Español

Shanghai Optical Machinery Institute has made progress in laser assisted connection of metal carbon fiber composite heterojunction materials

919
2023-09-01 14:28:48
Ver traducción

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 Fine Mechanics has made new progress in the laser assisted connection of metal carbon fiber composite heterostructure joints.

The team used an adjustable flat top rectangular semiconductor laser as a heat source to achieve the connection between high-strength steel and thermoplastic resin based carbon fiber composite materials. The relationship between the interface thermal history, interface forming mechanism, and joint performance of different materials was elucidated, and a new laser heat input process strategy was proposed.

The relevant research results are published in Composite Structures under the title of "Effect of international thermal history on bonding mechanism of laser assisted joint of QP980-FRTP with adjustable flat top rectangular laser beam".

Developing high-performance multi material hybrid structures is a development trend in the aerospace field. Carbon fiber reinforced thermoplastic composites have ultra-high specific strength and toughness, and can be mixed with metals to meet the requirements of structural lightweight and cost control. There are significant differences in physical and chemical properties between metals and composite materials, and existing methods for connecting dissimilar materials have shortcomings. It is urgent to develop high-quality and efficient new connection processes.

Figure 1. Laser assisted connection process, ultra fast laser surface treatment structure, and interface thermal history monitoring
The team studied the interface thermal history during laser assisted bonding, analyzed the temperature state of the resin matrix and its wetting behavior on the metal surface, and compared the effects of different interface thermal histories on interface bonding defects, chemical composition, joint strength, and failure behavior. By using the interface thermal history design method and laser thermal input process control, the ultimate interface temperature and sufficient insulation time have been achieved, which helps the complete melting and diffusion of the resin matrix on the metal surface, fills the micropores at the interface, promotes chemical bonding, and produces high-quality joints with peak loads above 10kN and shear strengths above 22MPa. The relevant research results have broad application prospects in aerospace and other related fields.

Figure 2. Relationship between interfacial thermal history and resin wetting behavior on metal surfaces

Source: Laser Manufacturing Network

Recomendaciones relacionadas
  • Veeco Instruments wins IBM big order

    On August 14th local time, Veeco Instruments, a well-known American laser annealing manufacturer, announced an important cooperation with technology giant IBM. It is reported that IBM has selected Veeco Instruments' WaferStorm wet processing system as support for its advanced packaging applications, and the two parties have signed a joint development agreement to explore the potential of utilizi...

    2024-08-23
    Ver traducción
  • Export of Pentium Laser Automation Production Line to Japan

    Recently, several large trucks from the Wenzhou factory of Pentium Laser were lined up and ready to go. The high-power and high-speed laser cutting automation production line developed and produced by Pentium Laser has been strictly inspected and accepted by Japanese customers for 15 days and 24 hours of uninterrupted operation. Today, it was loaded and sent to Japan. This laser cutting automati...

    2024-12-06
    Ver traducción
  • LiDAR solutions provider Cepton acquired by KOITO

    On July 29, 2024, Cepton, a provider of high-performance LiDAR solutions, announced the signing of the final agreement for its acquisition, making it the acquiring company's subsidiary in the United States.Image source: CeptonAccording to the agreement, the acquirer is the internationally renowned automotive lighting giant KOITO, which was established in 1915 and has a history of over a hundred ye...

    2024-08-01
    Ver traducción
  • Acousto optic modulation of gigawatt level laser pulses in the ambient air of Nature Photonics

    An interdisciplinary research group, including the German synchrotron radiation accelerator DESY and the Helmholtz Institute in Jena, Germany, reported that invisible gratings made of air not only are not damaged by lasers, but also maintain the original quality of the beam. The relevant research has been published in Nature Photonics under the title of "Acousto opt modulation of gigawatt scale la...

    2023-10-12
    Ver traducción
  • BMW uses WAAM 3D printing to optimize derivative designs

    BMW explained how to use WAAM (Arc Additive Manufacturing) starting from 2025 to manufacture lighter and stronger automotive components and reduce waste generation, in order to optimize the use of generative design tools.The demonstrated WAAM process uses aluminum wire raw materials directly deposited through laser welding heads, enabling automotive companies to manufacture lighter and more robust...

    2024-04-13
    Ver traducción