Pure Magnesium Ingot Conducts Heat
Thermal conductivity refers to the ability of a substance to transfer heat and is usually expressed in terms of thermal conductivity coefficient. The heat transfer coefficient is the ratio of heat transfer per unit area to the temperature gradient in a unit time.In the pure magnesium ingot, heat transfer mainly through heat conduction manner.
Description
Description
Heat conduction is the process by which heat is naturally transferred from a high temperature region to a low temperature region. In this process, the rate at which heat is transferred depends on factors such as the temperature gradient, the heat conductivity coefficient of the material and the thickness of the material.
A temperature gradient is the difference in temperature between different locations within an object. In pure magnesium ingot, the temperature gradient has a great effect on the thermal conductivity. When the temperature gradient is larger, the heat transfer rate is faster, and the thermal conductivity is better.
Purity refers to the amount of impurities in a material. In pure magnesium ingot, the impurity content will affect the thermal conductivity. Generally speaking, the higher the purity, the better the thermal conductivity.
Crystallinity refers to the size and arrangement of crystals in a material. In pure magnesium ingot, the size and arrangement of the crystals also affect the thermal conductivity. In general, the smaller and more closely packed the crystals, the better their thermal conductivity.
Temperature refers to the temperature environment the material is in. In pure magnesium ingot, the temperature also affects the thermal conductivity. In general, the higher the temperature, the better the thermal conductivity.
Thickness refers to the thickness of the material. Thickness also affects thermal conductivity in pure magnesium ingot. Generally speaking, the smaller the thickness, the better the thermal conductivity.
Specification
Magnesium Ingots information
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|
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Mg≥ |
Fe≤ |
Si≤ |
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Mg9999 |
99.99 |
0.002 |
0.002 |
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Mg9998 |
99.98 |
0.002 |
0.003 |
|
Mg9995 A |
99.95 |
0.003 |
0.006 |
Pure magnesium ingot has excellent thermal performance, thus is widely used in industrial production. The following are the main applications of pure magnesium ingot:
Pure magnesium ingot is widely used in aerospace because of its high strength and light weight.For example, pure magnesium ingots can be used to make aircraft structural parts, engine parts and so on.
Pure magnesium ingot has good electrical and thermal conductivity, so it is widely used in the field of electronics.For example, the pure magnesium ingot can be used in the manufacture of electronic components, radiator, etc.
Pure magnesium ingot is widely used in automobile manufacturing because of its high strength and light weight.For example, pure magnesium ingots can be used to make car bodies, engine parts and so on.
Pure magnesium ingot has good biocompatibility and biodegradability, so it is widely used in the field of medical devices.For example, pure magnesium ingots can be used to make bone repair devices, scaffolds, etc.
FAQ
Q: Can I have my own LOGO on the product?
Yes, you can send us your design and we can make your LOGO.
Q: Can you arrange the shipment?
Sure, we have permanent freight forwarder who can gain the best price from most ship company and offer professional service.
Q:Can we visit your factory ?
A:Warmly welcome once we have your schedule we will pick you up .
Q: Do you have quality control?
A: Yes, we have gained BV, SGS authentication.
Q: How are the products’ quality?
A: The products will be strictly inspected before shipment, so the quality could be guaranteed.
Q: How about your company's certification?
A: ISO9001 and Test Report.
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