Medical Electronics
medical field year by year, improving the creations of human body part replicas and devices used to serve patients. Medical models and surgical implants have been used to deliver positive outcomes. Over time, medical practitioners have had their hands on useful equipment faster than ever, thanks to Autodesk applications. Through the methods of AM, new medical devices can be precisely created faster and revealed sooner to shape the patient’s needs. The annual growth of design adaptation is forever changing to produce better results while using minimal time as possible.
Benefits of additive manufacturing in the medical field
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In the old manufacturing world of assembly line techniques, it takes months to years to develop a new medical device as the work was all hands-on with less technology involved. The costs could be high for including so many steps to complete the build process of a medical device. Today, advanced technology like 3-D printers has cut out the lengthy middle steps and helped us build and deliver a
device fast at a lower cost.
The time it takes to develop a medical device has been drastically cut to deliver more devices sooner. Utilizing AM, a device can be created as one solid object with no connecting parts, rather than as a device of multiple components put together later. 3-D machinery uses in-depth design practices to build higher-quality devices that provide patients with effective treatment solutions.
Older production methods require high levels of thinking and excessive hands- on building to manufacture odd-shaped objects which could cause malfunctions in the production stage. These older techniques are less accurate and more prone to errors, resulting in a reset of the building process. AM can create changes and correct issues extremely quickly, allowing for reliable prototype production. The most vital benefit to recognize is the reliability of additive manufacturing in the medical field during operations. Doctors are now able to study physical 3-D models and digital models designed through medical collections before they get hands-on in the operation of patients.
Future medical employees can be trained using prototype models to eliminate the possibility of mistakes.
Moreover, the skills of doctors keep increasing as AM keeps designing highly dependable devices for them to work with. And 3-D printing now makes medical treatment available in almost any area.
Issues of additive manufacturing in the medical field
Like any part of product manufacturing, hiccups are expected along the way. When it comes to AM, there aren’t as many issues as traditional manufacturing methods.
● The machinery that runs applications producing AM is quite expensive.
● The materials usually need to be in their rawest form, causing outsourcing difficulty.
● Medical devices require post-production polishing services after 3-D printing as the material is often hard and abrasive.
● Patients or medical practitioners can purchase false products from untrustworthy markets which can lead to bad quality control.
Although there might be some negatives of additive manufacturing of medical devices, the advantages will outweigh them.
Wrap up
Additive manufacturing is an upcoming technology change slowly shaping the production of medical device development. Thanks to helpful Autodesk product design and manufacturing collections, adaptations are happening for the better. With such significant improvements, our capability to create and design customized devices makes medical practices more thorough, providing skilled professionals the ability to acquire higher skills and provide medical relief in hard-to- access regions.
https://microsolresources.com/ software/autodesk/autodesk-product- design-manufacturing-collection/
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Components in Electronics
December/January 2023 21
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