Your search keyword '"laser technology"' showing total 2 results

1. Development of a System for Additive Manufacturing of Ceramic Matrix Composite Structures Using Laser Technology.

Author

Polenz, Stefan, Kunz, Willy, Braun, Benjamin, Franke, Andrea, López, Elena, Brückner, Frank, and Leyens, Christoph

Subjects

*COMPOSITE structures, *SYSTEMS development, *CERAMIC materials, *MANUFACTURING processes, *CERAMICS, *CERAMIC-matrix composites

Abstract

Ceramic matrix composites (CMCs) are refractory ceramic materials with damage-tolerant behavior. Coming from the space industry, this class of materials is increasingly being used in other applications, such as automotive construction for high-performance brake discs, furnace technology, heat coatings for pipe systems and landing flaps on reusable rocket sections. In order to produce CMC faster and more cost-efficiently for the increasing demand, a new additive manufacturing process is being tested, which in the future should also be able to realize material joints and higher component wall thicknesses than conventional processes. The main features of the process are as follows. A ceramic fiber bundle is de-sized and infiltrated with ceramic suspension. The bundle infiltrated with matrix material is dried and then applied to a body form. During application, the matrix material is melted by laser radiation without damaging the fiber material. For the initial validation of the material system, samples are pressed and analyzed for their absorption properties using integrating sphere measurement. With the results, a suitable processing laser is selected, and initial melting tests of the matrix system are carried out. After the first validation of the process, a test system is set up, and the first test specimens are produced to determine the material parameters. [ABSTRACT FROM AUTHOR]

Published

2021

2. Copper Oxides on a Cu Sheet Substrate Made by Laser Technique.

Author

Musztyfaga-Staszuk, Małgorzata, Janicki, Damian, Gawlińska-Nęcek, Katarzyna, Socha, Robert, Putynkowski, Grzegorz, and Panek, Piotr

Subjects

*COPPER oxide, *BAND gaps, *COPPER oxidation, *ATOMIC force microscopy, *TRANSMISSION electron microscopy, *ND-YAG lasers, *THERMAL lensing, *SEMICONDUCTOR lasers

Abstract

This paper presents results from the production of copper oxide layers on a Cu sheet substrate using diode and Yb:YAG disc lasers operating in the wavelength ranges of 808–940 nm and 1030 nm. The parameters of these layers were compared with the layer obtained in the thermal process of copper oxidation at 300 °C in an infrared (IR) furnace in a natural atmosphere. Investigations into the layers mentioned above, concerning their topography, chemical composition and roughness, were made using scanning electron microscopy (SEM) and atomic force microscopy (AFM). A hot-point probe was used to determine and check the type of conductivity of the copper oxide layers formed. The optical band gap energy was estimated by applying the Kubelka–Munk method based on spectrophotometric data. Cross-sections and the element distribution maps were made using transmission electron microscopy (TEM). The phase analysis was investigated by the X-ray diffraction method (XRD). In sum, controlled laser oxidations of copper sheets allow for the formation of a mixture of Cu2O and CuO phases. The diode laser allows the production of a layer of copper oxides with a phase composition comparable to the oxides produced by the thermal oxidation method, while the distribution of high phase uniformity in the cross-section of the layer enables the process using a Yb:YAG disc laser. [ABSTRACT FROM AUTHOR]

Published

2020