As a service of Rizhao Hejia New Materials Co., LTD., we provide ROV float customization, design and manufacture of high-performance buoyancy materials for underwater vehicles. This article will focus on the solid buoyancy material we use, namely hollow glass beads, and its high strength and low water absorption characteristics.
Solid buoyancy materials play a crucial role in the design of ROV floats. Its main function is to provide buoyancy, which enables the robot to carry out stable movement and operation underwater. Compared with traditional liquid buoyancy materials, solid buoyancy materials have higher stability and reliability.
Product density and application depth are two key attributes when designing ROV floats, and our solid buoyancy materials can be customized according to customer requirements. The customizability of the product density allows us to design the buoyancy material according to the size and load of the robot to ensure that its buoyancy is suitable for the robot's needs. Similarly, the customizability of the application depth allows us to provide the right buoyancy solution for underwater missions at different depths.
In addition to customizable product density and application depth, our solid buoyancy materials also offer advantages in exterior coating. We use polyurea or paint for exterior coating to provide additional protection and water resistance. This exterior coating can not only increase the durability and corrosion resistance of the material, but also provide a better appearance. According to the requirements of customers, we can customize according to the appearance needs of the robot.
One of the important parameters in the knowledge of solid buoyancy materials is the density of the material. Hollow glass beads are a lightweight material whose density can be adjusted to meet different buoyancy needs. In addition, the special structure of hollow glass beads makes them have low water absorption in deep water environments. Low water absorption can reduce the weight gain of the material as well as changes in buoyancy, thus maintaining the stability of the robot during long underwater missions.