The manufacturing process starts by soaking the paper in resins. The brown paper that is going to form the bottom side or base of the laminate is soaked in a bathtub that is filled with phenolic resin. On soaking, the brown paper does not just get wet but rather absorbs the resin and is saturated with it.


  • Laminate sheets look like a layered cube in the diagonal segment. The principal layer of the cake is a strong melamine manufactured that gives the Veneer Sheets their durability and shape. The second layer is made of high-thickness fibreboard (also called particle-board) which like the first layer, contains melamine that makes it dampness resistant. The third layer in Veneer Sheets is embellishing and looks cleaned and ornamental. This, in any case, isn’t the important layer. The last layer, in fact, is the waterproof durable layer that ensures against stains and scratches.
  • When the layers are aligned and stacked over each other, they are put under tremendous weight at high temperatures. The presses have hydraulic rams that apply great weight on the layers of raw material at temperatures reaching up to 400 degrees Fahrenheit.
  • After stacking and squeezing, the laminate sheets are currently set to freeze. After careful investigation, the laminate sheets are again stacked to fix which causes them to stabilize. The planks are then profiled which includes cutting the edges for appropriate fitting during installation.
  • It is simply because of the economical preparing that decorative laminates sheets are presently the most popular finishing item which is utilized across the world, in various homes, ethnicities and climatic conditions. Laminates in their most crude and current present structure and have stood the trial of time for over a century
  • Right construction PROCESS and good QUALITY of raw material are the two key aspects ruling the ultimate satisfaction of consumers buying high-pressure laminates. The process of building high-pressure laminates is critical that may affect its essence. The levels of heat and pressure have to be defined so that higher standards of surface and structural conditions are achieved.