The leading vacuum insulation panel has a degree of vacuum, and it relies on vacuum for thermal insulation. Its strong thermal insulation performance depends on its vacuum degree. In the process of use or construction, once the vacuum structure is damaged, the vacuum insulation board becomes an ordinary insulation material. Therefore, we need to take preventive measures in advance when the vacuum insulation panel is transported, stored, constructed and used. Its use and installation are very different from traditional foam insulation materials. At the beginning of the design, we must take these special factors into account of the structure of the insulation layer to ensure that the installation structure of the vacuum insulation board is simple and avoids contact with sharp structures or utensils. Contact with each other so as not to damage the gas barrier membrane layer of the vacuum insulation panel. The relevant fixing holes are designed to avoid the structural area of the insulation layer as much as possible to avoid damage to the vacuum insulation panel during installation or after-sales maintenance. In the process of transportation and storage, try to handle it with care and take relevant protective measures. It is not recommended to place other heavy objects on the vacuum insulation board and refuse rough operations. During installation and product maintenance, it is necessary to conduct special training for construction personnel, distinguish traditional thermal insulation materials, and remind follow-up related processes to pay attention.
Theoretically speaking, the vacuum insulation panel can be formed into a closed overall space, so that it can exert its maximum performance. Due to the limitation of the size of the vacuum insulation panel and the on-site environment, in most cases, there will be problems in the splicing of the panels and the contact between the vacuum insulation panels and other structures. In this splicing or contact process, a thermal bridge effect will be formed, and the thermal conductivity in the spliced area will definitely be higher than the thermal conductivity of the vacuum insulation panel itself, that is to say, the thermal insulation effect will be reduced in the gap or thermal bridge effect. So in the process of vacuum insulation panel splicing what kind of method needs to be adopted, reducing the heat bridge transfer loss will be an important factor for the overall building insulation efficiency. Due to the ever-changing application fields and environments of vacuum insulation panels, we will not list them all here. If you have similar questions, you can contact us.