Indium Corporation Alloys Liquid Indalloy®

Description
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 upon solidifi cation. This expansion, which can continue for hours or even days after solidifi cation, has proven to be a useful property in many processes. Fusible alloys are classifi ed as either eutectic or non-eutectic. In eutectic alloys, the melting point coincides with the freezing point. Non-eutectic alloys exhibit a range between the melting and freezing points in which the materials are “mushy” or “pasty”. The composition and physical properties of common fusible alloys are listed in the tables below. Although most of the alloys do not have high strength or hardness, they have many industrial uses.

Suppliers

Company
Product
Description
Supplier Links
Alloys Liquid - Indalloy® - Indium Corporation
Clinton, NY, USA
Alloys Liquid
Indalloy®
Alloys Liquid Indalloy®
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 upon solidifi cation. This expansion, which can continue for hours or even days after solidifi cation, has proven to be a useful property in many processes. Fusible alloys are classifi ed as either eutectic or non-eutectic. In eutectic alloys, the melting point coincides with the freezing point. Non-eutectic alloys exhibit a range between the melting and freezing points in which the materials are “mushy” or “pasty”. The composition and physical properties of common fusible alloys are listed in the tables below. Although most of the alloys do not have high strength or hardness, they have many industrial uses.

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 upon solidifi cation. This expansion, which can continue for hours or even days after solidifi cation, has proven to be a useful property in many processes. Fusible alloys are classifi ed as either eutectic or non-eutectic. In eutectic alloys, the melting point coincides with the freezing point. Non-eutectic alloys exhibit a range between the melting and freezing points in which the materials are “mushy” or “pasty”. The composition and physical properties of common fusible alloys are listed in the tables below. Although most of the alloys do not have high strength or hardness, they have many industrial uses.

Supplier's Site
Lens Blocking Alloys - Indalloy® - Indium Corporation
Clinton, NY, USA
Lens Blocking Alloys
Indalloy®
Lens Blocking Alloys Indalloy®
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 upon solidifi cation. This expansion, which can continue for hours or even days after solidifi cation, has proven to be a useful property in many processes. Fusible alloys are classifi ed as either eutectic or non-eutectic. In eutectic alloys, the melting point coincides with the freezing point. Non-eutectic alloys exhibit a range between the melting and freezing points in which the materials are “mushy” or “pasty”. The composition and physical properties of common fusible alloys are listed in the tables below. Although most of the alloys do not have high strength or hardness, they have many industrial uses.

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 upon solidifi cation. This expansion, which can continue for hours or even days after solidifi cation, has proven to be a useful property in many processes. Fusible alloys are classifi ed as either eutectic or non-eutectic. In eutectic alloys, the melting point coincides with the freezing point. Non-eutectic alloys exhibit a range between the melting and freezing points in which the materials are “mushy” or “pasty”. The composition and physical properties of common fusible alloys are listed in the tables below. Although most of the alloys do not have high strength or hardness, they have many industrial uses.

Supplier's Site

Technical Specifications

  Indium Corporation Indium Corporation
Product Category Metal Shapes and Stock Metal Shapes and Stock
Product Number Indalloy® Indalloy®
Product Name Alloys Liquid Lens Blocking Alloys
Type Alloy; Miscellaneous Nonferrous Metal or Alloy; Liquid LowMelting; Bismuth
Unlock Full Specs
to access all available technical data

Similar Products

Resistance Alloy - Alloy 90 - Isabellenhutte USA
Specs
Type Copper; Alloy; Miscellaneous Nonferrous Metal or Alloy
Features Corrosion Resistant
Processing, Temper & Finish Annealed; Enameled
View Details
Haynes 25® / L605 - Strip - High Performance Alloys, Inc.
High Performance Alloys, Inc.
Specs
Type Cobalt; Alloy; Miscellaneous Nonferrous Metal or Alloy
Shape / Form Profile or Structural Shape; Semi-finished, Mill Stock or Near Net Shapes; Strip
Features Austenitic; Corrosion Resistant; Heat Resistant; Superalloy; Wear Resistant
View Details
SU006-1/2 Carbon-coated Copper Foil - Product-SU006 - Dongguan Sheen Electronic Technology Co., Ltd.
Dongguan Sheen Electronic Technology Co., Ltd.
Specs
Type Copper
Shape / Form Foil
View Details
Cobalt-based GH5188 Powder - MET-0026 - Matexcel
Specs
Type Cobalt
Shape / Form Powder, Granule or Flake
Applications Biomaterial
View Details