This website requires certain cookies to work and uses other cookies to help you have the best experience. By visiting this website, certain cookies have already been set, which you may delete and block. By closing this message or continuing to use our site, you agree to the use of cookies. Visit our updated privacy and cookie policy to learn more.
This Website Uses Cookies By closing this message or continuing to use our site, you agree to our cookie policy. Learn MoreThis website requires certain cookies to work and uses other cookies to help you have the best experience. By visiting this website, certain cookies have already been set, which you may delete and block. By closing this message or continuing to use our site, you agree to the use of cookies. Visit our updated privacy and cookie policy to learn more.
Let’s finish the discussion we started last time. As shown in Table 1, it is important that you look at the surfaces that you want to braze together and decide if they meet the design criteria needed for brazing.
Problem: We are getting into 3D printing of components. Because of the size of the finished component, our 3D-printing equipment only allows us to 3D print smaller subsections of the finished product and then join them together to make the final assembly.
SECO/VACUUM received an order from a global aerospace manufacturer for a gas-quench vacuum furnace. It is the company’s second order for its U.S. plant in less than one year. The furnace, which meets Class 2 requirements per AMS 2750F, will be installed in the company’s Center of Excellence and will be used to heat treat 3D-printed parts. The Vector 2-bar quenching unit is equipped with a high-vacuum diffusion pump and convection heating for improved performance at low temperatures.
