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1.There is a class of tungsten carbide materials - class S can be used for the processing of titanium alloys. However, when the hardness of the material is greater than HRC55, the effect is extremely poor.
2.The head material of the German TBT gun drill is mainly K cemented carbide, which can be used to process titanium alloy, but the effect is poor. When the hardness of the material is greater than HRC55, K8 and K10 are powerless.
The titanium alloy can be machined with CBN material. However, I don't know whether the German TBT gun drill is done by the CBN material gun drill.
4.I don't know how big the aperture is and how deep and long the hole is. Whether the process can be changed to hardening expansion or reaming. For the German TBT, the CBN gun reamer is much easier to solve.
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Titanium alloys refer to a variety of alloy metals made from titanium and other metals.
Titanium alloy is an alloy composed of other elements based on titanium, titanium alloy material has the characteristics of light weight, high strength, small elasticity, high temperature resistance and corrosion resistance, mainly used in aero engines, rockets, missile parts.
Titanium alloy is a relatively young metal, from being developed to the present is sixty or seventy years of history, into the 20th century after the traditional steel and aluminum can no longer meet the needs of aerospace, navigation and other fields, in 1954 by the United States company developed titanium alloy materials.
Characteristics of titanium alloys
1. High strength.
The density of titanium alloy is generally about cubic centimeters, only 60% of steel, and the density of pure titanium is close to the density of ordinary steel, and some high-strength titanium alloys exceed the strength of many alloy structural steels.
2. High thermal intensity.
The operating temperature is several times higher than that of aluminum alloys, and it can still maintain the required strength at medium temperatures, and can work for a long time at temperatures of 450 500.
3. Good corrosion resistance.
Titanium alloy works in humid atmosphere and seawater media, and its corrosion resistance is much better than that of stainless steel; Particularly strong resistance to pitting, acid etching, and stress corrosion; It has excellent corrosion resistance to alkali, chloride, chlorine organic matter, nitric acid, sulfuric acid, etc.
4. Good low temperature performance.
Titanium alloys can still maintain their mechanical properties at low and ultra-low temperatures. Titanium alloys with good low-temperature properties and very low interstitial elements, such as Ta7, can also maintain a certain plasticity at -253.
The above content refers to Encyclopedia - Titanium Alloy.
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Summary. Tungsten carbide plus titanium will be harder pro-3 will deepen the hardness.
Pure titanium is not as hard as steel, but some titanium alloys are as hard as high-strength steel, or even more than steel. Steel is a general term for an iron-carbon alloy with a mass percentage of carbon between to. Titanium has a metallic luster and is malleable.
The density is grams of cubic centimeters. Melting Point 1660 10. Boiling point 3287.
Valencies +2, +3, and +4. The ionization energy is electron volts. But the specific strength is at the top of the metal.
Does tungsten carbide plus titanium be harder.
Tungsten carbide plus titanium will be harder pro-3 will deepen the hardness. The hardness of pure titanium is not as good as steel, but the hardness of some titanium alloys can be comparable to or even exceed that of high-strength steel. Steel is a general term for an iron-carbon alloy with a mass percentage of carbon between to.
Titanium has a metallic luster and is malleable. The density is grams of cubic Li Yin centimeters. Melting Point 1660 10.
Boiling point 3287. Valencies +2, +3, and +4. The ionization energy is electron volts.
But the specific strength level is the first of the metals.
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1. The method of titanium alloy melting casting is impossible for you to achieve. If there is no vacuum casting equipment, it cannot be done.
2. The process route you envision is completely unfeasible.
3. I can't see the size of the things on the **, so it's not easy to estimate. However, the basic processing process route should be thick titanium plate - wire cutting forming--- drilling and milling--- grinding machine or manual grinding wheel grinding - manual resin wheel polishing.
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Titanium carbide cutters are better.
The speed of the machining spindle will not be too high, generally 200-300 revolutions, such as cutting a large section, but it is also low; 5-15 wire feeding.
As well as the handling must pay attention to the chip conveyor, the coolant should be sufficient.
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We used to do a lot of this thing, using wire cutting to make a good shape, CNC machining, and finally polishing the work.
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It is difficult to melt titanium metal and cast the mold, the whole process must be carried out in a vacuum environment or shielding gas, and the formed titanium steel can only be cold worked, otherwise the previous work can only be scrapped!
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**The above is the titanium alloy material, which can only be processed by wire cutting, and the friend above said it well, I can solve it.
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(1) Inserts with positive angle geometry are used to reduce cutting forces, cutting heat and deformation of the workpiece.
2) Keep a constant feed to avoid the hardening of the workpiece, the tool should always be in the feed state during the cutting process, and the radial eating amount a e should be 30% of the radius during milling.
3) High pressure and high flow cutting fluid are used to ensure the thermal stability of the machining process and prevent the surface degeneration of the workpiece and tool damage caused by high temperature.
4) Keep the blade edge sharp, blunt knives are the cause of heat build-up and wear, which can easily lead to tool failure.
5) Machining in the softest state of titanium alloy as much as possible, because the material becomes more difficult to machine after hardening, and heat treatment improves the strength of the material and increases the wear of the insert.
6) Use a large tip radius or chamfer to cut in as much edge as possible. This reduces cutting forces and heat at every point and prevents local breakage. In the milling of titanium alloys, the cutting speed has the greatest impact on the tool life VC among the cutting parameters, followed by the radial consumption (milling depth) AE.
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The reasons are as follows: Gas impurities (oxygen, nitrogen, hydrogen, etc.) have a great influence on the machinability of titanium alloys, because titanium is chemically reactive and easily combined with gas impurities. When the temperature exceeds 600 degrees, titanium is oxidized to form a brittle layer, the so-called "microformed layer"; hydrogen embrittlement with hydrogen; with nitrogen at high temperatures to form a hard and brittle tinel.
Titanium alloy has small plasticity, which obviously affects its plastic deformation during cutting. The deformation coefficient of titanium alloy is only 1 or even less than 1, while the deformation coefficient of ordinary carbon steel is about 3. When cutting, the chip has a very small contact surface with the rake face, so that the contact zone pressure and local temperature are high, and the tool wears quickly.
Titanium alloys can produce severe work hardening when machining.
When C >, the titanium alloy will form hard carbides, which will cause abrasive wear on the tool and reduce the machinability.
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Summary. Does titanium alloy belong to cemented carbide steel, Hello dear, stainless steel and titanium alloy both belong to alloy steel, just look at the literal way to understand it in the traditional way. Stainless steel and titanium alloy are alloy series names are stainless steel grades that refer to different properties.
I hope my answer is helpful to you, and finally I wish you good health and a happy mood again! <>
Does titanium alloy belong to cemented carbide steel, Hello dear, stainless steel and titanium alloy both belong to alloy steel, just look at the literal way to understand it in the traditional way. Stainless steel and titanium alloy are alloy series names are stainless steel grades that refer to different properties. I hope my answer is helpful to you, and finally I wish you good health and a happy mood again!
Is it a carbide steel?
Hello dear, titanium alloy is titanium based on some other elements. So titanium alloy is not steel.
Tungsten carbide is an alloy material made by powder metallurgy process of hard compounds of refractory metals and bonded metals. Cemented carbide has a series of excellent properties such as high hardness, wear resistance, good strength and toughness, heat resistance, corrosion resistance, especially its high hardness and wear resistance, which basically remains unchanged even at a temperature of 500, and still has a high hardness at 1000. Tungsten carbide is widely used as tool materials, such as turning tools, milling cutters, planer cutters, drills, boring cutters, etc., for cutting cast iron, non-ferrous metals, plastics, chemical fibers, graphite, glass, stone and ordinary steel, and can also be used to cut heat-resistant steel, stainless steel, high manganese steel, tool steel and other difficult-to-machine materials.
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Generally speaking, the grade is YT15, YG9, the larger the number after that, it means that the cemented carbide contains more bonding, high toughness, low hardness, and poor wear resistance, so you can choose according to the performance of the cemented carbide required by the milled copper plate.
There are three main types of tungsten carbide tools:
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