White / Low Melting (UNS L) Nonferrous Metals and Alloys

Description

White or low melting (UNS L) nonferrous metals and alloys are materials characterized by their ability to melt at relatively low temperatures compared to other metals. These alloys often include elements such as lead, tin, antimony, and cadmium. They are typically used in applications where a low melting point is advantageous, such as in fusible alloys that can be used for thermal management or as temperature standards.

Working Principle

The working principle of low melting nonferrous metals and alloys is based on their eutectic compositions, which allow them to melt at a single, fixed temperature rather than over a range. This property makes them particularly useful in applications where precise melting points are required. For example, fusible alloys can be used as thermal interface materials to efficiently transfer heat from electronic components to heat sinks. Their ability to wet ceramics and plastics enhances their thermal conductivity, making them effective in heat dissipation.

Applications

Low melting nonferrous metals and alloys have a variety of applications. They are used in the continuous casting of glassy alloys, molten metal batteries, and hydrogen storage and generation. In the electronics industry, they serve as thermal interface materials. Additionally, they are used in thermometers and thermostat components as replacements for mercury, providing a safer alternative for temperature measurement.

Advantages over other Nonferrous Metals and Alloys

One of the primary advantages of low melting nonferrous metals and alloys is their precise melting point, which allows for controlled melting and solidification processes. This makes them ideal for applications requiring exact temperature control. Their ability to wet ceramics and plastics also provides superior thermal conductivity compared to other nonferrous metals, enhancing their effectiveness in thermal management applications.

Limitations

A significant limitation of these alloys is their relatively low mechanical strength compared to other nonferrous metals. This can restrict their use in applications where structural integrity is crucial. Additionally, some of these metals, such as lead, are toxic and require careful handling and disposal to avoid environmental and health hazards.

Considerations

When selecting low melting nonferrous metals and alloys, it is important to consider factors such as initial costs, operating expenses, and maintenance requirements. These materials may have lower initial costs due to their ease of processing, but their durability and mechanical strength may not be as high as other metals, potentially leading to higher replacement and maintenance costs. Additionally, the toxicity of certain elements, like lead, necessitates careful consideration of environmental and health regulations, which can impact overall operating expenses.

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Extruded Lead/Pipe/Bar - Image
Extruded Lead/Pipe/Bar
from MarsMetal

Mars Metal Company, Specialty Casting Division is your supplier for extruded lead pipe and bar products. The extrusion process provides a very accurate shape that is very dense. The pressures necessary for extruding pipes or shapes ensures very little porosity in the lead and it provides a very... [See More]

  • Nonferrous: LowMelting; Lead
  • Features: Continuous, Centrifugal or Other Casting Process
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Bar Stock (optional feature); Hollow Stock (Tube, Pipe, Column) (optional feature); Round Bar or Rod Stock
  • Applications: BuildingConstruction
Lead Bricks - Image
Lead Bricks
from MarsMetal

Our MarShield division manufactures straight, interlocking, and corner lead bricks, commonly used for radiation shielding or ballast weight. Bricks are available in a wide range of sizes, thicknesses and shapes to suit your application. [See More]

  • Nonferrous: LowMelting; Lead
  • Features: Continuous, Centrifugal or Other Casting Process
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Squares; Bar Stock; Brick
  • Applications: BuildingConstruction
Lead Ingot - Image
Lead Ingot
from MarsMetal

Mars Metal is your source for ingot lead. Lead ingots have managed to acquire a variety of industry specific names. Ingot lead can also be known as lead pigs, bullion or bar lead and range in size from 10 LB ice cube tray ingots to 70 LB large ingots. For more information please see the dimensioned... [See More]

  • Nonferrous: LowMelting; Lead
  • Shape / Form: Ingot or Billet
  • Specifications: ASTM / ASME
  • Features: Continuous, Centrifugal or Other Casting Process
Lead Lined Drywall - Image
Lead Lined Drywall
from MarsMetal

Lead Drywall: also referred to as Lead-Lined Sheetrock, Gyproc, Wallboard or Lead-Lined Gypsum Board. MarMetal's drywall is laminated with sheet lead that is designed to cover necessary surfaces or walls in a room requiring radiation shielding. It is affixed to surfaces or walls ensuring a... [See More]

  • Nonferrous: LowMelting; Lead
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Sheet
  • Specifications: ASTM / ASME
  • Applications: BuildingConstruction
Lead Lined Plywood - Image
Lead Lined Plywood
from MarsMetal

MarsMetal's plywood is laminated with sheet lead that is designed to cover necessary surfaces or walls in a room requiring radiation shielding. It is affixed to surfaces or walls ensuring a continuous layer of sheet lead, under the plywood, to a specified height. It is used in new construction or... [See More]

  • Nonferrous: LowMelting; Lead
  • Applications: BuildingConstruction
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Sheet
Lead Shot - Image
Lead Shot
from MarsMetal

Using lead shot for radiation shielding? Visit our MarShield website for comprehensive information. Mars Metal provides lead shot as an easy, cost-effective solution for areas where solid lead is impractical, due to location, shape, or accessibility. Applications include ballast, stress testing,... [See More]

  • Nonferrous: LowMelting; Lead
  • Features: Continuous, Centrifugal or Other Casting Process
  • Shape / Form: Shot
  • Applications: Aerospace or Aircraft Quality (optional feature); Armor / Ballistic Protection (optional feature); Marine (optional feature)
Roofing and Flashing - Image
Roofing and Flashing
from MarsMetal

Mars Metal provides sheet lead conforming to Federal QQ-L-201F and QQ-L-171E (and ASTM B-29 and B-749). Made from 98% recyclable material, sheet lead is the most malleable of common metals and can be easily shaped, formed, bend and cut to suit a variety of applications, including lead roofing and... [See More]

  • Nonferrous: LowMelting; Lead
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Sheet
  • Specifications: ASTM / ASME
  • Applications: BuildingConstruction
Sheet Lead - Image
Sheet Lead
from MarsMetal

Over 70 tons of sheet lead in stock in various sizes are available for quick turnaround at our warehouse! Our high quality Sheet Lead is manufactured from pure lead conforming to ASTM B-29, B-749 and Federal QQ-L-201F, QQ-L-171E.Mars Metal offers sheet lead as laminated panels, adhesive bonded to... [See More]

  • Nonferrous: LowMelting; Lead
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Sheet
  • Specifications: ASTM / ASME
  • Applications: BuildingConstruction; Nuclear
Sound Barriers - Image
Sound Barriers
from MarsMetal

Noise - it can destroy hearing, create physical and psychological stress and contribute to accidents by making it impossible to hear warning signals. The technology to curb noise levels of many sources now exists. The many variations of materials to control noise are all derived from three basic... [See More]

  • Nonferrous: LowMelting; Lead
  • Applications: BuildingConstruction
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Sheet
Waterproofing Sheet Lead - Image
Waterproofing Sheet Lead
from MarsMetal

Utilizing today's modern construction techniques, developers and engineers are able to realize the full potential of land both above and below ground. Parking garages, subways, shops and storage areas are commonly situated underground without restriction or hinderance from what lies above. Lead... [See More]

  • Nonferrous: LowMelting; Lead
  • Applications: BuildingConstruction
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Sheet
#4 Babbitt Alloy -- 5906A - Image
#4 Babbitt Alloy -- 5906A
from Belmont Metals, Inc.

Lead Alloys. Featuring 99.99% Lead in a variety of forms, Pb-Base Babbitt and casting alloys for jewelry and ornamental products, and Pb-Base Solders. Lead has been commonly used for thousands of years because it is widespread, easy to extract and easy to work with since it is highly malleable as... [See More]

  • Nonferrous: LowMelting; Lead
  • Applications: Babbitt Alloys, Casting Alloys, Lead Weights, Bricks for Radiation Protection, Acoustical Sheet, Fusible Alloys
  • Shape / Form: Ingot or Billet
In 99.999% Ø8x15mm 500g - 0712750 -- 0712750 - Image
In 99.999% Ø8x15mm 500g - 0712750 -- 0712750
from Umicore Metal Deposition Solutions

Coating material. Indium. Purity. 99.999%. Form. Rod. Dimensions. Ø 8 x 15 mm. Quantity. 500 g. Theoretical density at 20 °C in g/cm ³. 7.3. Melting point in °C. 157. 10 ⁻ ² mbar in °C. 920. 10 ⁻ ¹ mbar in °C. 1050. Boiling point in °C. 2072. [See More]

  • Nonferrous: LowMelting; Indium
  • Width / OD: 0.3150
  • Shape / Form: Bar Stock; Profile or Structural Shape; Round Bar or Rod Stock;

    Rod

  • Length: 0.5906
Anchoring Alloy -- Indalloy® 217-440 - Image
Anchoring Alloy -- Indalloy® 217-440
from Indium Corporation

Fusible alloys are materials that melt at less then 300 °F, well below the melting point of tin-lead eutectic solders and SAC alloys. Bismuth is the major component of many of these alloys and infl uences the melting point, as well as gives these materials the unique characteristic of expansion... [See More]

  • Nonferrous: LowMelting; Bismuth
1015 BABBITT -- 5752 - Image
1015 BABBITT -- 5752
from Belmont Metals, Inc.

Babbitt Metals. Featuring tin-base and lead-base babbitts to ASTM, SAE, government, Navy specifications; special and custom alloys. The use of bearing materials to reduce bearing friction can be traced at least back to the Roman chariot days. Soft metals such as Tin and Lead were unsuccessfully... [See More]

  • Nonferrous: LowMelting; Tin
  • Shape / Form: Ingot or Billet; Wire
  • Specifications: ASTM / ASME; SAE; ASTM B-23 Grade 2
Gallium Metal - Image
View Datasheet
Gallium Metal
from Indium Corporation

Gallium is a by-product of aluminum extracted during the processing of bauxite into alumina. It can also occasionally be found in Zn ore. We are a refiner and supplier of gallium materials. Indium Corporation supplies gallium: in the form of shot and ingot, in the form of sputtering targets, after... [See More]

  • Nonferrous: LowMelting; Miscellaneous Nonferrous Metal or Alloy
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Ingot or Billet; Ball Shot
  • Specialty / Other Types: Specialty; Gallium
  • Applications: Semiconducting Applications
117 Degree F Low Melting Alloy -- 2451A - Image
117 Degree F Low Melting Alloy -- 2451A
from Belmont Metals, Inc.

Bismuth Alloys. Featuring 99.9% Bismuth and Low Melt Eutectic and Non-Eutectic Alloys offering custom compositions and forms. Bismuth is a white, crystalline, brittle metal with a pinkish tinge. It s the most naturally diamagnetic element and has one of the lowest values of thermal conductivity... [See More]

  • Nonferrous: LowMelting; Bismuth
  • Shape / Form: 2 lb Cake Even Weight
Germanium Metal - Image
Germanium Metal
from Indium Corporation

Germanium is extracted from germanium bearing zinc ores or from certain coal ores, collecting the flue dusts after the burning process. It can occasionally be found in copper ores. We refine germanium at our facility in the USA. [See More]

  • Nonferrous: LowMelting; Miscellaneous Nonferrous Metal or Alloy
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Ingot or Billet
  • Specialty / Other Types: Specialty; Germanium
  • Applications: Fiber Optics, Semiconductors
117 Degree F Low Melting Alloy -- 2451A - Image
117 Degree F Low Melting Alloy -- 2451A
from Belmont Metals, Inc.

Featuring 99.99% Indium and Indium-Based Low Melting Alloys. Indium was discovered by the German chemists Ferdinand Reich and Hieronymus Richter in 1863. Reich and Richter had been looking for traces of the element thallium in samples of Zinc order, when they saw a brilliant indigo line in the... [See More]

  • Nonferrous: LowMelting; Bismuth; Indium; Lead
  • Applications: Bearings or Bearing Quality; Electronics or semiconductors
  • Shape / Form: 2 lb Cake Even Weight
Indium Metal -- 117°F Eutectic Fusible Alloy Bar - Image
Indium Metal -- 117°F Eutectic Fusible Alloy Bar
from Indium Corporation

Fusible Alloys include a group of binary, ternary, quaternary, and quinary alloys containing Bismuth, lead, tin, cadmium and indium. The term fusible alloy refers to any of the more than 100 white-metal alloys that melt at relatively low temperatures. Fusible alloys are materials that melt at less... [See More]

  • Nonferrous: LowMelting; Bismuth; Indium; Lead; Tin; Miscellaneous Nonferrous Metal or Alloy
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Bar Stock
  • Specialty / Other Types: Specialty; Cadmuim
  • Applications: Sealing in Cryogenic Applications, Soldering/Fusing
25% Tin Pewter Alloy -- 5731B - Image
25% Tin Pewter Alloy -- 5731B
from Belmont Metals, Inc.

Pewter. Featuring Lead Free Pewter and Lead Free Pewter alloyed with Silver, Indium, and Bismuth, as well as Brittania, and Genuine Pewter. Pewter is a malleable metal alloy, traditionally 85 -95% Tin, with the remainder consisting of Copper, Antimony, Bismuth and sometimes, less commonly today,... [See More]

  • Nonferrous: LowMelting; Lead; Tin
  • Applications: Decorative objects: collectible statuettes and figurines, game figures, aircraft and other models
  • Shape / Form: Ingot or Billet
Indium Metal -- 136°F Eutectic Fusible Alloy Bar - Image
Indium Metal -- 136°F Eutectic Fusible Alloy Bar
from Indium Corporation

Fusible Alloys include a group of binary, ternary, quaternary, and quinary alloys containing Bismuth, lead, tin, cadmium and indium. The term fusible alloy refers to any of the more than 100 white-metal alloys that melt at relatively low temperatures. Fusible alloys are materials that melt at less... [See More]

  • Nonferrous: LowMelting; Bismuth; Indium; Lead; Tin
  • Thickness: 1
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Bar Stock
  • Length: 4.25
281 Degree F Low Melting Alloy -- 2581A - Image
281 Degree F Low Melting Alloy -- 2581A
from Belmont Metals, Inc.

White Metals. Featuring Aluminum, Lead, Pewter, Solders, Jewelry, Sculpture, Tin, Zinc Alloys in a variety of forms for many applications. White metals are any of several light-colored alloys used as a base for plated silverware, ornaments or novelties, as well as any of several lead-based or... [See More]

  • Nonferrous: LowMelting; Bismuth; Tin
  • Specifications: ICI, ASTM, or Other Casting Grade
  • Specialty / Other Types: LightAlloy
  • Shape / Form: Cakes
Indium Metal -- 99.9% Pure Indium Shot - Minimum Purity: 1000 ppm - Image
Indium Metal -- 99.9% Pure Indium Shot - Minimum Purity: 1000 ppm
from Indium Corporation

Typical Indium Analysis. 99.9%. PPMWT. Fe : 10-20. Ni : 5-20. Cu : 5-30. Cd : 50-100. Pb : 200-300. Sn : 50-200. Ti : 100-300. Analysis by OES. * Please note that these are typical ppm levels, and do not represent maximum, minimum, or lot specific levels. If you have specific requirements for one or... [See More]

  • Nonferrous: LowMelting; Indium
  • Width / OD: 0.1250
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Ball Shot
  • Applications: Sealing in Cryogenic Applications, Soldering/Fusing
35% Tin Pewter Alloy -- 5632 - Image
35% Tin Pewter Alloy -- 5632
from Belmont Metals, Inc.

Tin Alloys. Featuring jewelry alloys, Sn anodes for plating, Sn shot for gray iron and titanium alloy additions, Grade A and 99.99% Sn, Sn-base babbitts, 5% phosphor Sn, Pewter, Sn-base solders, Sn powder, Sn oxide powder, Sn granular. All types of Sn and Sn alloys for additions, alloying, casting... [See More]

  • Nonferrous: LowMelting; Lead; Tin
  • Applications: Chemical or material processing; Casting, Plating, Solder, Babbitt Alloys, Bronze Alloys
  • Shape / Form: Pig, Bar, Granular, Mossy, Shot, Anodes, Rod
Indium Metal -- 99.99% Indium Anode - Image
Indium Metal -- 99.99% Indium Anode
from Indium Corporation

Typical Indium Analysis. 99.99%. PPMWT. Fe : 1-2. Ni : 2-6. Cu : 2-6. Cd : 5-10. Pb : 10-30. Sn : 10-25. Ti : 1-4. Analysis by OES. * Please note that these are typical ppm levels, and do not represent maximum, minimum, or lot specific levels. If you have specific requirements for one or two... [See More]

  • Nonferrous: LowMelting; Indium
  • Thickness: 0.5000
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Bar Stock; Anode
  • Length: 11.75
99.9% Bismuth Powder -- 2003A - Image
99.9% Bismuth Powder -- 2003A
from Belmont Metals, Inc.

Powdered Metals. Featuring Holtite Alsil Grit, Iron Powder, High Grade Zinc, Tin, and Copper-Aluminum Applications. Belmont Metals offers a vast amount of non-ferrous metals in Powder form as a pure metal instead of an alloy of various elements. A powder is a dry, bulk solid composed of a large... [See More]

  • Nonferrous: LowMelting; Bismuth
  • Applications: Welding, Sintered Components, Additive Manufacturing, and Surface Coating
  • Shape / Form: Powder, Granule or Flake
Indium Metal -- 99.99% Pure Indium Shot - Minimum Purity: 100 ppm - Image
Indium Metal -- 99.99% Pure Indium Shot - Minimum Purity: 100 ppm
from Indium Corporation

Typical Indium Analysis. 99.99%. PPMWT. Fe : 1-2. Ni : 2-6. Cu : 2-6. Cd : 5-10. Pb : 10-30. Sn : 10-25. Ti : 1-4. Analysis by OES. * Please note that these are typical ppm levels, and do not represent maximum, minimum, or lot specific levels. If you have specific requirements for one or two... [See More]

  • Nonferrous: LowMelting; Indium
  • Width / OD: 0.1250
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Ball Shot
  • Applications: Sealing in Cryogenic Applications, Soldering/Fusing
Low Melting (Fusible) Alloys -- 2405 - CAST - Image
Low Melting (Fusible) Alloys -- 2405 - CAST
from Belmont Metals, Inc.

Low Melting (Fusible) Alloys. Featuring 158 °F, 203 °F radiation shielding alloys, pipe bending alloys, and low temperature solders. Eutectic: melting points from 117 ° – 281 °F.Non-eutectic: melting points from 107 ° – 338 °F.Mellottes metal, Rose metal, Wood... [See More]

  • Nonferrous: LowMelting; Bismuth
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes (optional feature); Bar Stock (optional feature); Ingot or Billet (optional feature); Strip (optional feature); Wire (optional feature); Cake, Shot, Stick and Custom Shapes
Indium Metal -- 99.999% Pure Indium Shot - Minimum Purity: 10 ppm - Image
Indium Metal -- 99.999% Pure Indium Shot - Minimum Purity: 10 ppm
from Indium Corporation

Typical Indium Analysis. 99.999%. PPMWT. Fe : 0.5. Ni : 1.0. Cu : 1.0. Cd : 1.0. Pb : 2.0. Sn : 2.5. Ti : 1.0. Analysis by OES. * Please note that these are typical ppm levels, and do not represent maximum, minimum, or lot specific levels. If you have specific requirements for one or two elements,... [See More]

  • Nonferrous: LowMelting; Indium
  • Width / OD: 0.1250
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Ball Shot
  • Applications: Sealing in Cryogenic Applications, Soldering/Fusing
Indium Metal -- High Purity 6N Indium Shot - Image
Indium Metal -- High Purity 6N Indium Shot
from Indium Corporation

We produce 6N material with impurities held to less than 100 ppb/weight as analyzed by OES. 6N (and often 5N) indium is selected when the user's application offers enough flexibility to allow the balancing of device performance with material cost. Size: .125" Diameter approx; Random Sized Teardrop... [See More]

  • Nonferrous: LowMelting; Indium
  • Width / OD: 0.1250
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Ball Shot
  • Applications: Sealing in Cryogenic Applications, Soldering/Fusing
Indium Metal -- High Purity 6N5 Indium Shot - Image
Indium Metal -- High Purity 6N5 Indium Shot
from Indium Corporation

This purity is especially suited for the production of single crystal III-V compound semiconductors, such as Indium Phosphide used as substrates for fabrication of integrated circuits or discrete devices such as laser diodes and photo detectors, Certification of 6N5 purity is by OES (optical... [See More]

  • Nonferrous: LowMelting; Indium
  • Width / OD: 0.1250
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Ball Shot
  • Applications: Sealing in Cryogenic Applications, Soldering/Fusing
Indium Metal -- High Purity 6N5WCI Indium Shot - Image
Indium Metal -- High Purity 6N5WCI Indium Shot
from Indium Corporation

Our 6N5WCI (with controlled impurities) indium is refined for use in critical bulk crystal growth and in epitazial processes including molecular beam (MBE), liquid phase (LPE), and vapor phase (VPE) epitazy 6N5WCI is tailored for applications requiring the stringent control of impurities which,... [See More]

  • Nonferrous: LowMelting; Indium
  • Width / OD: 0.1250
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Ball Shot
  • Applications: Sealing in Cryogenic Applications, Soldering/Fusing
Indium Metal -- High-Purity 6N Indium Bar (1kg) - Image
Indium Metal -- High-Purity 6N Indium Bar (1kg)
from Indium Corporation

We produce 6N material with impurities held to less than 100 ppb/weight as analyzed by OES. 6N (and often 5N) indium is selected when the user's application offers enough flexibility to allow the balancing of device performance with material cost. [See More]

  • Nonferrous: LowMelting; Indium
  • Thickness: 0.7500
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Bar Stock
  • Width / OD: 1.25
Indium Metal -- High-Purity 6N Indium Bar (500g) - Image
Indium Metal -- High-Purity 6N Indium Bar (500g)
from Indium Corporation

We produce 6N material with impurities held to less than 100 ppb/weight as analyzed by OES. 6N (and often 5N) indium is selected when the user's application offers enough flexibility to allow the balancing of device performance with material cost. Shipped quantities will be adjusted to best fit the... [See More]

  • Nonferrous: LowMelting; Indium
  • Thickness: 0.5000
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Bar Stock
  • Width / OD: 1.25
Indium Metal -- High-Purity 6N5 Indium Bar (1kg) - Image
Indium Metal -- High-Purity 6N5 Indium Bar (1kg)
from Indium Corporation

This purity is especially suited for the production of single crystal III-V compound semiconductors, such as indium Phosphide used as substrates for fabrication of integrated circuits or discrete devices such as laser diodes and photo detectors. Certification of 6N5 purity is by OES (optical... [See More]

  • Nonferrous: LowMelting; Indium
  • Thickness: 0.7500
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Bar Stock
  • Width / OD: 1.25
Indium Metal -- High-Purity 6N5 Indium Bar (500g) - Image
Indium Metal -- High-Purity 6N5 Indium Bar (500g)
from Indium Corporation

This purity is especially suited for the production of single crystal III-V compound semiconductors, such as indium Phosphide used as substrates for fabrication of integrated circuits or discrete devices such as laser diodes and photo detectors. Certification of 6N5 purity is by OES (optical... [See More]

  • Nonferrous: LowMelting; Indium
  • Thickness: 0.5000
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Bar Stock
  • Width / OD: 1.12
Indium Metal -- High-Purity 6N5WCI Indium Bar (1kg) - Image
Indium Metal -- High-Purity 6N5WCI Indium Bar (1kg)
from Indium Corporation

Our 6N5WCI (with controlled impurities) indium is refined for use in critical bulk crystal growth and in epitazial processes including molecular beam (MBE), liquid phase (LPE), and vapor phase (VPE) epitazy 6N5WCI is tailored for applications requiring the stringent control of impurities which,... [See More]

  • Nonferrous: LowMelting; Indium
  • Thickness: 0.7500
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Bar Stock
  • Width / OD: 1.25
Indium Metal -- High-Purity 6N5WCI Indium Bar (500g) - Image
Indium Metal -- High-Purity 6N5WCI Indium Bar (500g)
from Indium Corporation

Our 6N5WCI (with controlled impurities) indium is refined for use in critical bulk crystal growth and in epitazial processes including molecular beam (MBE), liquid phase (LPE), and vapor phase (VPE) epitazy 6N5WCI is tailored for applications requiring the stringent control of impurities which,... [See More]

  • Nonferrous: LowMelting; Indium
  • Thickness: 0.5000
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Bar Stock
  • Width / OD: 1.12
Indium Metal -- Indalloy 4 - Image
View Datasheet
Indium Metal -- Indalloy 4
from Indium Corporation

Indium metal has played a key role in technology advances since it was first investigated by Dr. William S. Murray in 1924 in Utica, NY, and with the creation of the Indium Corporation in 1934, the two have been tied together, leading, and supporting the advancement of technologies that we all rely... [See More]

  • Nonferrous: LowMelting; Indium
  • Applications: Soldering, Bonding, Thin Films
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Ingot or Billet
Indium Metal -- Indium Ingot Bar - 99.9% In (1kg) - Image
Indium Metal -- Indium Ingot Bar - 99.9% In (1kg)
from Indium Corporation

Typical Indium Analysis. 99.9%. PPMWT. Fe : 10-20. Ni : 5-20. Cu : 5-30. Cd : 50-100. Pb : 200-300. Sn : 50-200. Ti : 100-300. Analysis by OES. * Please note that these are typical ppm levels, and do not represent maximum, minimum, or lot specific levels. If you have specific requirements for one or... [See More]

  • Nonferrous: LowMelting; Indium
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Ingot or Billet
  • Specifications: ICI, ASTM, or Other Casting Grade
  • Thickness: 0.7500
Indium Metal -- Indium Ingot Bar - 99.9% In (500g) - Image
Indium Metal -- Indium Ingot Bar - 99.9% In (500g)
from Indium Corporation

Typical Indium Analysis. 99.9%. PPMWT. Fe : 10-20. Ni : 5-20. Cu : 5-30. Cd : 50-100. Pb : 200-300. Sn : 50-200. Ti : 100-300. Analysis by OES. * Please note that these are typical ppm levels, and do not represent maximum, minimum, or lot specific levels. If you have specific requirements for one or... [See More]

  • Nonferrous: LowMelting; Indium
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Ingot or Billet
  • Specifications: ICI, ASTM, or Other Casting Grade
  • Thickness: 0.5140
Indium Metal -- Indium Ingot Bar - 99.99% In (1kg) - Image
Indium Metal -- Indium Ingot Bar - 99.99% In (1kg)
from Indium Corporation

Typical Indium Analysis. 99.99%. PPMWT. Fe : 1-2. Ni : 2-6. Cu : 2-6. Cd : 5-10. Pb : 10-30. Sn : 10-25. Ti : 1-4. Analysis by OES. * Please note that these are typical ppm levels, and do not represent maximum, minimum, or lot specific levels. If you have specific requirements for one or two... [See More]

  • Nonferrous: LowMelting; Indium
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Ingot or Billet
  • Specifications: ICI, ASTM, or Other Casting Grade
  • Thickness: 0.7500
Indium Metal -- Indium Ingot Bar - 99.99% In (500g) - Image
Indium Metal -- Indium Ingot Bar - 99.99% In (500g)
from Indium Corporation

Typical Analysis. 99.99% Indium. PPMWT. Fe : 1-2. Ni : 2-6. Cu : 2-6. Cd : 5-10. Pb : 10-30. Sn : 10-25. Ti : 1-4. Analysis by OES. * Please note that these are typical ppm levels, and do not represent maximum, minimum, or lot specific levels. If you have specific requirements for one or two... [See More]

  • Nonferrous: LowMelting; Indium
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Ingot or Billet
  • Specifications: ICI, ASTM, or Other Casting Grade
  • Thickness: 0.5140
Indium Metal -- Indium Ingot Bar - 99.999% In (1kg) - Image
Indium Metal -- Indium Ingot Bar - 99.999% In (1kg)
from Indium Corporation

Typical Indium Analysis. 99.999%. PPMWT. Fe : 0.5. Ni : 1.0. Cu : 1.0. Cd : 1.0. Pb : 2.0. Sn : 2.5. Ti : 1.0. Analysis by OES. * Please note that these are typical ppm levels, and do not represent maximum, minimum, or lot specific levels. If you have specific requirements for one or two elements,... [See More]

  • Nonferrous: LowMelting; Indium
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Ingot or Billet
  • Specifications: ICI, ASTM, or Other Casting Grade
  • Thickness: 0.7500
Indium Metal -- Indium Ingot Bar - 99.999% In (500g) - Image
Indium Metal -- Indium Ingot Bar - 99.999% In (500g)
from Indium Corporation

Typical Indium Analysis. 99.999%. PPMWT. Fe : 0.5. Ni : 1.0. Cu : 1.0. Cd : 1.0. Pb : 2.0. Sn : 2.5. Ti : 1.0. Analysis by OES. * Please note that these are typical ppm levels, and do not represent maximum, minimum, or lot specific levels. If you have specific requirements for one or two elements,... [See More]

  • Nonferrous: LowMelting; Indium
  • Shape / Form: Semi-finished, Mill Stock or Near Net Shapes; Ingot or Billet
  • Specifications: ICI, ASTM, or Other Casting Grade
  • Thickness: 0.5140