defects in titanium alloy forgings.
2022年3月8日星期二
Introduction of various new processes for titanium alloy processing
A few days ago, the technical project of "production process of titanium heat exchanger pipe" passed the evaluation of scientific and technological achievements. This technical process is mainly improved for the traditional hot rolling process of seamless steel pipes, and transplanted to the production of titanium alloy seamless pipes, which is similar to the traditional "extrusion forming, bar drilling and boring and cross-rolling and piercing followed by cold rolling and cold drawing" process. The finished product rate of pipes is significantly improved, reaching 97%.
Through the characteristics of titanium alloy tubes, the project has made targeted improvements in the production process. The addition of thermal insulation tunnels and rapid transfer devices to the power of the main motor is innovative to a certain extent. Large titanium alloy tubes up to 12m in length.
The cutting of titanium and titanium alloy pipes should be carried out mechanically, and the cutting speed should be low; when cutting or grinding Titanium Alloy Seamless Rectangular Pipe with grinding wheels, special grinding wheels should be used; flame cutting should not be used. The groove should be processed mechanically. Titanium alloy processing and welding should use inert gas shielded welding or vacuum welding, not oxygen-acetylene welding or carbon dioxide gas shielded welding, nor ordinary manual arc welding. When installing titanium and titanium alloy pipes, iron tools and materials should not be used to knock and squeeze; between carbon steel supports, hangers and titanium and titanium alloy pipes, rubber sheets or soft plastic sheets should be placed to prevent Titanium and titanium alloy pipes are in direct contact.
When the titanium and titanium alloy pipes pass through the wall and floor, the casing should be installed, the gap should not be less than 10mm, and the insulation should be filled, and the insulation should not contain iron impurities. Titanium alloy pipes should not be directly welded to other metal pipes. When a connection is required, a looper flange connection can be used. The non-metallic gaskets used are generally rubber gaskets or plastic gaskets, and the chloride ion content should not exceed 25ppm.
2022年3月3日星期四
How to weld copper and titanium plates?
The lattice type, melting point, thermal conductivity, coefficient of linear expansion and chemical composition of Titanium Clad Copper Plates are very different, so it is very difficult to weld.
1) The weld is easy to form pores
(1) Copper and titanium have strong hydrogen absorption capacity at high temperature, and hydrogen has a large solubility in liquid copper and titanium.
(2) Gas is generated in the molten pool of pyrometallurgical reaction.
(3) Oxygen and nitrogen gases around the welding zone are immersed in the molten pool.
2) Welded joints tend to have large cracks
When copper and titanium are welded, eutectic and hydride can be formed on the metal side of the two base metals, and cracks are easily generated under the action of welding stress.
(1) Copper and bismuth form a (Cu+Bi) eutectic with a eutectic point of 270°C.
(2) Copper and aluminum form a (Cu+Pb) eutectic with a eutectic point of 326 °C.
(3) Copper and ferrous sulfide form a eutectic (Cu+Cu2O) with a eutectic point of 1067°C.
(4) Sheet-like hydride TiH2 is formed on the metal side of the titanium base material, resulting in hydrogen embrittlement.
(5) The coefficient of linear expansion of copper and titanium is more than 1 times different, and greater stress will be generated during welding.
3) Low mechanical properties of welded joints
(1) The oxide film can weaken the intergranular bond between copper and titanium. For example, when the oxygen content in the weld reaches 0.38%, the bending angle of the joint decreases from 180° to 120°.
(2) A large amount of eutectic and hydride significantly reduces the plasticity and toughness of welded joints.
(3) The mutual solubility of copper and titanium is very small, and it is easy to form intermetallic compounds at high temperatures. Such as Ti2Cu, TiCu, Ti3Cu4, Ti2Cu3, TiCu2, TiCu4, increase brittleness, reduce plasticity, and significantly reduce the corrosion resistance of weld metal.
Copper and titanium or titanium alloys can obtain excellent welded joints by vacuum diffusion welding, argon arc welding, plasma arc welding, brazing and electron beam welding.
After the titanium base metal (TA2) was cleaned with trichloroethylene, it was etched in an aqueous solution with a volume fraction of 2% HF and a volume fraction of 50% HNO3 by vibration for 4 minutes to remove the oxide film, and then cleaned with water and alcohol .
(4) Assemble the cleaned two base metals according to the process requirements, and then put them into a vacuum furnace for welding. The welding parameters are: the welding temperature is 810℃±10℃, the pressure is 5~10MPa, the time is 10min, and the vacuum degree is 1.3332×10-8~ 1.3332×10-9MPa. An intermediate diffusion layer can be added between the two base metals. Usually, the material of the diffusion layer is niobium metal, or no intermediate diffusion layer is required. After welding, carefully clean the joint surface.
If argon arc welding is used to weld copper and titanium, the selection of cerium tungsten electrodes can improve the welding quality and benefit human health. For example, when welding copper alloy (QCr0.5) and titanium alloy (TC2), niobium can be used as the transition layer material, and the purity of argon gas is 99.8% to obtain high-quality joints.
2022年3月1日星期二
Machining of titanium alloy structural parts
The processing difficulties of titanium alloy structural parts and the influencing factors of processing deformation of weakly rigid structures are presented. The control method of processing deformation of weakly rigid structural parts is proposed from the selection of machine tools, tool selection, and effective cooling. Titanium alloy materials have excellent properties such as lightweight, high strength, and high-temperature resistance. For example, using TC18 titanium alloy instead of high-strength structural steel for landing gear can reduce the weight of the aircraft structure by about 15%, so it is the main bearing of advanced foreign aircraft. A large number of new high-strength titanium alloys are used in the force parts. For example, Titanium Alloy Threaded Rod accounts for about 21% of the body structure materials of the American B-1 bomber; the titanium content of the Russian Il-76 aircraft reaches 12.5% of the body structure weight. , From the development trend, the use of titanium alloys in Europe and the United States is gradually increasing, and it also shows that a large number of titanium alloys are used, especially some new titanium alloys have become the development direction of aviation design. However, most aerospace products use thin-walled parts, which are relatively complex in structure and require high precision. Due to the thin wall, the rigidity of the parts is poor. Under the action of cutting force, it is easy to produce bending deformation during processing, and the wall thickness is inconsistent up and down, resulting in out of tolerance. . At present, the commonly used method in enterprises is repeated milling in finishing. Due to the small thermal conductivity of titanium alloy, low elastic modulus (about 1/2 of steel) and high chemical activity, the small allowance cannot be milled at all, often The phenomenon of "less cutting" occurs. In order to ensure the size of the parts, it can only be polished by hand, which greatly increases the processing cycle of the parts, and may cause the surface of the parts to burn.
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