Executive Development Programme in Selective Laser Sintering and the Circular Economy

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The Executive Development Programme in Selective Laser Sintering and the Circular Economy is a certificate course designed to equip learners with essential skills for career advancement in additive manufacturing and sustainable business practices. This programme is crucial in today's industry, where there is a growing demand for professionals who understand the environmental impact of manufacturing and can implement sustainable solutions.

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The course covers the latest advancements in Selective Laser Sintering (SLS) technology and its applications in the circular economy, including product design, remanufacturing, and recycling. Learners will gain a deep understanding of the SLS process, material selection, and design for additive manufacturing, as well as the principles of the circular economy and how to apply them in a business context. Through hands-on experience and real-world case studies, learners will develop the skills necessary to lead sustainable manufacturing initiatives and drive innovation in their organizations. This programme is ideal for professionals in manufacturing, engineering, product design, and sustainability, who are looking to advance their careers and make a positive impact on the environment.

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과정 세부사항

• Introduction to Selective Laser Sintering (SLS): Understanding the basics of SLS technology, its applications, and advantages over traditional manufacturing methods.

• SLS Materials and their Properties: Exploring various materials used in SLS, such as plastics, metals, and ceramics, and their mechanical and thermal properties.

• Design for Additive Manufacturing (DfAM): Learning how to design parts specifically for SLS, considering factors such as part orientation, support structures, and material selection.

• SLS Production Process: Examining the production workflow of SLS, including pre-processing, sintering, post-processing, and quality control.

• SLS Applications in the Circular Economy: Exploring how SLS can contribute to a circular economy by enabling on-demand production, reducing waste, and enabling product customization.

• Sustainable Materials in SLS: Investigating the use of sustainable materials in SLS, such as biodegradable plastics and recycled materials.

• SLS in Closed-Loop Manufacturing: Understanding how SLS can be integrated into closed-loop manufacturing systems, where waste materials are reused in the production process.

• SLS and Product Lifecycle Management: Examining how SLS can be used to manage product lifecycles, including design, production, use, and end-of-life disposal.

• SLS in Remanufacturing and Repair: Exploring how SLS can be used to remanufacture and repair products, extending their useful life and reducing waste.

• SLS and the Environment: Evaluating the environmental impact of SLS, including

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