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      • Additive manufacturing is the process of creating an object by building it one layer at a time. It is the opposite of subtractive manufacturing, in which an object is created by cutting away at a solid block of material until the final product is complete.
      mitsloan.mit.edu/ideas-made-to-matter/additive-manufacturing-explained
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  2. Aug 8, 2022 · Additive manufacturing (AM, also known as 3D printing) is an advanced manufacturing technique that has enabled progress in the design and fabrication of customised or patient-specific (meta-)biomaterials and biomedical devices (e.g., implants, prosthetics, and orthotics) with complex internal microstructures and tuneable properties.

    • What Is Additive Manufacturing?
    • How It Works
    • The Advantages of Additive Manufacturing
    • Issues with Additive Manufacturing
    • Additive Manufacturing Versus Conventional Manufacturing
    • Possible Industries For Disruption
    • 4-D Printing and Other Applications
    • Ready to Go Deeper?
    • The Expert

    Additive manufacturing is the process of creating an object by building it one layer at a time. It is the opposite of subtractive manufacturing, in which an object is created by cutting away at a solid block of material until the final product is complete. Technically, additive manufacturing can refer to any process where a product is created by bu...

    To create an object using additive manufacturing, someone must first create a design. This is typically done using computer aided design, or CAD, software, or by taking a scan of the object someone wants to print. Software then translates the design into a layer by layer framework for the additive manufacturing machine to follow. This is sent to th...

    Additive manufacturing has some distinct benefits. With traditional manufacturing, the entire supply chain can take months and require an investment — sometimes millions or billions of dollars — that can only be recouped by high-volume production. With additive manufacturing, much of the supply chain’s intermediate steps are removed. “The speed at ...

    Additive manufacturing has its share of challenges, too. Additive manufacturing machines are expensive, sometimes hundreds of thousands of dollars. Using them to create large lot sizes takes longer than with traditional manufacturing. And many objects that are additively manufactured require some post-processing to clean and smooth out rough edges,...

    Despite all the advantages of additive manufacturing, “I don’t see traditional manufacturing being replaced,” said Roemer. That is because, aside from specific use cases, traditional manufacturing is still faster and less expensive. This is especially true when creating granular products. The smaller the layer size, the slower the manufacturing. Wh...

    There are a few industries where 3-D printing parts or products makes more sense than manufacturing them traditionally. Aerospace, racecars, and the medical field are all industries where additive manufacturing can make inroads. That is because they are all industries where function is more important than price. Or where small lot sizes or customiz...

    With typical additive manufacturing, machines build a 3-D object that is fixed. 4-D printing creates 3-D objects that have the ability to change or transform over time, without human interaction. There are several applications for 4-D printing. One is extreme environments, such as space, where self-configuring materials would be useful. Another is ...

    Read “Getting Past the Hype About 3-D Printing” in MIT Sloan Management Review or “3-D Printing and Additive Manufacturing,” a peer-reviewed journal that covers the rapid changes to the field. Watch “An Introduction to Additive Manufacturing” from MIT professor John Hart and “The Emergence of 4-D Printing,” a Ted Talk by MIT assistant professor and...

    Thomas Roemer is a senior lecturer at MIT Sloan in operations management and the executive director of MIT’s Leaders for Global Operations Program. He is interested in the intersection of engineering and management and the value creation during the design, manufacturing, and delivery of products. He has taught classes in operations management and s...

    • Rebecca Linke
  3. Feb 23, 2021 · In this review, first, the synthesis and the production of PHAs are described, and different production techniques of medical implants are compared. Then, an overview is given on the most recent and relevant medical applications of PHA for drug delivery, vessel stenting, and tissue engineering.

    • Alberto Giubilini, Federica Bondioli, Massimo Messori, Gustav Nyström, Gilberto Siqueira
    • 10.3390/bioengineering8020029
    • 2021
    • Bioengineering (Basel). 2021 Feb; 8(2): 29.
  4. Aug 21, 2024 · Additive manufacturing describes the manufacturing process that uses technologies to create 3D objects by adding material through an automated process. It’s achieved by adding layers atop layers by depositing material, hardening material, melting a powder, or binding a powder. Some may even consider the term a synonym for 3D printing.

    • David Budiac
  5. Aug 1, 2015 · The application of additive biomanufacturing represents one of the most rapidly advancing areas of biomedical science, in which engineers, scientists, and clinicians are contributing to...

  6. Jun 14, 2019 · The aim of this research is to use biological analogies, taken from human development to offer a new perspective on what the definition of additive design and manufacturing could encompass in the future.

  7. Additive manufacturing (AM) is one of the fastest-growing and most promising manufacturing technologies, offering significant advantages over conventional manufacturing processes.

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