The specific material selected for a particular tool is normally determined by the mechanical
properties necessary for the proper operation of the tool. These materials should be selected only
after a careful study and evaluation of the function and requirements of the proposed tool. In most
plications, more than one type of material will be satisfactory, and a final choice will normally
be governed by material availability and economic considerations.
The principal materials used for tools can be divided into three major categories: ferrous
materials. nonferrous materials, and nonmetallic materials. Ferrous tool materials have iron as a
base metal and include tool steel, alloy steel, carbon steel, and cast iron. Nonferrous materials
have a base metal other than iron and include aluminum, magnesium, zinc, lead, bismuth
copper, and a variety of alloys. Nonmetallic materials are those materials such as woods, plastics
rubbers, epoxy resins, ceramics, and diamonds that do not have a metallic base. To properly
to determine how the materials you select will affect the function and operation of the too( stand
select a tool material, there are several physical and mechanical properties you should under
Physical and mechanical properties are those characteristics of a material which control how
the material will react under certain conditions. Physical properties are those properties which are
natural in the material and cannot be permanently altered without changing the material itself
These properties include: weight, color, thermal and electrical conductivity, rate of thermal
expansion, and melting point. The mechanical properties of a material are those properties which
can be permanently altered by thermal or mechanical treatment. These properties include strength
hardness, wear resistance, toughness, brittleness, plasticity, ductility, malleability, and modulus
of elasticity.
From a use standpoint, tool steels are utilized in working and shaping basic materials such as
metals, plastics, and wood into desired forms. From a composition standpoint, tool steels are
carbon alloy steels which are capable of being hardened and tempered. Some desirable properties
of tool steels are high wear resistance and hardness, good heat resistance, and sufficient strength
to work the materials. In some cases, dimensional stability may be very important. Tool steels
also must be economical to use and be capable of being formed or machined into the desired shape for the tool.
Since the property requirements are so special, tool steels are usually melted in electric fumaces using careful metallurgical quality control. A great effort is made to keep porosity segregation,impurities, and nonmetallic inclusions to as low a level as possible[2] Tool steels
are subjected to careful macroscopic and microscopic inspections to ensure that they meet strict
“ tool steel” specifications.
Although tool steels are a relatively small percentage of total steel production, they have a strategic position in that they are used in the production of other steel products and engineering materials. Some applications of tool steels include drills, deepdrawing dies, shear blades punches, extrusion dies, and cutting tools.
For some applications, especially where extremely high-speed cutting is important, other tool materials such as sintered carbide products are a more economical alternative to tool steels. The
exceptional tool performance of sintered carbides results from their very high hardness and high
compressive strength. Other tool materials are being used more and more often industrially.
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Tuofang company is specialized in designing and manufacturing Plastic Injection.
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