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Overall Thickness
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This is the overall thickness of stock forms, tube walls, or other fabricated components.
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Search Logic:
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User may specify either, both, or neither of the "At Least" and "No More Than" values. Products returned as matches will meet all specified criteria.
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Gauge Thickness
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The numerical gauge thickness of the sheet, foil, or wire product. Different gauge systems are used for different stock forms and alloy types.
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Search Logic:
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User may specify either, both, or neither of the "At Least" and "No More Than" values. Products returned as matches will meet all specified criteria.
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Overall Width / OD
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This is the overall width or outer diameter (OD) of stock forms such as bars, plates, and tubes. Overall width is the average particulate diameter for raw materials such as powders, granules, and pellets.
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Search Logic:
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User may specify either, both, or neither of the "At Least" and "No More Than" values. Products returned as matches will meet all specified criteria.
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Overall Length
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This is the length of stock materials such as bars, rods, plates, and tubes.
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Search Logic:
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User may specify either, both, or neither of the "At Least" and "No More Than" values. Products returned as matches will meet all specified criteria.
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Ferrous / Iron Based:
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Your choices are...
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Ferrous / Iron Based - Any Type
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Ferrous metals and alloys are based on iron. This category includes carbon steels, alloy steels, stainless steels, cast iron, maraging steel, and other specialty iron-based alloys.
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Carbon Steel (UNS G)
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Plain carbon steels are ferrous alloys based on iron, carbon, and small levels of other alloying elements such as manganese or aluminum. Carbon steels include soft, non-hardenable low carbon or mild steels such as 1020, as well as hardenable high carbon steels such as 1095. Steel alloys are used in a wide variety of applications in almost every industrial segment. Mild steels and low carbon steels can be fabricated easily by machining, forming, casting, and welding.
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Alloy Steel (UNS G)
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Alloy steels are ferrous alloys based on iron, carbon, and high to low levels of alloying elements such as chromium, molybdenum, vanadium, and nickel. Alloy steels include hardenable high alloy steels, high strength low alloy steels, maraging steel, and other specialty steel alloys. Steel alloys are used in a wide variety of applications in almost every industrial segment. Low alloy steels can be fabricated easily by machining, forming, casting, and welding.
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Stainless Steel (UNS S)
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Stainless steels are highly corrosion resistant, ferrous alloys that contain chromium and/or nickel additions. There are three basic types of products: austenitic stainless steels, ferritic and martensitic stainless steels, and specialty stainless steels and iron superalloys.
Austenitic stainless steels (AISI 300 / 200 Series) are highly corrosion resistant, ferrous alloys that contain chromium and nickel or manganese additions. Generally, austenitic stainless steels are more corrosion resistant than ferritic or martensitic stainless steels. Annealed austenitic stainless steels are non-magnetic. Cold working is used to harden austenitic stainless steels because these alloys do not respond to conventional quench and temper hardening processes.
Ferritic and martensitic stainless steels are highly corrosion resistant, ferrous alloys that contain chromium and/or carbon additions. Ferritic stainless steels are soft, easy to form metal alloys. Cold working is used to harden ferritic stainless steels because these alloys do not respond to conventional quench and temper hardening processes. Ferritic stainless steels are formed to fabricate mufflers and other sheet metal components that require good corrosion resistance. Martensitic stainless steels can be hardened by a conventional quench and temper operation. Martensitic stainless steels are used for knife blades, tooling, or other applications that require good corrosion resistance combined with higher hardness and wear resistance.
Specialty stainless steels and iron superalloys are highly corrosion resistant, ferrous alloys containing chromium, nickel, or other alloying additions to provide high strength or heat resistance. Duplex and precipitation hardening stainless steels belong in this category.
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Tool Steel (UNS T)
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Tool steels are wear resistant, ferrous alloys based on iron and carbon with high levels of alloying (hardenability and property modifying) elements such as chromium, molybdenum, tungsten, and vanadium. Specific tool steel grades are available for die or cold work, hot work, high speed, and shock resistance applications. Tool steel alloys are used in a wide variety of applications that require wear resistance. They are difficult to fabricate in their hardened form and are usually EDM-machined or ground to achieve the tolerances required for tooling applications. EDM is an acronym for electrical discharge machining; this is a process that can cut small or odd-shaped angles, intricate contours, and cavities in extremely hard steels and exotic metals.
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Hardenability Specified / H-Steel (UNS H)
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AISI-SAE H-steels are produced to specified hardenability bands. AISI is the American Iron and Steel Institute, a North American trade association. SAE is the Society of Automotive Engineers.
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Mechanical Property Specified (UNS D, Structural)
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UNS D steels have specified mechanical properties.
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Specialty / Other Ferrous (UNS K)
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Other miscellaneous ferrous alloys have specialized or proprietary compositions or properties. Examples include maraging steels, high strength low alloy (HSLA) steels, and iron-based superalloys.
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Search Logic:
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All products with ANY of the selected attributes will be returned as matches. Leaving all boxes unchecked will not limit the search criteria for this question; products with all attribute options will be returned as matches.
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Nonferrous Metals:
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Your choices are...
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Non-ferrous - Any Type
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Non-ferrous metals and alloys are not based on iron and include alloys of aluminum, copper, titanium, zinc, nickel, cobalt, magnesium, tungsten, molybdenum, precious metals, silver, gold, platinum, palladium, refractory metals, as well as many other metals and alloys.
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Aluminum / Aluminum Alloy (UNS A)
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Aluminum and aluminum alloys are lightweight, non-ferrous metals with good corrosion resistance, ductility, and strength. Aluminum is relatively easy to fabricate by forming, machining, or welding. This metal is a good electrical and thermal conductor. Aluminum is also useful as an alloying element in steel and titanium alloys. Aluminum alloys are versatile metals with applications in almost every industrial and commercial segment.
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Cobalt / Cobalt Alloy
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Cobalt and cobalt alloys are non-ferrous magnetic alloys with high strength and toughness, excellent corrosion and oxidation resistance, and high temperature strength. Cobalt can also be magnetized. Cobalt's properties result in the use of cobalt alloys in jet engine super-alloy components, prosthetic devices, magnets, and cutting tool binders. Cobalt is a useful alloying element in tool, maraging, and other alloy steels.
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Copper, Brass or Bronze Alloy (UNS C)
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Copper and copper alloys are non-ferrous metals with excellent electrical and thermal conductivity as well as good corrosion resistance, ductility and strength. Copper alloys are relatively easy to fabricate by forming, casting, or machining. Pure copper is more difficult to weld, cast, or machine. Brass, tin bronze, leaded brass, beryllium copper, and zirconium copper are examples of copper alloys. Copper is useful as an alloying element in aluminum alloys and powder metal based iron alloys. Copper is a versatile metal with applications in many industrial and commercial segments. Copper's high electrical conductivity (100% IACS) makes it extremely useful in electrical and electronic applications.
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Magnesium / Magnesium Alloy (UNS M)
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Magnesium and magnesium alloys are non-ferrous metals with low density (relatively high strength to weight ratio), good ductility, moderate strength, and good corrosion resistance. Magnesium and magnesium alloys are used in a variety of industries as well as in aircraft, marine, and power tool applications.
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Nickel / Nickel Alloy (UNS N)
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Nickel and nickel alloys are non-ferrous metals with high strength and toughness, excellent corrosion resistance, and superior elevated temperature properties. Nickel can also be magnetized. Nickel's properties result in the use of nickel alloys in jet engine super-alloy components, corrosion resistant chemical process equipment (valves, piping, and pumps), magnets and electrical resistance alloys, and heating elements. Nickel is also a useful alloying element in stainless, tool, maraging, and other alloy steels.
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Noble / Precious Metal (UNS P)
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Noble and precious metal alloys such as silver, gold, platinum, and palladium alloys are extremely resistant to corrosion and oxidation. Noble and precious metal alloys are used in electrical contacts, electronic connectors, chemical process components, catalysts, jewelry, and other specialized applications.
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Rare Earth (UNS E)
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Metals or alloys are based on elements from the rare earth elements group.
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Refractory / Reactive (UNS R)
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Refractory and reactive metals include boron (B), tungsten (W), tantalum (Ta), molybdenum (Mo), niobium (Nb) / columbium (Cb), zirconium (Zr), hafnium (Hf), thorium (Th), vanadium (V), chromium (Cr), cobalt (Co), rhenium ( ), and titanium (Ti).
Refractory metals and alloys are metals with melting points above ~1750 C (~ 32000 F). Refractory metals include tungsten tantalum, molybdenum, niobium, and zirconium. Refractory metals are used in high temperature, structural, electrical, and other specialty applications.
Reactive metals combine readily with oxygen at elevated temperatures to form very stable oxides. Titanium, zirconium, and beryllium are considered reactive metals. Finely divided reactive metals can react explosively with oxygen and are often added to rocket fuels or combustible mixtures. A highly stable oxide film formed on the alloy surface provides protection against further oxidization or corrosion at low to moderate temperatures. Reactive metals can become embrittled if there is too much interstitial absorption into the lattice of oxygen, hydrogen, and nitrogen.
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Titanium / Titanium Alloy
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Titanium and titanium alloys are non-ferrous metals with excellent corrosion resistance, good fatigue properties, and a high strength-to-weight ratio. Titanium's properties result in the use of titanium and titanium alloys in aircraft or airframe parts, jet engine super-alloy components, corrosion resistant chemical process equipment (valves, piping, and pumps), prostheses or medical devices, and marine equipment.
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White / Low Melting (UNS L)
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Lead, tin, and white metals are low melting non-ferrous metals and alloys. Lead and white metal alloys are used as solders, battery electrodes, bearing liners, decorative products, and coatings. They are also used in other specialized applications. Indium, tin, lead, and antimony are used to manufacture semiconductors.
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Zinc / Zinc Alloy (UNS Z)
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Zinc and zinc alloys are moderately low melting, non-ferrous alloys widely used in the production of die cast components.
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Specialty / Other (UNS M)
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This refers to other miscellaneous nonferrous metals or alloy grades.
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Search Logic:
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All products with ANY of the selected attributes will be returned as matches. Leaving all boxes unchecked will not limit the search criteria for this question; products with all attribute options will be returned as matches.
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Alloy?
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Alloys have significant amounts of intentionally added alloying elements or constituents.
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Search Logic:
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"Required" and "Must Not Have" criteria limit returned
matches as specified. Products with optional attributes
will be returned for either choice.
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Pure / Very Low Alloy?
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Commercially pure, unalloyed, or very low alloy metals are free of or contain very small amounts of alloying elements such as copper and various grades of copper (e.g., ETP Cu, Be Cu, Cr Cu, Te Cu, Zr Cu); commercially pure titanium or palladium-modified titanium (e.g., C.P. titanium); and pure aluminum grades from the AA 10nnnn Series (e.g., AA 1000 to 1999).
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Search Logic:
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"Required" and "Must Not Have" criteria limit returned
matches as specified. Products with optional attributes
will be returned for either choice.
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Clad / Bimetal?
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The metal or alloy stock is a clad or bimetal material, which consists of two or more different alloys bonded integrally together.
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Search Logic:
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"Required" and "Must Not Have" criteria limit returned
matches as specified. Products with optional attributes
will be returned for either choice.
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Metal Matrix Composite?
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Metal matrix composites have a composite, reinforced metal, or alloy matrix filled with a second component. The second component of reinforcement may be in particulate, chopped fiber, continuous filament, or fabric form.
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Search Logic:
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"Required" and "Must Not Have" criteria limit returned
matches as specified. Products with optional attributes
will be returned for either choice.
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Standards / Specifications
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Your choices are...
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AISI
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Iron-based or ferrous alloys adhere to designations established by the American Iron and Steel Institute (AISI) and the Society of Automotive Engineers (SAE). Examples of AISI-SAE steels grades are 1018, 4140, 9610 and 52100.
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AA / IADS
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Metals or alloys meet compositional standards established by the Aluminum Association of the United States (AA), which classifies materials based on the International Alloy Designation System (IADS).
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AMS
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Metals or alloys meet specific Aerospace Material Specification (AMS) guidelines established by the Society of Automotive Engineers (SAE).
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ASTM / ASME
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The American Society for Testing and Materials (ASTM) is a non-profit organization that provides a forum for the development and publication of voluntary standards for materials, products, systems, and services. Most specifications from the American Society of Mechanical Engineers (ASME) are adopted from or very similar to ASTM specifications.
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CDA
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Metals or alloys meet compositional standards established by the Copper Development Association (CDA) of the United States.
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EN
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European Norm or EuroNorm (EN) specifications have superseded several older, national designation systems such as BS, DIN, NS and SS.
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MIL-SPEC / Federal (QQS)
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MIL-SPEC metals meet U.S. government standards and are suitable for military applications. QQ and QQS are prefixes used to designate specific metals.
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JIS
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Japanese Industrial Standards (JIS) specify the standards used for industrial activities in Japan. The standardization process is coordinated by the Japanese Industrial Standards Committee and published through the Japanese Standards Association.
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SAE
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Products meet alloy grades, specifications, or designations established by the Society of Automotive Engineers (SAE).
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UNS
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Metals or alloys meet the compositional standards in the Unified Numbering System (UNS), which was established by the ASTM, SAE, and several metal trade associations and societies. UNS identifies metals and alloys with a letter and five numbers. For example, carbon and alloy steels are identified as Gnnnnn, where G is the letter nnnnn is the number.
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Specialty / Other
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This refers to other unlisted, specialized, and OEM-specific (e.g., GE, P&W, Boeing, etc.) or proprietary material specifications.
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Search Logic:
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All products with ANY of the selected attributes will be returned as matches. Leaving all boxes unchecked will not limit the search criteria for this question; products with all attribute options will be returned as matches.
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UNS Number
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Search Logic:
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User may specify either, both, or neither of the "At Least" and "No More Than" values. Products returned as matches will meet all specified criteria.
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Processing Features:
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Your choices are...
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Cast (Continuous, Centrifugal, etc.)
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Cast alloy stocks or shapes are produced in a casting process such as continuous casting or centrifugal casting.
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Wrought
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Wrought metals or alloys are worked mechanically to refine their structure, break up inclusion, close porosity, and improve homogeneity.
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Powdered Metal (Compacted)
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Powered metal stock or shapes are fabricated by consolidating or compacting powdered or atomized versions or the metal or alloy. Powder processing eliminates the possibility of large inclusions and can produce a finer structure compared to conventional wrought processes.
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Extruded
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These alloy stocks or shapes are produced by using an extrusion process.
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Cold Finished / Rolled / Drawn
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Alloy stock or shapes are produced in a process that mechanically deforms or works the material at a temperature that is below the recrystallization point of the alloy. Rolling processes squeeze the metal between two steel rolls. Drawing processes pull the metal from a die opening or gap. The elevated temperature allows a greater degree of deformation as well as annealing during the process. Hot rolled metals tend to have more scale on their surface.
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Hot Rolled
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Hot rolled alloy stock or shapes are produced in a process that mechanically deforms or works the material at an elevated temperature (e.g., steels in the "red" hot condition). This temperature is above the recrystallization point of the alloy. The elevated temperature allows a greater degree of deformation or a reduction of thickness. A post annealing process is not required after hot rolling. Hot rolled metals tend to have more surface scale and require pickling and oiling.
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Electric Arc Furnaced (E, VAR, etc.)
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Electric arc furnaced materials are very clean and have less inclusions and lower variability. Aircraft, bearing, and premium steels are usually electric arc furnaced or E grade steels.
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Search Logic:
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All products with ANY of the selected attributes will be returned as matches. Leaving all boxes unchecked will not limit the search criteria for this question; products with all attribute options will be returned as matches.
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Performance Features
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Your choices are...
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Amorphous / Glassy Alloy
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Amorphous or glassy alloys do not have a crystal structure, which results in their superior or unique magnetic properties, corrosion resistance, and mechanical and electrical properties.
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Anti-slip / Textured
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Plates, bars, angles, or other stock metal shapes have a texture or non-slip surface such as an embossed diamond pattern or an anti-slip abrasive coating.
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Austenitic
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200-series austenitic steels are stainless steels that contain chromium, nickel, and manganese. 300-series austenitic steels are stainless steels that contain chromium and nickel. The stainless steels in each austenitic group have different compositions and properties, but share many common characteristics. They can be hardened by cold working but not by heat treatment. In the annealed condition, all are essentially nonmagnetic; although, some may become slightly magnetic by cold working. They have excellent corrosion resistance, unusually good formability, and increased strength due to cold working.
Type 304 or 18-8 stainless steel is the most widely used alloy in the 300-series austenitic group. It has a nominal composition of 18% chromium and 8% nickel. Type 316 stainless steel has an 18-8 composition modified with molybdenum to improve pitting corrosion resistance.
Austenitic grades consist of 201, 301, 301, 303, 304, 304L, 305, 309, 310, 316, 316L, 317, 317L, 321, 347, and 348 as well as specialized or proprietary austenitic stainless steels.
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Coated / Painted
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Metal or alloy stock or shapes are coated with a protective or decorative layer of paint, resin, plating, thermal spray deposit, or other organic or inorganic material.
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Coiled Stock
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Materials are supplied or available as coils, reels, or other wound stock forms.
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Controlled / Low Expansion Alloy
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Alloys are engineered to provide controlled or low thermal expansion characteristics. These low thermal expansion characteristics are useful in metal-to-glass or ceramic sealing applications.
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Corrosion Resistant
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These alloys are designed or suitable for service applications that require corrosion resistance.
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Cold Work (Die / Mold)
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Steels and alloys are designed or suitable for die, mold, or other cold work service applications. Cold work steels have good compressive strength and wear resistance under room temperature conditions.
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Ferritic
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Ferritic stainless steels are straight-chromium 400-series metals that cannot be hardened by heat treatment, and only moderately hardened by cold marketing. They are magnetic, have good ductility, and resistant against corrosion and oxidation. Ferritic stainless steels have chromium levels that range from 10.5% to 40% (typically 12% or more) and carbon levels less than 0.20%. Types 409, 430, 434, 430, 439, 442, and 446 belong in this category. Type 430 is a general-purpose ferritic stainless steel.
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Galvanized
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Galvanized steel sheets and products are protected with an electrodeposited or dip zinc layer. The zinc and steel form a galvanic cell under wet or moist conditions. The zinc layer has a lower electrogalvanic potential compared to steel causing the zinc to be attacked and sacrificed while protecting the underlying steel.
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Heat Resistant / Hot Work
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Alloys are designed or suitable for service applications that require heat resistance.
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Leaded / Free Machining
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Alloys contain additions of lead, selenium, or other free-machining additives that help break up chips during the machining process.
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Light Alloy
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Light alloys include aluminum, magnesium, titanium, beryllium alloys, and composite with low densities and high strength to weight ratios. Light alloys are useful in aerospace and automotive applications where reduction in weight can improve performance or fuel efficiency.
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Shim / Shim Stock
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Thin brass, steel, or metal stock is manufactured to precise thicknesses for shimming, chocking, or spacing applications.
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Shock / Impact Resistant
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Alloys are designed or suitable for service applications that require shock or impact resistance.
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Super Alloy
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Superalloys are nickel, cobalt, or iron-based alloys with excellent elevated temperature strength, creep properties, and oxidation resistance.
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Soft Magnetic Alloy
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Soft magnetic alloys are easily magnetized and demagnetized. These alloys are used in motor, transformer, electromagnets, magnetic bearing, solenoid, GFCI, relays, generators, tape heads, and shielding applications in sheet, lamination, and core configurations. Depending on the specific application, alloys are selected based on their permeability, resistivity, core loss, and flux density or saturation characteristics
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Wear Resistant / High Speed
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Alloys are designed or suitable for service applications that require wear or erosion resistance.
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Specialty / Other
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This refers to other unlisted, specialty or proprietary metals or alloy grades. These materials are based on a unique composition or alloy system, use a novel processing technology, or have properties designed for specific applications.
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| |
Search Logic:
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All products with ANY of the selected attributes will be returned as matches. Leaving all boxes unchecked will not limit the search criteria for this question; products with all attribute options will be returned as matches.
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Part Numbers for Metal Strip
| Part # |
Distributor |
Manufacturer |
Product Category |
Description |
| WSL2010R0280FEK |
Newark |
VISHAY DALE
|
Wirewound, Metal Strip
|
Metal Strip Resistor; Series:WSL; Resistance:0.028Ohm; Resistance Tolerance:+/- 1 %; Power Rating:0.5W; Temperature Coefficient:+/-75 ppm; Package/Case:2010; Terminal Type:PCB Surface Mount; Leaded Process Compatible:Yes RoHS Compliant: Yes |
| LVRA-.03RCT-ND |
Digi-Key |
Vishay/Dale
|
Resistors
|
RES .03 OHM 1% 1W METAL STRIP |
| LVR01R0250FE70-ND |
Digi-Key |
Vishay/Dale
|
Resistors
|
RES .025 OHM 1% 1W METAL STRIP |
| WSR2R0150FEK |
Newark |
VISHAY DALE
|
Wirewound, Metal Strip
|
Surface Mount Resistor; Series:WSR; Resistance:0.015Ohm; Resistance Tolerance:+/- 1 %; Power Rating:2W; Temperature Coefficient:+/-75 ppm; Package/Case:4527; Terminal Type:PCB Surface Mount; Leaded Process Compatible:Yes RoHS Compliant: Yes |
| WSL2512R1800FEK |
Newark |
VISHAY DALE
|
Wirewound, Metal Strip
|
Metal Strip Resistor; Series:WSL; Resistance:0.18Ohm; Resistance Tolerance:+/- 1 %; Power Rating:1W; Temperature Coefficient:+/-75 ppm; Package/Case:2512; Terminal Type:PCB Surface Mount; Leaded Process Compatible:Yes RoHS Compliant: Yes |
| WSL1206 0.13OHM 1% BA |
Newark |
VISHAY DALE
|
Wirewound, Metal Strip
|
Wirewound Resistor; Series:WSL; Resistance:0.13Ohm; Resistance Tolerance:+/- 1 %; Power Rating:0.25W; Temperature Coefficient:+/-75 ppm; Package/Case:1206; Terminal Type:PCB Surface Mount; Leaded Process Compatible:No RoHS Compliant: No |
| WSR20.0251%BA |
Newark |
Not Provided
|
Wirewound, Metal Strip
|
Metal Strip Resistor; Series:WSR; Resistance:0.025Ohm; Resistance Tolerance:+/- 1 %; Power Rating:2W; Temperature Coefficient:+/-75 ppm; Package/Case:4527; Terminal Type:PCB Surface Mount; Leaded Process Compatible:No RoHS Compliant: No |
| WSL25123L000FEK |
Newark |
Not Provided
|
Wirewound, Metal Strip
|
Metal Strip Resistor; Series:WSL; Resistance:0.003Ohm; Resistance Tolerance:+/- 1 %; Power Rating:1W; Temperature Coefficient:+/-150 ppm; Package/Case:2512; Terminal Type:PCB Surface Mount; Leaded Process Compatible:Yes RoHS Compliant: Yes |
| WSL2512R4530FEK |
Newark |
VISHAY DALE
|
Wirewound, Metal Strip
|
Wirewound Resistor; Series:WSL; Resistance:0.453Ohm; Resistance Tolerance:+/- 1 %; Power Rating:1W; Temperature Coefficient:+/-75 ppm; Package/Case:2512; Terminal Type:PCB Surface Mount; Leaded Process Compatible:Yes RoHS Compliant: Yes |
| WSR2R0500FEK |
Newark |
VISHAY DALE
|
Wirewound, Metal Strip
|
Metal Strip Resistor; Series:WSR; Resistance:0.05Ohm; Resistance Tolerance:+/- 1 %; Power Rating:2W; Temperature Coefficient:+/-75 ppm; Package/Case:4527; Terminal Type:PCB Surface Mount; Leaded Process Compatible:Yes RoHS Compliant: Yes |
More >>
|
metal strip,
Zinc Strip,
steel Strip,
stainless steel strip,
copper Strip,
aluminum strip,
bimetal strip,
cold rolled strip,
magnesium strip,
silver strip,
carbon steel Strip,
lead strip,
Drawn,
Nickel Strip,
spring steel strip,
Titanium Strip,
specialty steel strip,
stainless strip,
tin strip,
bronze Strip
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