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There are many precautions in home feng shui, especially the toilet and horizontal feng shui are the top priority of furniture feng shui. Whether you believe it or not, spend less energy to understand the feng shui of the bathroom, it can only help you to crack Doom guards the family.
According to the theory of Feng Shui, the bathroom belongs to the sewage disposal center. It can not be placed in the center of the house, the financial position, the position of the life, the dry position, etc., and it is not allowed to be on the door, on the entrance, on the stove, on the bed, etc.
It is usually arranged in the bathroom, such as "decontamination", "decontamination and decontamination", "Baifu pressure disaster" and other feng shui. Generally, the toilet room is wide, the toilet room is transparent, the toilet door is wide, and the toilet seat is high. The toilet room is wide, filthy and bullying, and the disease is rampant. The toilet room is transparent, and China is not helpful, and it is filthy. The height of the toilet door is high, the ancient taboo, short and narrow is appropriate. The toilet seat is high and convex, and the pollution is high. Although the latrine is small, it should not be underestimated. It should be carefully taken care of.
In the Fengshui of Yangzhai, where the toilet is arranged is indeed a big problem. The toilet is a place to hide dirt. In principle, the toilet should be built on Jixing on the evil star.
The predecessors are very particular about the location of the toilet. In the eight-house Feng Shui school, according to the combination of congenital gossip, the order of the eight orientations is: the angry position, the greedy wolf star; the extended position, the Wu Quxing; , for the giant gate star; the volt position, for the left auxiliary star; the scourge for the Lu Cunxing; the six scorpion, for the Wenquxing; the five ghost position, for the Lian Xingxing; the desperate position, the broken military star. Angry position, extended position, heavenly medical position, volt position, for Jixing not suitable for toilets, scourge, six squats, five ghosts, for the dead, four evil stars can be toilet. The position of the toilet in the home feng shui is good and bad:
1. The toilet should be placed in the house or the murderer of the life.
2. The toilet should not be placed in the Wenqu star position, otherwise the name will not be obvious, and the reading is not good.
3. The toilet should not be placed in the middle of the house, otherwise it will break the bank and become sick.
4. The toilet door avoids the door, the door and the stove.
5. The toilet door should be taken to the bed, otherwise the disease will be inevitable.
6. The toilet should not be pressed against the god of death. If it is a cow ugly, the toilet should be pressured in the northeast and ugly.
7. The toilet should not be placed in the northwestern trunk, northeast, north, and Sizhengziwuzheng.
Product List
|
aluminium trihydrate (ATH) |
21645-51-2 |
|
magnesium hydroxide (MDH) |
1309-42-8 |
|
antimony trioxide (ATO) |
1309-64-4 |
|
Zinc borate |
1332-07-6 |
|
Melamine polyphosphate (MPP) |
218768-84-4 |
|
Melamine phosphate (MP) |
20208-95-1 |
|
Melamine Cyanurate(MCA) |
37640-57-6 |
|
68333-79-9 |
Introduction
The most common inorganic flame retardants are the hydroxides or aluminium and magnesium. Aluminium trihydroxide (ATH) is by far the most widely used Flame Retardant on a tonnage basis. It is inexpensive, but usually requires higher loadings in polymers of up to more than 60%, because the flame retardant mechanism is based on the release of water which cools and dilutes the flame zone. Magnesium hydroxide (MDH) is used in polymers which have higher processing temperatures, because it is stable up to temperatures of around 300 C versus ATH which decomposes around 200 C.
Fine precipitated ATH and MDH (grain size < 2um) are used in melt compounding and extrusion of thermoplastics like cable PVC or polyolefins for cables. For use in cable, ATH and more often MDH are coated with organic materials to improve their compatibility with the polymer. Coarser ground and air separated grades can be used in liquid resin compounding of thermosets for electrical applications, seats, panels and vehicle parts.
A number of other inorganic substances show flame retarding effects and are used in commercial applications. Most of them are used as synergists i.e. they enhance the performance of other flame retardants or they are used for specific effects like the suppression of smoke formation. For example, borates are used as mixtures of boric acids and borax as flame retardants for cellulose (cotton) and of zinc borate for PVC and other plastics like polyolefins, elastomers, polyamides, or epoxy resins. In halogen-containing systems, zinc borate is used in conjunction with antimony oxide, while in halogen-free systems it is normally used in conjunction with aluminium trihydroxide, magnesium hydroxide, or red phosphorus. In some particular applications zinc borate can be used alone. Boron containing compounds act by stepwise release of water and formation of a glassy coating which protects the surface.
Zinc compounds were initially developed as smoke suppressants for PVC (Zinc hydroxystannate). Later it was found that they also act as flame retardants in certain plastics mainly by promoting char formation.
Intumescent Flame Retardant systems expand to produce foams. They are used as coatings not only to protect combustible materials such as wood and plastics, but also steel structures in buildings, because steel loses its strength when exposed to high temperatures in a fire. The intumescent effect is achieved by combining an acid source like ammonium polyphosphate, a source of carbon, compounds which release noncombustible gases for blowing the foam on thermal decomposition and resin binders to stabilise the foam.
Expandable graphite is manufactured from flake graphite by treatment with strong acids like sulphuric or nitric acid. The acid is trapped in the crystal layers of the graphite ("intercalated"). When it is heated, the graphite starts to expand up to several hundred cm3 per gram, forming a protective layer for the polymer. Expandable graphite is used in plastics, rubbers (elastomers), coatings, textiles and especially in polymeric foams. To achieve an optimum flame retarding effect, the use of synergists like ammonium polyphosphate or zinc borate is often necessary. The black colour of graphite limits its applicability in some cases.
Nanocomposites have been gaining increasing attention since the late 1990s as potential new flame retardants. Nanocomposites
are polymer layered silicates based on aluminosilicate clay minerals like montmorillonite, composed of layers with gaps (gallery spaces) in between. These silicates have the ability to incorporate polymers. Research with nanocomposites has focused on plastics like polymethylmethacrylate (PMMA), polypropylene, polystyrene, and polyamides. Nanocomposites particularly prevent dripping and promote char formation. Therefore, they have been used as synergists in some polymer / flame retardant combinations. However, they require special processing and for the time being are not considered to become viable stand-alone flame retardants.
Other inorganic fillers like talcum or chalk (calcium carbonate) are sometimes denoted as flame retardants, but they do not specifically interact with the ignition process. On the contrary, simply by diluting the combustible polymer they reduce its flammability and fire load.
Inorganic Flame Retardant Additives, Inorganic Flame Retardant Polymers, Inorganic Flame Retardant Chemicals,Ammonium Polyphosphate
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