 The project is about 3D printing concrete structures. In particular, this project is related to printing anchors, suction anchors for floating turbines for offshore applications. Our research focuses on 3D printing of cementitious materials. We have been working on 3D printing at different size scales. So we started from small scale, medium scale, and now we are starting to work large scale. And the idea is to start producing large scale elements for applications such as marine environment structures. What we were doing today is developing our system at large scale, being able to calibrate the different parameters and what better way to do it than with an element that represents Purdue University, the Motion P. So we use this as the first attempt to be able to have a reliable system that we can continue using in the future. This project is about printing scale down version of the components of the wind turbines that will be deployed in marine environment for offshore wind harvesting processes. My responsibility is developing all the mix and testing the durability of the printed components. My role is the printing process itself, making sure the print quality is good and what not. With success we really hope this can revolutionize offshore wind power because 3D printing has the potential of lowering the costs quite significantly. This is a project in collaboration with Arkham Technology and funded by the National Science Foundation to 3D print concrete structures. As part of the collaboration Arkham is providing the robotic arm and we are providing the 3D printing, the know-how and the testing. The future step for this project in collaboration with Arkham is to continue working on true winds, especially focusing on applications for offshore applications. For us in Purdue we want to focus on other structures, still 3D printing concrete and probably combining with other materials.