3D Parts Catalog Statistics 2024 – Everything You Need to Know

Are you looking to add 3D Parts Catalog to your arsenal of tools? Maybe for your business or personal use only, whatever it is – it’s always a good idea to know more about the most important 3D Parts Catalog statistics of 2024.

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How much of an impact will 3D Parts Catalog have on your day-to-day? or the day-to-day of your business? Should you invest in 3D Parts Catalog? We will answer all your 3D Parts Catalog related questions here.

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Best 3D Parts Catalog Statistics

☰ Use “CTRL+F” to quickly find statistics. There are total 55 3D Parts Catalog Statistics on this page 🙂

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3D Parts Catalog Market Statistics

• Although 3D printing is still less than 1 per cent of the global manufacturing market, the technology is set to become an invaluable tool for production workflows. ^[0]
• The 3D printing market is set to double in size every 3 years with the annual growth forecasted by analysts varying between 18.2 and 27.2 per cent. ^[0]
• Based on the number of industry players, systems manufacturers make up the biggest group in the AM market , although the number of service providers has risen dramatically, reaching 34 per cent. ^[0]
• In 2019, footwear 3D printing revenues made up approximately 0.3 per cent of global footwear market revenues, according to SmarTech Analysis. ^[0]
• The orthopaedics 3D printing market was valued at $691 million in 2018 and is predicted by SmarTech Analysis to grow into a $3.7 billion market by 2027. ^[0]
• The market for medical 3D printing, including materials, services, software and hardware, is currently estimated to be worth $1.25 billion, according to SmarTech Analysis. ^[0]
• The global metal AM market was worth EUR 1.51 billion in 2018 and is set to grow at a 25 per cent CAGR. ^[0]
• The 3D printing ceramic materials market is expected to grow from a $20 million revenue opportunity in 2020 to over $450 million by 2029, according to a report by SmarTech Analysis. ^[0]

3D Parts Catalog Software Statistics

• The market for medical 3D printing, including materials, services, software and hardware, is currently estimated to be worth $1.25 billion, according to SmarTech Analysis. ^[0]

3D Parts Catalog Adoption Statistics

• AM adoption is growing across shop floors globally, evidenced by more than 70 per cent of enterprises finding new applications for 3D printing in 2019 and 60 per cent using CAD, simulation and reverse engineering internally. ^[0]

3D Parts Catalog Latest Statistics

• The number of surveyed organisations with AM systems in house more than quadrupled in the past 3 years, leaping from 9 per cent in 2016 to 40 per cent in 2019. ^[0]
• The number of manufacturers using 3D printing for full scale production has doubled between 2018 and 2019 21 per cent and 40 per cent respectively. ^[0]
• 79 per cent of surveyed companies expect their use of 3D printing for production parts or goods to at least double in the next 3 to 5 years. ^[0]
• In the aerospace and defence industry, the most popular application of 3D printing is prototyping , followed by repair , research and development and production parts. ^[0]
• Research firm, CONTEXT, estimates that metal 3D printer shipments will see yearonyear unit volume growth rates of over 49 per cent. ^[0]
• 62 per cent of the globally installed PBF metal AM systems come from German suppliers. ^[0]
• In metal PBF processes, 20 per cent to 40 per cent of the raw part costs are associated with material costs. ^[0]
• In powder based DED processes, the material can make up 70 per cent of the raw part cost, in Wire Arc Deposition even up to 80 per cent. ^[0]
• The Powder Bed Fusion family plays the largest role in metal AM, comprising 80 per cent of all metal AM system installations worldwide. ^[0]
• 72 per cent of companies, surveyed for EY’s Global 3D Printing Report 2019, are using polymer AM systems, compared to 49 per cent that use metal ones. ^[0]
• These trends taken together indicate a healthy maturation of the materials industry, which is predicted to grow into a whopping $4.5 billion opportunity in the next 5 years. ^[0]
• 99 per cent of manufacturing executives believe an open ecosystem is important to advance 3D printing at scale. ^[0]
• The most commonly used material for 3D printing continues to be plastics, at 82 per cent. ^[0]
• Companies using 3D printing are also working with carbon fibre and composites. ^[0]
• The polymer AM segment grew to an estimated nearly $5.5 billion in 2018. ^[0]
• 94 per cent of surveyed companies say designers choose traditional manufacturing due to the lack of additive materials. ^[0]
• According to a whitepaper by RIZE . ^[0]
• The Impact Of Postprocessing), postprocessing can add between 17 per cent and 100 per cent to 3D printing time on a batchby. ^[0]
• 66 per cent of companies report experiencing 2 or more challenges with their current Post. ^[0]
• 75 per cent of companies indicate Length of Time to Finish Parts as a key challenge in their Post Printing, while for 51 per cent of respondents, the challenge lies in a lack of consistency. ^[0]
• According to the EY Report 2019, service providers make up 34 per cent of the global AM landscape. ^[0]
• By 2024, nearly one third of 900 surveyed companies expect to design and produce their AM parts via service providers. ^[0]
• Small and medium sized enterprises are the power users of online 3D printing services, representing more than 75 per cent of the global customer base. ^[0]
• The industry most commonly served by 3D printing service bureaus is consumer goods. ^[0]
• In second and third place are automotive and industrial goods. ^[0]
• 37 per cent of 3D printing service providers reported producing between 1,001 and 10,000 parts annually. ^[0]
• The number of companies using service providers has more than tripled from 8 per cent in 2016 to 26 per cent in 2019. ^[0]
• Around 81 per cent of companies cite a reluctance to invest in their own systems as their reason for working with service providers in the future. ^[0]
• 48 per cent cite their unfamiliarity with AM processes and standards, while 38 percent cite their uncertainty around AM design. ^[0]
• For the constant thickness cartilage, a statistically significant difference was found in 89% and 92% of the tibial and talar . ^[1]
• The default infill amount for the printers at SciTech Business library is 5%.For some basic information about 3D printing infill, please view 3D Printing Infill. ^[2]
• In Fig 2B, CD62p positive vesicles of 400 nm– 800 nm in size most likely constitute microvesicles, which are known to be rich in CD62p and have a corresponding size of 100 nm up to 1 μm [91]. ^[3]
• The MLP neural network classification allows for determination of the class with a 100% accuracy for all pairwise comparisons of the measured samples. ^[3]
• If the classification acceptance threshold is exceeded (e.g. posteriori probability <60%). ^[3]
• S10F Fig).Volume estimated as a volume of a rectangular box including cluster points .As default, we use the bullet density that best reflects the shape of the 3D cluster. ^[3]
• The MLP neural network classifies samples as dissimilar with a posteriori probability of 88%. ^[3]
• Three additional pairs of polarized and unpolarised samples have been compared, rendering a dissimilarity of 78.5%, 88.5% and 95.1%. ^[3]
• The MLP neural network classifies samples as similar with a posteriori probability of 87%. ^[3]
• The MLP neural network classifies rather samples as dissimilar with a posteriori probability of 64%. ^[3]
• Volume estimated as a volume of a rectangular box including cluster points. ^[3]
• The bootstrap distributions of the p values for each cluster size can be sorted, and α and percentiles of the sorted empirical distribution form the limits for the BPCI [98, 99, 102]. ^[3]
• An estimated 54,025 children and adolescents younger than 20 years in the US are living with or in remission from leukemia, lymphoma, myeloma, myelodysplastic syndromes or myeloproliferative neoplasms. ^[4]
• The projected percent change in employment from 2020 to 2030. ^[5]
• The average growth rate for all occupations is 8 percent. ^[5]
• The percent change of employment for each occupation from 2020 to 2030. ^[5]

I know you want to use 3D Parts Catalog Software, thus we made this list of best 3D Parts Catalog Software. We also wrote about how to learn 3D Parts Catalog Software and how to install 3D Parts Catalog Software. Recently we wrote how to uninstall 3D Parts Catalog Software for newbie users. Don’t forgot to check latest 3D Parts Catalog statistics of 2024.

Reference

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1. amfg – https://amfg.ai/2020/01/14/40-3d-printing-industry-stats-you-should-know-2020-redirect/.
2. sciencedirect – https://www.sciencedirect.com/science/article/pii/S1361841509000425.
3. ualberta – https://www.library.ualberta.ca/services/3dprinting.
4. plos – https://journals.plos.org/ploscompbiol/article?id=10.1371/journal.pcbi.1007902.
5. lls – https://www.lls.org/facts-and-statistics.
6. bls – https://www.bls.gov/ooh/arts-and-design/multimedia-artists-and-animators.htm.

How Useful is 3d Parts Catalog

Gone are the days of flipping through bulky physical catalogs to locate specific parts or components for machinery or equipment. With the revolutionary technology of 3D parts catalogs, manufacturers now have the convenience of accessing detailed, interactive digital models of their products with just a few clicks. This not only saves time and resources but also enhances accuracy and precision in identifying the required parts.

One of the most notable advantages of 3D parts catalogs is the ability to view products in a three-dimensional space, offering a more immersive and realistic experience. This feature enables engineers and technicians to gain a better understanding of the components they are working with, leading to improved troubleshooting and maintenance procedures. Additionally, the interactive nature of these catalogs allows users to zoom in, rotate, and manipulate the models, thereby streamlining the identification process and reducing the likelihood of error.

Furthermore, 3D parts catalogs provide valuable insights into the compatibility and interchangeability of components, helping manufacturers to make informed decisions when selecting parts for their projects. By visualizing how different parts interact with each other in a virtual setting, engineers can optimize the design and functionality of their products, leading to enhanced performance and durability.

Another key benefit of 3D parts catalogs is their ability to facilitate collaboration and communication among teams working on a project. By providing a centralized platform for accessing and sharing information, these catalogs ensure that all stakeholders are on the same page, promoting efficiency and fostering synergy between departments. This not only reduces the risk of miscommunications but also encourages creativity and innovation in the design and development process.

Moreover, the digital nature of 3D parts catalogs allows for easy updates and modifications to be made in real-time, ensuring that users have access to the most up-to-date information at all times. This agility is particularly crucial in the fast-paced world of manufacturing, where product specifications and requirements can change frequently. By eliminating the need for manual revisions and reprinting of physical catalogs, manufacturers can adapt to market demands more swiftly and stay ahead of the competition.

In conclusion, the rise of 3D parts catalogs has revolutionized the way manufacturers access and utilize information about their products, leading to increased efficiency, accuracy, and collaboration within the industry. As technology continues to advance, we can expect these catalogs to become even more sophisticated and user-friendly, further enhancing the capabilities and performance of manufacturing operations. With their myriad benefits and practical applications, 3D parts catalogs have truly proven to be a valuable tool for the modern manufacturer.

In Conclusion

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