Additive Technologies in Metallurgy & Mechanical Engineering

Por: Coursera . en: ,

  • WEEK 1. METALLURGICAL AND MECHANICAL ENGINEERING INDUSTRIES AS AN APPLICATION OF ADDITIVE TECHNOLOGIES
    • Metallurgical and Mechanical Engineering as an object of application of additive technologies. Additive technologies: what is it? Applications of additive technologies in mechanical engineering and in metallurgy. After studying the materials, you will know:
  • WEEK 2. OBJECT DIGITIZATION AND 3D PROTOTYPING
    • 3D scanning and 3D prototyping. Prototyping: value and functions. The main types of 3D prototyping: stereolithography, layer-by-layer deposition; selective laser sintering; multi-jet modeling. After studying the materials, you will know:
  • WEEK 3. SELECTIVE LASER SINTERING
    • Application of selective laser fusion in mechanical engineering. Features of SLS, SLM and DMLS technologies. Powder materials for SLM technology. Microstructure and properties of SLM products. SLM technologies in mechanical engineering. After studying the materials, you will know:
  • WEEK 4. THERMAL SPRAYING
    • Gas-thermal spraying. Detonation spraying. Microstructure and properties of coatings produced by detonation spraying. Detonation spraying application in metallurgy and mechanical engineering. After studying the materials, you will know:
  • WEEK 5. LASER METAL DEPOSITION
    • Laser cladding. Surface and geometry restoration of machine parts and mechanisms. Materials used for laser cladding. Examples of how to recover worn parts. After studying the materials, you will know:
  • WEEK 6. DIRECT METAL DEPOSITION
    • Direct Metal Deposition. Methods of obtaining metal products with a complex shape. Coaxial laser processing of powder materials. Microstructure and properties during direct laser deposition. The areas of application of complex shape products obtained by direct laser deposition. After studying the materials, you will know:

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