Two trends of stone products in the future

Due to the limitations of processing equipment and processing technology, as well as the need to be a load-bearing structural component, the traditional stone products are often thick and rough, but these stone products are difficult to develop and improve. With the improvement of processing equipment and processing technology and the enhancement of ecological concept, stone can be processed into a very thin thickness. It took nearly ten years for ordinary stone to develop from 25mm thick to 12mm thin to 5mm ultra-thin. As stone is a non renewable resource, the thickness of stone may become thinner and thinner in the future.

In addition, the computer also plays an important role in the thin processing of stone, which can make the stone become more refined and improve the decorative performance of stone. For example, with the continuous development of stone processing technology, some new stone processing methods and processes have been developed and extended. The stone sheet can be compounded with different base materials through adhesive plaster, so that the application field and application cost of stone can be better improved. Like the composite of stone and aluminum honeycomb plate, the composite of about 3-5 mm stone sheet and aluminum honeycomb base plate glue drill not only saves stone but also reduces the weight of finished products, which can better reflect the stone effect in some garden buildings with high requirements for bearing.

Thin and ultra-thin natural stone materials reduce the cost because of their "thinness". With their excellent characteristics of thin, light and transparent, they are generally considered as one of the most ideal green building materials in the 21st century. It can not only reduce the cost of stone decoration, but also save and effectively use the limited precious stone resources. In addition to direct pasting, it can also be made into honeycomb panels, composite panels, etc., and it has been proved by the use of ultra-thin panels in foreign buildings that ultra-thin natural stone can better withstand earthquakes, thermal expansion, cold contraction and other harsh environments.

Due to the limitations of processing equipment and processing technology, as well as the need to be a load-bearing structural component, the traditional stone products are often thick and rough, but these stone products are difficult to develop and improve. With the improvement of processing equipment and processing technology and the enhancement of ecological concept, stone can be processed into a very thin thickness. It took nearly ten years for ordinary stone to develop from 25mm thick to 12mm thin to 5mm ultra-thin. As stone is a non renewable resource, the thickness of stone may become thinner and thinner in the future.

In addition, the computer also plays an important role in the thin processing of stone, which can make the stone become more refined and improve the decorative performance of stone. For example, with the continuous development of stone processing technology, some new stone processing methods and processes have been developed and extended. The stone sheet can be compounded with different base materials through adhesive plaster, so that the application field and application cost of stone can be better improved. Like the composite of stone and aluminum honeycomb plate, the composite of about 3-5 mm stone sheet and aluminum honeycomb base plate glue drill not only saves stone but also reduces the weight of finished products, which can better reflect the stone effect in some garden buildings with high requirements for bearing.

Thin and ultra-thin natural stone materials reduce the cost because of their "thinness". With their excellent characteristics of thin, light and transparent, they are generally considered as one of the most ideal green building materials in the 21st century. It can not only reduce the cost of stone decoration, but also save and effectively use the limited precious stone resources. In addition to direct pasting, it can also be made into honeycomb panels, composite panels, etc., and it has been proved by the use of ultra-thin panels in foreign buildings that ultra-thin natural stone can better withstand earthquakes, thermal expansion, cold contraction and other harsh environments.