Acrylamide is a chemical used primarily as a building block in making polyacrylamide and acrylamide copolymers. Polyacrylamide and acrylamide copolymers are used in many industrial processes, such as the production of paper, dyes, and plastics, and in the treatment of drinking water and wastewater, including sewage. They are also found in consumer products, such as caulking, food packaging, and some adhesives. Trace amounts of acrylamide generally remain in these products.

Researchers in Europe and the United States have found acrylamide in certain foods that were heated to a temperature above 120 degrees Celsius (248 degrees Fahrenheit), but not in foods prepared below this temperature . Potato chips and French fries were found to contain higher levels of acrylamide compared with other foods . The World Health Organization and the Food and Agriculture Organization of the United Nations stated that the levels of acrylamide in foods pose a “major concern” and that more research is needed to determine the risk of dietary acrylamide exposure .

Sand which is used for casting is called the moulding sand. Appropriate quantity of water is used to mix the sand to avoid the sand from being waterlogged. In mixing the sand with water, the water is sprinkled on the dry moulding instead of pouring. When the water is poured, it can result to excess.

Most

 operations use silica sand (SiO₂). A great advantage of sand in manufacturing applications is that sand is inexpensive. Another advantage of sand to manufacture products by metal casting processes, is that sand is very resistant to elevated temperatures. In fact, sand casting is one of the few processes that can be used for metals with high melting temperatures such as steels, nickel, and titanium. Usually sand used to manufacture a mold for the casting process is held together by a mixture of water and clay. A typical mixture by volume could be 89% sand, 4% water, 7% clay. Control of all aspects of the properties of sand is crucial when manufacturing parts by sand casting, therefore a sand laboratory is usually attached to the foundry.

Geotextile has the ability to prevent the transport of soil particles in the water stream. Geotextile, non woven especially getoextile types have properties permeable / permeable. Therefore, water can still seep into the ground through layers of geotextile but soil particles are retained. The use of non-woven geotextile as filter / filter is usually on the project subdrain / underground drainage. 

Sell Non Woven Geotextile 

Geotextile second function is as a separator / delimiter. Geotextile has the ability to prevent the mixing of materials in each layer of material on the other layer. As an example of application for the geotextile separator / separator is on the road construction project that is above the ground with a soft subgrade, such as mud. In this project, the mud can not rise to the pavement because the system is prevented by a layer of geotextile. Thus, the pumping effect that would damage the pavement can be avoided also made ​​use of geotextile for pavement compaction process system. 

The Chinese based construction work continued to increase, a large number of geotextile, filter materials, waterproofing materials, packaging materials requirements of these projects, the obvious effect of stimulating consumption. In addition, the domestic consumer income increases will also have a strong pull all kinds of sanitary absorbent products and air filtration materials, medical and health supplies and labor protection sports goods consumption. Therefore, China's textile future still has very great growth potential.

But there have been some problems in the development process of non woven geotextile, such as mechanization rate low, slow Industrialization problems, its reason is in many aspects, in addition to the management system, the factors of marketing, technical force is weak, the lack of basic research is one of the main obstacles.