Telescopic masts emerge as a groundbreaking solution in the field of naval propulsion, particularly for sizable vessels like chemical tankers and construction ships. This article aims to delve into the design and application of these telescopic masts, focusing on a specific case intended for Germany.
Naval Engineering for Ship Propulsion System:
Our project centers around the development of an imposing telescopic mast, an integral component of an advanced propulsion system for ships, including those dedicated to container transport. This system harnesses wind energy through a kite, ensuring a substantial reduction in fuel consumption and a heightened environmental conscientiousness.
To address the design challenges, it was imperative to construct a structure that is adequately rigid for secure operations yet lightweight to maximize energy efficiency. In this context, welding square tubes played a crucial role. We engineered octagonal hollow sections made from special marine carbon steel D36, precisely folded using press channels, incorporating welding square tubes to enhance structural integrity.
3D Laser Welding Technology and Hybrid Solution:
The joining of these hollow sections, ranging from 800×800 mm to 180×180 mm square tube, was performed through sophisticated hybrid laser welded technology, with 3D laser fusion in the center. This technology not only ensures reliable welds, but also minimizes component distortion, ensuring the quality and ultimate success of the hollow sections.
Given the critical importance of extremely tight tolerances for proper mechanical functioning, all welds, including those involving square tubes, underwent radiographic and endoscopic testing by a third-party institute. This guarantees that each component adheres to the highest quality standards.
Telescopic Masts in Stainless Steel:
These meticulously crafted telescopic masts, featuring flat in 316Ti stainless steel plates resistant to corrosion, serve as efficient launch towers for sails on container ships. The incorporation of advanced welding techniques, including square tubes, enhances their structural integrity, ensuring durability during launching and retrieval.
This innovative technology not only prioritizes reliability but also demonstrates an eco-conscious approach. By fully harnessing ocean winds, these telescopic masts contribute significantly to reducing fuel consumption, aligning with sustainable practices in the maritime industry.
The utilization of specialized square tubes in the welding process adds precision and strength to the structure, ensuring optimal performance. In summary, these telescopic masts represent a pinnacle of maritime engineering, offering a reliable and eco-friendly solution for sail deployment and showcasing advancements in naval applications.
How to Achieve Sustainable Naval Propulsion?
Telescopic masts, with the integration of welding square tubes, represent a significant leap forward in the design of sustainable naval propulsion systems. The project described, tailored for Germany, serves as an excellent example of how advanced engineering and the use of high-quality materials, along with specific welding techniques, can contribute to enhancing energy efficiency and sustainability for large vessels. For further information on these innovative solutions, feel free to reach out to us.