module_11_projects_McFadden
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Feb 20, 2024
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Module 11 Project 3:
Supply chain management, or SCM, is a field that serves to gain immensely as a result of the introduction of both 3D printing and 4D printing. 3D printing, which stands for three-
dimensional printing, is a manufacturing process that takes a digital model of an object and turns it into a physical product. This is done by breaking the model down into layers that are then created and built on top of each other. 4D printing is simply a more complex form of 3D printing.
The objects assembled in 4D printing are programmed to be able to change due to external factors. Supply chain management benefits from 3D and 4D printing through a multitude of ways, for example, manufacturing times are reduced, designs can be created and tested quicker, and the resources used are for the most part, reusable. All three of these are very useful when it comes to managing the resources and goods of a company, which makes it very tightly linked with the supply chain. Products will get out quicker due to the reduced manufacturing time and less resources will be needed due to quicker design processes and resource reusability.
Two companies now using 3D printing in their manufacturing are Volkswagen and Medtronic. Volkswagen has used 3D printing primarily in the production of parts. They even go as far as to use newer, less conventional forms of 3D. The primary form they use is known as binder jetting which uses an adhesive in the binding process to allow the metal to be heated and bent into the intended shape. Doing so allows them to create parts using cheaper resources and less energy. Besides 3D printing being cost-effective for the company, another advantage is that the parts weigh less than ones made using traditional sheet streel. This allows for the cars to be more fuel efficient. As a result, this saves both the consumer and the company money allowing for two key advantages to come out of Volkswagen’s use of 3D printing. Another company benefiting from 3D printing is Medtronic. Although a lesser known brand than Volkswagen their
impact is quite large. Medtronic’s primary use of 3D printing technology is the creation of titanium implants and tools for surgeries. Titanium implants cannot be produced in large quantities. Everyone’s bodies are different and need different sizes and shapes of implants made specifically for them. This makes 3D printing perfect for the job. 3D printing can create implants
with speed and precision, greatly reducing the overall stress on the company’s supply chain that would get bogged down with large and timely orders. The other benefit that Medtronic sees is that of the creation of surgical models for practice. Ordering these can be expensive and creating them can be time consuming. 3D printing allows for more of these to be created and for more people to be able to practice on them. As seen in the two example companies that I shared, 3D printing affects a wide range of company’s and aids them greatly in not only SCM but everyday operations.
4D printing is a growing type of 3D printing that so far has very restricted use cases which usually sticks to research done by universities and medical centers and to military developments. The applications of 4D printing by universities and medical centers mainly centers around the creation of realistic, life-like tissues that closely resemble human tissue. This tissue allows researchers to sustainably and humanely source accurate research materials in ways
that were not accessible before. This allows for future doctors and nurses to have more in-depth, hands-one experience and it also clears up ethical concerns. The military on the other hand has been very applied in the research of 4D printing and using it. One advantage they have using 4D printing is discovering better ways of creating ventilation to protect against toxic gases. They can
manufacture materials that better filter these harmful toxins to help our soldiers have the upper hand in a combat scenario. One of the most highly publicized use-cases by the military is that of self-altering camouflage. Although not fully created yet, the military aims to fund research that
intends to create a type of camouflage that changes depending on the environment that it is in. This would of course take a lot of money to implement, but it could save money in the long run and reduce the need for a multitude of different uniforms with different camouflage types.
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Module 11 Project 5:
Radio Frequency identification is a rapidly growing and ever popular system that is comprised of two parts. These parts are the reader and the tags. The link between these two parts comes from radio waves. The reader transmits radio waves to the tag and then the tag answers back. This has applications in a wide range of industries and in a wide range of departments within those industries. RFID can be used for password-less authentication, tracking of vehicles or livestock, and in regard to supply chain management, inventory management.
A company that uses RFID in their supply chain management is Walmart. All orders that come into and out of Walmart are marked with RFID tags. This updates the inventory in their database allowing for real-time tracking of how many items they have. This allows them to make
informed decisions as to what they need to order more of, the fastest selling items, and more. As a result, this has shown greater profit for Walmart and shows that RFID has a huge and unavoidable role in the future of supply chain management.
Two advantages of RFID in supply chain management are that it removes the need for a lot of unnecessary and costly labor and allows for up-to-date informed decisions on inventory. RFID does have some drawbacks though. For example, it could be a costly upgrade for smaller companies and there is risk of interference from some materials.
RFID and the Internet-of-Things are tightly linked. RFID enables all items to in some part have a connection to the internet and be tracked virtually. The connection does not just stop there though. RFID helps to widen the range of the IoT. RFID can be used in object location and tracking in technologies such as cameras, GPS, and much more.
RFID is one of the most prevalent and useful technologies of the modern world, whether this be specifically in supply chain management, or in the wider perspective of IoT. It was once barcodes and now RFID, who knows what could be in store in the future.
Project 3 Sources:
https://www.3de-shop.com/post/5-famous-companies-that-use-3d-printing-technology.html
https://www.volkswagen-newsroom.com/en/press-releases/volkswagen-plans-to-use-new-3d-
printing-process-in-vehicle-production-in-the-years-ahead-7269
https://www.alliedmarketresearch.com/military-4d-printing-market-A10662
https://www.vice.com/en/article/yp5m8x/the-us-army-is-investing-in-4d-printing-expect-crazy-
results
Project 5 Sources:
https://www.forbes.com/sites/marshallkay/2022/02/09/walmart-to-use-rfid-to-improve-store-
level-inventory-accuracy-in-home-goods-consumer-electronics/?sh=535e868e5540
https://www.codingninjas.com/studio/library/rfid-in-iot
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