Titanium has a high strength and density and small

Titanium has a high strength and density and small, good mechanical properties, good toughness and corrosion resistance. In addition, poor process performance titanium valve alloy, machining difficulties in thermal processing, and very easy to absorb carbon hydrogen nitrogen and other impurities. There are poor abrasion resistance, complex production process. Titanium industrial production was started in 1948. Require the development of the aviation industry, the titanium industry with an average annual growth rate of about 8% of the development. World titanium alloy production reached 40,000 tons, nearly 30 kinds of titanium alloys. The most widely used titanium alloy is Ti-6Al-4V (TC4), Ti-5Al-2.5Sn (TA7) and commercially pure titanium (TA1, TA2 and TA3).
Titanium is mainly used for the production of aircraft engine compressor components, followed by structure rockets, missiles and high-speed aircraft. The mid-1960s, titanium and its alloys have been in general industrial applications, electrodes for electrolysis industry production, power plant condensers, oil refining and desalination heater and environmental pollution control devices. medical grade titanium and its alloys have become a corrosion resistant structural materials. In addition, for the production of hydrogen storage materials and shape memory alloys.
China began in 1956 titanium and titanium alloy study; the mid-1960s and the development of industrial production of titanium into TB2 alloy.

Problems editor

Problems editor
Titanium has a light weight, high strength, good corrosion resistance, etc., it is widely used in the automotive industry, the most widely used titanium alloy automotive engine systems. The use of titanium washers alloy engine parts has many advantages.
Low density titanium alloy, can reduce the inertial mass of the moving parts, while a titanium valve spring can increase the free vibration, reduced body vibrations, increase engine speed and output power.
Reducing the inertial mass of the moving parts, so that the friction is also reduced, improving engine fuel efficiency. Select titanium can reduce the load of stress-related components, reduce the size of the parts, so that the quality of the engine and the vehicle is reduced. Reduce inertia mass parts, so that the vibration and noise reduction, improved engine performance. Titanium applied to other member may improve comfort and the aesthetics of personnel cars and the like. Applications in the automotive industry, titanium alloys in terms of energy consumption plays an invaluable role.
Although titanium nuts alloy parts has such superior performance, but from titanium and its alloys widely used in the automotive industry there is a great distance, causes include expensive, good formability and weldability and poor.
The most widely used titanium alloy hinder the automotive industry is still the main reason for the high cost.

Cutting Features

Cutting Features
HB350 hardness greater than titanium fasteners metric machining particularly difficult, less than HB300 is prone to stick a knife phenomenon, but also difficult to cut. However, only one aspect of the hardness of titanium machining difficult, the key is the combined effect of its machinability of chemical, physical and mechanical properties of titanium itself between
(1) stress relief annealing: The aim is to eliminate or reduce the residual stresses generated during machining. Prevent chemical erosion and reduce distortion in some corrosive environments.
(2) complete annealing: The purpose is to obtain good toughness, improve the processing performance, is conducive to further processing and to improve the stability of the size and organization.
(3) solution treatment and aging: The purpose is to increase its strength, α β titanium alloy and stability can not be strengthened heat treatment is carried out only in the production of annealing. α + β titanium pipe fittings and titanium alloys metastable β phase can contain small amounts of α by solution treatment and aging of the alloy further strengthened.
In addition, in order to meet the special requirements of the workpiece, the industry also uses double annealing, isothermal annealing, β heat treatment, deformation and heat treatment of metal heat treatment process.

In the process of cutting titanium, the precautions are

In the process of cutting titanium, the precautions are:
(1) deformation coefficient is small: This is a significant feature of Copper Nickel Bar machining, deformation coefficient is less than or close to one. Chip away the knife sliding friction surface greatly increases the previous accelerated tool wear.
(2) high cutting temperatures: As low thermal conductivity of titanium alloy (equivalent to only 1/5 ~ 1/7 45 steel), the contact length of the chip and the rake is very short, the heat generated when cutting difficult to pass out, concentrated in a smaller range of the cutting area and near the cutting edge, high cutting temperatures. Under the same cutting conditions, the cutting temperature higher than 45 steel cutting more than doubled.
Cutting force (3) per unit area on the big: the main cutting force of about 20% smaller than when cutting steel, due to the length of the chip and the rake face contact is extremely short, the contact area on the cutting forces unit greatly increased, likely to cause chipping. Meanwhile, due to the small elastic modulus of the titanium alloy, the processing in the radial force prone to bending deformation, causing vibration, increased tool wear and affects the accuracy of parts. Therefore, the required process system should have good rigidity.
(4) Chilled serious: Because the chemical activity of titanium is large, at high cutting temperature, is easy to absorb oxygen in the air and nitrogen to form a hard and brittle skin; while plastic deformation during the cutting process can also cause surface hardening . Chilled phenomenon will not only reduce the fatigue strength of the parts, but also increased tool wear, is a very important feature when cutting titanium investment casting.

In the process of cutting titanium, the precautions are

In the process of cutting titanium, the precautions are:
(1) Due to the small elastic modulus of Custom Titanium Parts alloy, the deformation of the workpiece clamped in the processing of large deformation and stress, will reduce the machining accuracy of the workpiece; workpiece clamping force installation should not be too large, increase aid support when necessary.
(2) If using liquid hydrogen cutting, the cutting process will decompose at high temperatures to release hydrogen embrittlement caused by absorption of titanium; it may cause high temperature titanium stress corrosion cracking.
(3) the use of cutting fluid chlorides are also likely to break down or volatile toxic gases, the use of security measures should be taken, otherwise it should not be used; after cutting should be timely and chlorine-free cleaning agent thoroughly cleaned parts, remove residual chlorine thereof.
(4) prohibits the use of lead or zinc-based alloy production workers, fixture and titanium contact, copper, tin, cadmium and its alloys are also prohibited.
All workers, fixtures or other devices must be in contact with the titanium clean; titanium parts cleaned off, to prevent contamination of grease or fingerprints, or after the salt may cause stress corrosion.
Under normal circumstances when machining titanium alloys, no ignition hazard only when micro-cutting, small chips have cut ignition combustion phenomenon. To avoid fires, in addition to a large number of pouring coolant should prevent chips piled on the machine tool to be replaced immediately with a blunt or reduce cutting speed, feed rate increased to increase the chip thickness. If once the fire should be used talc, limestone titanium metal, dry sand, fire fighting equipment were extinguished, prohibited the use of carbon tetrachloride, carbon dioxide fire extinguisher, nor watering, because water can accelerate the burning, and even lead to a hydrogen explosion.

All countries in the development of new low-cost and high-performance titanium, titanium

All countries in the development of new low-cost and high-performance titanium, titanium alloy into the civilian efforts to make positive industry has huge market potential. New progress of titanium alloy is mainly reflected in the high temperature titanium alloy.
Successfully developed the world's first high-temperature ruthenium titanium mesh anode alloy is Ti-6Al-4V, using a temperature of 300-350 ℃. Then have developed a use temperature of 400 ℃ of IMI550, BT3-1 and other alloys, as well as the use of a temperature of 450 ~ 500 ℃ of IMI679, IMI685, Ti-6246, Ti-6242 alloy.
Prohibits the use of lead or zinc-based alloy production workers, fixtures and titanium contact, copper, tin, cadmium and its alloys are also prohibited.
All workers, fixtures or other devices must be in contact with the titanium clean; Titanium Plate Heat Exchanger parts cleaned off, to prevent contamination of grease or fingerprints, or after the salt may cause stress corrosion.
Under normal circumstances when machining titanium alloys, no ignition hazard only when micro-cutting, small chips have cut ignition combustion phenomenon. To avoid fires, in addition to a large number of pouring coolant should prevent chips piled on the machine tool to be replaced immediately with a blunt or reduce cutting speed, feed rate increased to increase the chip thickness. If once the fire should be used talc, limestone powder, dry sand, fire fighting equipment were extinguished, prohibited the use of carbon tetrachloride, carbon dioxide fire extinguisher, nor watering, because water can accelerate the burning, and even lead to a hydrogen explosion.

All countries in the development of new low-cost

All countries in the development of new low-cost and high-performance titanium, titanium alloy into the civilian efforts to make positive industry has huge market potential. New progress of titanium alloy is mainly reflected in the high temperature titanium alloy.
Successfully developed the world's first high-temperature titanium alloy is Ti-6Al-4V, using a temperature of 300-350 ℃. Then have developed a use temperature of 400 ℃ of IMI550, BT3-1 and other alloys, as well as the use of a temperature of 450 ~ 500 ℃ of IMI679, IMI685, Ti-6246, Ti-6242 alloy. Has been successfully applied in military and civil aircraft engines in the new high-temperature straight titanium wire alloys have British IMI829, IMI834 alloys; United States of Ti-1100 alloy; Russia BT18Y, BT36 alloy. Table 7 for the highest temperature part of the country's new high-temperature titanium alloy.
In recent years, the use of foreign fast solidification / powder metallurgy technology, fiber or particle-reinforced composites developed high temperature titanium alloy as the development direction, so that the use of temperature titanium alloy can be increased to more than 650 ℃ [1,27,29,31 ]. American McDonnell Douglas by rapid solidification / powder metallurgy technology has successfully developed a high-purity, high-density alloy, its strength at 760 ℃ ambient temperature corresponds to the intensity of use of mmo coated titanium anodes.