Weighing 220 kilograms, measuring one meter in length, and supporting a load capacity of 35 tons, Huisman Czech Republic has produced its latest 3D-printed hook. Designed for the auxiliary crane of a vessel used for installing offshore wind turbines, this hook reflects Huisman Czech Republic’s pioneering work in the field. In 2019, the Sviadnov-based company became the first in the world to successfully deliver certified 3D-printed hooks for offshore cranes.
The hooks are manufactured using the WAAM (Wire Arc Additive Manufacturing) method, a breakthrough in additive manufacturing that enables significant material savings. This technique uses wire arc welding to layer intricate shapes gradually. “WAAM technology allows us to precisely define material properties while ensuring internal quality and maintaining competitive production costs compared to traditional hook manufacturing methods, such as forging and casting,” explains Karel Pavlíček, Managing Director of Huisman Czech Republic.
The complete production of a single hook, from the 3D model design by Huisman Czech Republic’s in-house design team to printing, finishing operations, non-destructive testing, machining, load testing, and painting, takes about one month. “The 3D printing process is fully automated and robot-controlled, with all parameters monitored during printing to ensure top quality. The deposition rate ranges from 3 to 5 kilograms of material per hour,” adds Antonín Jedinák, Welding Engineer at Huisman Czech Republic.
Huisman Czech Republic has so far produced twelve 3D-printed hooks, primarily used in the marine industry. Among the largest are four double hooks, each with a 250-ton load capacity. “In the future, we see additional applications for this technology, particularly in custom or small-batch production of parts with unique dimensions and shapes, which could eventually weigh up to 2,500 kilograms,” concludes Karel Pavlíček.
