Titlebook: Laser Cladding of Metals; Pasquale Cavaliere Book 2021 Springer Nature Switzerland AG 2021 Laser cladding.Laser additive manufacturing.Tai

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Laser Cladding: Fatigue Properties,. High-energy laser beams are employed to melt powders onto a substrate to form 3D components layer by layer. In comparison with other manufacturing or repairing technologies, laser cladding offers a wide range of advantages, such as a low buy-to-fly ratio, a near-net-shape fabrication without the n

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Laser Cladding of Titanium Alloy,strength-to-weight ratio. However, its use in critical working environment is restricted because of low hardness and tribological properties. This section concentrated on the development in the laser cladding process, the most advanced surface modification process. It observed that laser process par

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Laser Cladding of Ti Alloys for Biomedical Applications, components is growing rapidly in the biomedical field, due to their excellent properties. However, their inertness and low biocompatibility are the most serious drawbacks for biomedical applications. In addition, it is dangerous for Ti–6Al–4V to remain in the human body for a long time, because the

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,Laser Cladding of NiCr-Cr2C3 Coatings on a γ-TiAl Substrate,ental especially for 3D printing of metallic alloys. The present chapter describes how the laser and base material parameters influence the final structure and properties of laser cladded tracks. In the present chapter, the improvement of the TiAl intermetallic substrate was demonstrated through the

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