[China Aluminum Industry Net] The thermal insulation function of the progressive building envelope structure, especially the thermal insulation function of progressive windows and doors, can effectively reduce the heat loss of the building and contribute to the energy conservation of the construction. Therefore, the implementation of energy-saving doors and windows is greatly conducive to the development of the construction industry in the future, and it is conducive to the useful use of power, reducing power consumption, and it is worth promoting.
The aluminum alloy aluminum alloy doors and windows of the thermal break bridge are reinforced with nylon heat insulation strips to divide the aluminum alloy profiles into two parts, namely the top and the bottom, to block the heat conduction of aluminum. The advantage of this kind of door and window is that it can continue to be used, and it also has good rigidity, high strength and hardness, good fire resistance, high thermal insulation function, large lighting area, strong corrosion resistance, long service life, good decoration effect, etc. Features. In cold weather in winter, broken aluminum windows and frames with thermal insulation strips can reduce the amount of heat that is lost through 1/3 of the door and window frames; however, in the summer, the window frames with thermal insulation strips can be To a large extent obstruct hot outdoor air flow from the outside, if there is air conditioning, it will relatively reduce the loss of air conditioning energy, while also reducing the environmental radiation caused by air conditioning and heating to complete the true energy saving and environmental protection.
Because of this, the aluminum alloy doors and windows of the thermal break bridge are deeply loved by users, and are widely used in many energy-saving doors and windows.
Ferrites are usually non-conductive ferrimagnetic ceramic compounds derived from iron oxides such as hematite (Fe2O3) or magnFerrites are usually non-conductive ferrimagnetic ceramic compounds derived from iron oxides such as hematite (Fe2O3) or magnetite (Fe3O4) as well as oxides of other metals.
1). Dry process:By dry process, can produce isotropic & anisotropic magnets. The tool can be changed and developed easily.
2). Wet process:By wet process, only anisotropic magnets can be produced. It is complicated to change the tool and the tooling charge is much higher.
1). Isotropic ferrite magnets are not oriented and can be magnetized in any direction.
2). Anisotropic ferrite magnets are different, they are all oriented in the manufacturing direction, and should be magnetized in the direction of orientation.
Ferrite Magnet,Sintered Ferrite Magnet,Ferrite Round Magnet,Hard Ferrite Magnet
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