Türkçe

Shanghai Optics and Machinery Institute has made new progress in laser welding of new high-temperature nickel based alloys

850
2023-09-01 14:42:55
Çeviriyi gör

Recently, the research team of Yang Shanglu from the Laser Intelligent Manufacturing Technology R&D Center of the Chinese Academy of Sciences Shanghai Institute of Optics and Precision Machinery has made new progress in laser welding of new structural materials for high-temperature molten salts. The research team used a high-power laser for the first time to achieve defect free welding of nickel based high-temperature alloys, and conducted a systematic evaluation of the microstructure and mechanical properties of the welded joints.

The relevant research results were published in the Materials Characterization under the title "Laser welding of GH3539 alloy for molten salt reactor: processing optimization, microstructure and mechanical properties".

GH3539 alloy is a new type of high-temperature nickel based alloy independently developed in China, with excellent high-temperature mechanical and corrosion resistance, suitable for ultra-high temperature (≥ 850 ℃) molten salt environments. However, higher alloying results in higher welding crack sensitivity of the alloy.

In order to achieve efficient and high-quality laser welding of alloy structural components, the team used fiber laser welding technology to study the effects of different welding process parameters on the welding formation of GH3539 alloy with a thickness of 3mm. Through process optimization, the generation of welding cracks, pores, and other defects was suppressed. For the first time, defect free welding formation of GH3539 alloy was achieved. Based on this, the microstructure and mechanical properties at room temperature/high temperature of the welded joint were systematically evaluated; And analyzed the tensile fracture behavior of laser welded joints, elucidated the fracture mode of alloy laser welded joints. This work has laid the foundation for promoting the development of laser welding technology and the application of GH3539 nickel based high-temperature alloy.

Figure 1: (a) Welding cross-section of GH3539 laser welded joint; (b) Microstructure of GH3539 alloy; (c) XRD results of GH3539 alloy laser welded joints; (d) Hardness distribution of GH3539 alloy laser welded joints; (e) Engineering stress-strain curves of base metal and welded joints at different temperatures; (f) Average elongation of base metal and welded joints at different temperatures

Source: Shanghai Institute of Optics and Mechanics

İlgili öneriler
  • Research Progress in High Efficiency Supercontinuum Spectra in Specific Wavebands Made by Shanghai Optics and Machinery High Power Laser Unit Technology Laboratory

    Recently, the High Power Laser Unit Technology Laboratory of Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, has made progress in research on high efficiency supercontinuum in specific bands. The relevant research results were published in the Journal of Lightwave Technology under the title of "Strong Anti Stokes and flat supercontinuum in specified band based on non ...

    2023-10-17
    Çeviriyi gör
  • Dutch satellite instruments have achieved milestone achievements in transmitting laser data to Earth

    TNO wrote that this is the first time Dutch technology has been used to send data from a satellite to a ground station press release on Earth. This technology uses invisible laser signals to achieve faster and safer data flow compared to ubiquitous communication radio frequencies.Kees Buijsrogge, Director of TNO Space, said, "This critical milestone marks a significant achievement for the Netherla...

    2024-01-25
    Çeviriyi gör
  • A new method for generating controllable optical pulse pairs using a single fiber laser

    Researchers from Bayreuth University and Konstanz University are developing new methods to control ultra short laser emission using soliton physics and two pulse combs in a single laser. This method has the potential to greatly accelerate and simplify laser applications.Traditionally, the pulse interval of lasers is set by dividing each pulse into two pulses and delaying them at different, mechani...

    2024-01-15
    Çeviriyi gör
  • Siemens will provide Rolls Royce with aerospace additive manufacturing components

    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 TechnologyRoll...

    2024-12-13
    Çeviriyi gör
  • Using Topological Photon Chips to Uncover the Secrets of Open Systems

    Conservation of energy is a fundamental concept in physics that can be used to explain anything from planetary orbits to the internal workings of individual atoms.Energy can be converted into other forms, but the overall energy level is usually considered to vary over time. Therefore, when attempting to describe a system, physicists usually pay attention to ensuring that it is isolated from the su...

    2024-02-02
    Çeviriyi gör