The mushrooming adoption of 3D printers in these industries for accurate prototyping and enhanced production are driving the global demand for slicing software. 3D-printed aircraft components, 3D-printed implants and prosthetics, and 3D-printed vehicle seats are some of the major application areas of slicing software. Besides, the ballooning use of the 3D printing technology in the healthcare industry is also fueling the growth of the global slicing software market.
In this industry, the 3D printing technology is extensively used in the production of wearable devices and surgical instruments, 3D-printed prosthesis, image processing, and tissue engineering. As 3D printing provides various advantages such as reduced risks of infections caused due to prosthetic devices, minimized anesthesia requirements, and lower operative risks during various complex procedures, it is increasingly being adopted in healthcare operations.
Amongst these, the usage of the software was observed to be the highest in the aerospace & defense industry in the years gone by. This was primarily because of the large-scale adoption of the 3D printing technology by aerospace & defense companies for creating lighter and stronger parts. The other applications of 3D printing in this industry are air duct production, engine compartment manufacturing, and lights, bezels, and accessories production.
Globally, the demand for the slicing software will boom in Asia-Pacific (APAC) in the forthcoming years, as per the estimates of the market research company, P&S Intelligence. This is attributed to the surge in the 3D printing industry, growing adoption of advanced technologies in manufacturing operations, rising requirement for functional and swift prototyping, and implementation of supportive government policies in several countries.
Hence, it is safe to say that the demand for slicing software will surge sharply in the upcoming years, primarily because of the growing adoption of the 3D printing technology by several industries.
In this industry, the 3D printing technology is extensively used in the production of wearable devices and surgical instruments, 3D-printed prosthesis, image processing, and tissue engineering. As 3D printing provides various advantages such as reduced risks of infections caused due to prosthetic devices, minimized anesthesia requirements, and lower operative risks during various complex procedures, it is increasingly being adopted in healthcare operations.
This is subsequently pushing up the demand for slicing software. As a result, the value of the market is predicted to rise from $422.2 million in 2019 to $2,202.5 million by 2030. The market is also expected to progress at a CAGR of 16.7% from 2020 to 2030. Aerospace & defense, education, architecture & construction, automotive, consumer products, healthcare, and jewelry are the major end use industries of slicing software.
Amongst these, the usage of the software was observed to be the highest in the aerospace & defense industry in the years gone by. This was primarily because of the large-scale adoption of the 3D printing technology by aerospace & defense companies for creating lighter and stronger parts. The other applications of 3D printing in this industry are air duct production, engine compartment manufacturing, and lights, bezels, and accessories production.
Globally, the demand for the slicing software will boom in Asia-Pacific (APAC) in the forthcoming years, as per the estimates of the market research company, P&S Intelligence. This is attributed to the surge in the 3D printing industry, growing adoption of advanced technologies in manufacturing operations, rising requirement for functional and swift prototyping, and implementation of supportive government policies in several countries.
Hence, it is safe to say that the demand for slicing software will surge sharply in the upcoming years, primarily because of the growing adoption of the 3D printing technology by several industries.
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