The new RX-1200 tooling board is ideal for foundry models and hammer form tools due to its high strength and capability of providing a high gloss finish, while proving easy to machine with minimal swarf. With the new formula also being available in a range of bespoke sizes, it is a versatile cost-effective solution for a wide range of applications.
Tooling boards of 1,000kg/m3 or more are classed as high density and are typically used where manufacturing stresses are high or where exact dimensional tolerances, sharp-corner retention and excellent surface finish is required. The new 1,200kg/m3 formula was developed to exhibit a very fine surface structure, which has a major influence on providing the tooling board with a superior surface finish.
Dr Barrie Colvin, chairman and technical director of Ru-bix, said: “Listening to our customers is a priority, and they are the primary reason why we have reformulated the 1,200 kg/m3 board. Before every official product launch, we enlist our customers to give us their thoughts and as we formulate in our own on-site laboratory, tweaks can be made very quickly.”
The new RX-1200 formula maintains the same high dimensional stability. This accounts for the toughness and rigidity of the material showing resistance to wear and tear over prolonged periods of time, which is ideal for extreme environmental conditions.
Dr Colvin continued: “The RX-1200 is commonly used within the foundry industry, so it was essential that the new formula also exhibited the same amount of compressive and flexural strength to withstand deformation under heavy loads.”
Using the ISO 178 and ISO 75 test methods, the tooling and modelling board exhibited compressive strengths of up to 70 MPa, a maximum flexural strength of 80 MPa and can be used in environments where temperatures reach up to 85 °C.
Polyurethane tooling boards of this density are also a popular choice for vacuum forming applications due to their robust nature, meaning that the shaped pattern will offer a high-quality surface finish, whilst requiring minimal surface preparation. Vacuum forming is popular in automotive manufacturing for vehicle interiors; bumpers; and pickup truck bedliners due to the lower costs, consistent production results and faster production times compared to other traditional manufacturing methods, such as machining.