한국어

Siemens will provide Rolls Royce with aerospace additive manufacturing components

1136
2024-12-13 11:42:09
번역 보기

Recently, Siemens Energy's Materials Solutions division (hereinafter referred to as Siemens) officially signed a cooperation agreement with Rolls Royce, a well-known enterprise in the field of aviation engines in the UK, agreeing that Siemens will develop and supply mass-produced additive manufacturing components for Rolls Royce's civil aerospace business.

Rolls Royce and 3D Printing Technology
Rolls Royce has a long history of using additive manufacturing technology.
In 2013, the company had planned to use 3D printing technology to manufacture parts for its jet engines, in order to accelerate production speed and manufacture more lightweight components.

In 2015, the company collaborated with the UK Additive Manufacturing Center to produce the largest civil aviation engine component at the time using 3D printing technology; In the same year, the company used 3D printing technology to manufacture aviation parts, which were already used in the latest Trent XWB-97 engine at the time and made their first test flight on the Airbus A380.

In 2019, the company announced SLM Solutions' SLM ® The 5004 laser equipment is designated for additive manufacturing development by the company.

The history of cooperation between Rolls Royce and Siemens
The new agreement between Siemens and Rolls Royce aims to expand the mass production scale of additive manufacturing, enabling the development of cutting-edge, lightweight, and high-performance components for commercial flight. This collaboration is an important milestone for Siemens' additive manufacturing business, as it further expands the application of the company's additive manufacturing technology in the aerospace industry.

It is worth mentioning that this cooperation is not the first major transaction between Siemens and Rolls Royce. As early as 2014, both parties had already engaged in significant transactions.

In 2014, Siemens Energy acquired Rolls Royce's natural gas turbine and compressor business for £ 785 million. Afterwards, both parties also signed a long-term contract allowing Siemens to continue using Rolls Royce technology to develop more efficient gas turbines. This 25 year technology licensing agreement will give Rolls Royce an additional £ 200 million.

Subsequently, in the transaction between the two parties in June 2019, the acquiring entity was changed to Rolls Royce. In June 2019, Rolls Royce announced an agreement with Siemens to acquire its electric and hybrid electric aviation propulsion business, eAircraft, to accelerate its electrification strategy.

The demand for 3D printing in the aerospace industry is growing rapidly
3D printing technology in the aerospace industry is renowned for its efficiency and ability to produce innovative prototypes, and has been one of the largest demand markets for 3D printing technology due to its alignment with the Green Aviation initiative aimed at reducing the aviation environmental footprint.

According to the research report on the aerospace additive manufacturing market by Research and Markets, the global market size for 3D printing in the aerospace industry is expected to reach approximately $3.26 billion in 2024, with a compound annual growth rate (CAGR) of 18.8% from 2025 to 2033, and a market size of $15.35 billion by 2033.

Write at the end
The cooperation between Siemens and Rolls Royce once again confirms the development prospects of 3D printing technology in the aerospace industry. Whether it is the high-performance requirements for structural components in the lightweight development trend of civil aviation aircraft, or the high-temperature alloy processing difficulties faced in the field of aviation engines, they can all be solved through 3D printing technology. I believe that with the diversification of 3D printing materials and the development of additive manufacturing equipment, additive manufacturing technology will achieve breakthrough applications in a wider range of aviation fields.

Source: Yangtze River Delta Laser Alliance

관련 추천
  • Photon Industry Acquisition Information

    Theon International and Exosens SA have reached an agreement to acquire 9.8% of the shares for 268.7 million euros (approximately 312 million US dollars, equivalent to 54.0 euros per share).Theon International is a Greek based developer and manufacturer of customizable night vision, thermal imaging systems, and electro-optical ISR (observation) systems for military and security applications.Theon ...

    10-21
    번역 보기
  • Switzerland's top 100 sales drop to 330.9 million Swiss francs in the first half of the year

    Recently, Swiss company Bystronic disclosed its financial performance for the first half of 2024.The financial report shows that the market situation for the Swiss Super 100 in the first half of 2024 remains very tense. Customers in various end markets are unable to fully utilize their production capacity, and operations in all regions are relatively cautious.Despite Swiss supercar actively reduci...

    2024-07-24
    번역 보기
  • Researchers have developed a new type of frequency comb that is expected to further improve the accuracy of timing

    The chip based device, known as the frequency comb, measures the frequency of light waves with unparalleled accuracy, completely changing timing, detection of exoplanets, and high-speed optical communication.Now, scientists and collaborators from the National Institute of Standards and Technology in the United States have developed a new method for manufacturing combs, which is expected to improve...

    2024-03-15
    번역 보기
  • The emergence of laser engraving glass technology injects exquisite and vivid artistic quality into glass works

    The emergence of laser inner glass carving technology has brought new forms and possibilities of artistic expression to glass art. It not only showcases advanced technology and innovative craftsmanship, but also endows glass works with unique artistry.Firstly, laser engraved glass can achieve very fine and complex carving effects. By penetrating the interior of glass with a laser beam for carving,...

    2023-09-15
    번역 보기
  • Xi'an Institute of Optics and Fine Mechanics has made significant progress in attosecond imaging research

    Recently, the Xi'an Institute of Optics and Fine Mechanics of the Chinese Academy of Sciences has made significant progress in attosecond imaging research, achieving high-resolution imaging of ultra wide spectrum light sources. The related results were published in the journal Photonics Research under the title "Snapshot coherent diffraction imaging across ultra wideband spectra".Figure 1. Demonst...

    2024-10-26
    번역 보기