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Home > products > Rare Earth Metals > Gallium Metal Particles Gallium Indium Tin Alloy Granule Grain For Industry Price Per Kg

Gallium Metal Particles Gallium Indium Tin Alloy Granule Grain For Industry Price Per Kg

Product Details

Place of Origin: China

Brand Name: HaiChuan

Certification: ISO9001

Payment & Shipping Terms

Minimum Order Quantity: 10kg

Price: Negotiable

Packaging Details: wooden box

Delivery Time: 10-15days

Payment Terms: L/C, D/A, D/P, T/T, Western Union, MoneyGram

Supply Ability: 10ton per month

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Industry Gallium Metal Particles

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Granule Grain Gallium Metal Particles

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Industry Price Gallium Metal Particles

Model Number:
4N,4N5,5N
Material:
Gallium
Shape:
Particle
Application:
Electronic Industry
Chemical Composition:
Ga
Purity:
High Purity
Size:
Customers' Requirements
Ionization Energy (kJ /mol):
578.8 KJ·mol.
Model Number:
4N,4N5,5N
Material:
Gallium
Shape:
Particle
Application:
Electronic Industry
Chemical Composition:
Ga
Purity:
High Purity
Size:
Customers' Requirements
Ionization Energy (kJ /mol):
578.8 KJ·mol.
Gallium Metal Particles Gallium Indium Tin Alloy Granule Grain For Industry Price Per Kg

Gallium Metal Particles Gallium Indium Tin Alloy Granule Grain Price Per Kg

Gallium Indium Tin Particles are a type of mixed metal particles composed of an alloy of Gallium, Indium and Tin. Such alloy particles are usually in the form of powder or granules.

Alloy composition: Gallium indium tin particles are made of three metal elements: gallium, indium and tin mixed in a certain proportion. Specific ingredient ratios can be adjusted to specific application needs to obtain the desired alloy properties.

Properties and Applications: Gallium Indium Tin alloy particles possess a range of special properties that make them useful in many applications.

Low melting point: Gallium indium tin alloys generally have lower melting points, giving them an advantage in low-temperature applications. This makes it useful in areas such as low-temperature soldering, electronic packaging, and thermal interface materials.

Wettability: Gallium Indium Tin alloy has good wettability to many metallic and non-metallic surfaces, which means it can evenly distribute and adhere to surfaces when in contact. This makes it useful for connecting and protecting in applications such as electronic packaging, soldering, and surface coatings.

Thermoelectric properties: Gallium indium tin alloys show excellent thermoelectric properties within certain composition ranges, that is, they are able to convert thermal energy into electrical energy or vice versa. This makes it potentially useful in thermoelectric conversion devices and energy recovery applications.

Flexibility: Because the composition of Gallium Indium Tin alloy is tunable, its properties can be changed by adjusting the ratio. This makes it potentially useful in areas such as flexible electronics, bendable circuits, and stretchable sensors.

Preparation and processing: Gallium indium tin alloy particles can be prepared by alloying, synthesis and powder metallurgy. When using and handling, care needs to be taken to follow correct safe handling and environmental protection measures to avoid potential danger or contamination.

The specific properties and applications of gallium indium tin alloy particles depend on the composition ratio of the alloy, the preparation method and the required performance requirements. Specific applications and properties may vary based on actual circumstances.

type Ingredients liquidus(°C) solidus(°C) density (g/cm3)  
 
1   Gallium-Indium-Tin-Zinc 7.6 6.5 6.5
2 Eutectic alloy Gallium-Indium-Tin 10.7 10.7 6.5
3 Eutectic alloy Gallium-Indium 15.7 15.7 6.35
4   Gallium-Indium 25 15.7 6.15
5 Metal element Gallium 29.78 29.78 5.904

 

Gallium Metal Particles Gallium Indium Tin Alloy Granule Grain For Industry Price Per Kg 0application:Gallium Metal Particles Gallium Indium Tin Alloy Granule Grain For Industry Price Per Kg 1

Gallium Indium Tin Particles are a type of mixed metal particles composed of an alloy of Gallium, Indium and Tin. This alloy particle has some specific applications and properties.

application:

1.Electronic packaging and soldering: Gallium indium tin particles have a wide range of applications in the field of electronic packaging and soldering. They can be used as soldering materials, solder joint alloys or soldering aids for joining electronic components, circuit boards and packaged devices.

2.Thermal interface material: Gallium indium tin particles can be used as thermal conductive media and thermal interface materials to improve thermal energy transfer and heat dissipation. They can be filled in heat sinks, heat pipes, LED packages and electronic devices to optimize thermal management performance.

3.Flexible electronics and bendable circuits: Because gallium indium tin alloys have low melting points and good wettability, they have potential applications in flexible electronics and bendable circuits. Particles can be used to prepare flexible circuit boards, bending sensors, and stretchable electronic devices.

4.Thermoelectric conversion device: Gallium indium tin alloy has excellent thermoelectric properties within a certain composition range and can be used to prepare thermoelectric conversion devices. These devices can convert thermal energy into electrical energy or vice versa, with potential energy recovery and energy saving applications.

Attributes:

1.Low melting point: Gallium indium tin alloys generally have relatively low melting points, making them easier to handle in low-temperature applications and during soldering.

2.Good wettability: Gallium indium tin alloy has good wetting properties for many metal and non-metal surfaces, allowing good contact and connection.

3.Adjustability: The composition of the gallium indium tin alloy can change its characteristics by adjusting the ratio to adapt it to different application needs.

4.Thermal conductivity: Gallium indium tin alloy has good thermal conductivity, which helps optimize thermal management and heat dissipation.

5.Flexible properties: Due to the presence of alloy particles, gallium indium tin alloys are usually somewhat flexible, making them suitable for flexible electronics and curved circuit applications.