what kind of tool steel?

 

what kind of tool steel?

 

There are six broad categories of tool steel. The four most common are water-hardened, cold-work, hot-work, and high-speed tool steels. Specialized applications also use shock-resisting and special-purpose tool steels.

 

Water-hardened

This group of tool steels is essentially carbon steel thats been heat treated. They have 0.51.5% carbon. Other alloying elements may be present for their different qualities, but these are generally under 0.5%. These metals, like nickel, tungsten, or molybdenum, are expensive. Using less of the costly metal offers value for lighter duty applications. The extreme shock of water-quench is necessary with this group of steels to get a hard external layer. Light duty tools, small parts like springs, and small fasteners are likely final products. They must not be used in extreme environments because W-series steels are a bit more brittle than other tool steels. W-series steels are more vulnerable to cracking and only can handle continuous temperatures to 302°F (150°C).

 

Cold work tool steel

Cold-work tool steels are meant to be used at coldtemperaturesthey are hard, tough, and wear-resistant, but not in hot environments. Because cutting cold materials can take more force than cutting hot materials, compressive strength is a must in cold work tool steel. Cold, in this context, does not mean it is time for the metalworker to put on a sweater. 392°F (200°C) and below is considered a cold working environment for these tools. Unlike many types of steel, graphite often forms in cold-work steels. This graphite makes many of these alloys machinable: the graphite provides lubrication. Cold work tool steels subcategories are: Oil-hardening (O Series): During production, these alloys are quenched in oil. They have 0.852.00 % carbon, and usually less than 1% of each other alloying element. These elements may include manganese, silicon, tungsten, chromium, vanadium, and molybdenum.Air-hardening (A Series): During production, these alloys are quenched in air. They have 0.052.85% carbon. These steels can contain up to 5% chromium. High chromium means that during heat treatment the A series wont undergo dimensional distortion. Chromium produces closer tolerances. High carbon chromium (D Series): These cold work steels function up to 797°F (425°C). They contain 1.42.5% carbon, and 1113% chromium. They can be air or oil quenched, depending on the alloy, and experience very little distortion in either cooling method. These alloys generally have a very high abrasion resistance.Smoke comes out of a borer drilling into metal. Water-quenched can manage to 302°F, cold-work to 392°F, and hot-work to 1004°F.

 

 

Hot work tool steel

Hot-work tool steels all have a greater percentage of alloying elements to create more carbides and handle hotter working temperatures. Hot work tool steels can work in temperatures up to 1004°F (540°C). As a group, most have low carbon percentages, below 0.6%. Hot work tool steel is often used in high temperature manufacturing with malleable hot material like metal and glass. Dies, stamps, extruders, and compressors all may be made with hot-work steel. The tool must continue to function even in extended heat exposure. There are three main types of hot work tool steel, based on the major alloying element: chromium, tungsten, or molybdenum. A few have high levels of chromium and tungsten, and so get sorted as tungsten or as chromium depending on the manufacturer. The major alloying element produces the type of carbide in the steel, and each carbide offers different advantages. Hot work tool steels subcategories are: Chromium: Chromium hot work tool steels have 35% chromium. Other alloying elements like tungsten, vanadium, or molybdenum are under 5%. Vanadium is generally used in the steel used for cutting tools. This group of alloys (and specifically AISI H13) are the most used hot work tools. Tungsten: These alloys often do not contain any molybdenum or vanadium. Instead they contain 918% tungsten. Most tungsten hot work tool steels have between 24% chromium. This is not universally true: for example, the alloy AISI H23 has 12% chromium and 12% tungsten. H23 is sometimes called a chromium steel, sometimes a tungsten one, and sometimes both. Tungsten steels provide excellent heat resistance but can be brittle; this is managed by preheating to operating temperature before use. Molybdenum: Many chromium hot work tool steels have a little bit of molybdenum in them. Premium hot work steels for very tough environments have a lot. Molybdenum creates higher-heat stability and wear resistance in severe hot work applications. Molybdenum alloys AISI H42 and H43 are often used as dies or cutters in metal mills to handle the heat and force of cutting and forging.

 

High speed tool steel

Modern production processes are possible in part to the invention of this class of tool steel. Cutting tools and machine bits that run at high speeds get hot due to friction. The high-speed materials innovation allowed for machinists to increase their rate of production. In 1900, high-speed tool steel was debuted at the Paris Exhibition. A crowd of manufacturers gasped to see a cutting edge start glowing red-hot due to friction yet continuing to work. Where cutting speeds in the 1890s were 530 feet per minute, by 1905 there were machines moving at 150 feet per minute. High speed tool steels have 1418% tungsten, 35% chromium, 0.6% carbon, and other elements depending on the application.

 

Shock resisting tool steel

Group S shock-resisting tool steels are incredibly strong, built to have high impact resistance. Their strength does not simply lie at the surface or shockedlayer of the tool. They may be used for springs, chisels, stamping dies, and punches. This group of alloys often has many alloying elementsmost of which are seen in other tool steels. However, silicon, in the range of 0.153%, is present in this class of steels.

 

Special purpose tool steels

This group of alloys is where the odd ducks go to roost; these metals are used in specific applications and may even be created for a particular manufacturer by a metallurgist. This group includes low-alloy, high-iron steels where all other alloying elements are sparely used. These are most like the inexpensive W-steels and are also water quenched. The minute addition of other elements increases mechanical properties but keep costs down. Low carbon moldsteels are also in this group of special purpose alloys. These are used for thermoplastic molding that must be heat-tolerant and wear resistant but do not need high impact resistance.

 

Fushun Special Steel LTD CO

Fushun Metal is a large special steel manufacturer and supplier. We are metal experts and have been providing quality customer service and products since 1998.

 

At Fushun Metal, we supply a wide range of metals for a variety of applications. Our products/stock includes: stainless steel, alloy steel, spring steel, tool steel, high speed steel, mould steel, nickel alloy.

 

Our hot rolled and cold rolled steel is available in a wide range of shapes including: bars, tubes, sheets and plates. We can cut metal to your exact specifications.

 

Send your inquiry information to us and get a free quotation today!

 

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