Germany is a leading player in Europe's 3D printing market. Germany has a strong industrial base, with a large number of companies in the automotive, aerospace, and engineering sectors. These industries are significant users of 3D printing technology, and as a result, the demand for 3D printers and related services in Germany is high. Furthermore, Germany has a well-established research and development (R&D) infrastructure, which has helped spur innovation in 3D printing technology. German universities and research institutions are at the forefront of 3D printing research, with much collaboration between industry and academia driving the development of new 3D printing materials, software, and hardware. Moreover, Germany has a strong network of small and medium-sized enterprises (SMEs) that are active in the 3D printing market. These companies are often focused on developing specialized 3D printing solutions for niche applications, and their innovation and agility have helped to drive the growth of the 3D printing market in Germany. According to the research report "Germany 3D Printing Market Research Report, 2028," published by Actual Market Research, the Germany 3D printing market is expected to add USD 1.7 Billion by 2028. 3D printing enables the production of customized products on demand, which is driving demand for 3D printing technology in a variety of industries. This is especially true in the medical field, where 3D printing is used to create patient-specific implants and prosthetics. Furthermore, there is growing concern and awareness about environmental issues such as waste reduction and energy conservation. When compared to traditional manufacturing processes, 3D printing can help reduce waste by using only the necessary amount of material to produce a part. It can also help reduce energy consumption. Because of this environmental benefit, 3D printing technology has seen increased adoption, particularly in industries under pressure to reduce their environmental impact. Furthermore, the trend towards digitalization of manufacturing, also known as Industry 4.0, has aided the growth of the 3D printing market. As a digital manufacturing technology, 3D printing is well suited to the requirements of Industry 4.0, which include the use of data analytics, artificial intelligence, and the Internet of Things to optimize manufacturing processes. The market is divided into four categories: printers, materials, software, and services. By 2028, the printer segment is expected to have the highest market share. The 3D printer was initially marketed as a novelty item rather than a useful tool. However, as a result of cost reductions and technological advancements, the market for 3D printers has grown significantly. They are used in professional printing, for example, to create lightweight, complex designs for expensive items such as racing vehicles and aircraft. The expansion of the printer segment may be attributed to the shifting perspective of 3D printing and its progress as a developing industrial solution. Materials are expected to have the highest CAGR during the forecast period. The demand for 3D printing materials is expected to grow due to the increasing adoption of the technology in various industries such as automotive, aerospace, and healthcare. The development of new and advanced materials, such as composites and metal powders, is also expected to drive growth in the market. Additionally, as 3D printing becomes more widely adopted, the demand for a wider range of materials for different applications will increase. However, 3D printing software is becoming increasingly sophisticated, allowing for more complex designs and more efficient printing processes. The demand for software is expected to grow due to the increasing adoption of 3D printing across a range of industries, as well as the need for more sophisticated software to support more complex printing applications. Additionally, the integration of software with other technologies, such as artificial intelligence and machine learning, is expected to drive growth in the market. Based on application, the industry has been segmented further into prototyping, tooling, and functional parts. The prototyping segment accounted for the largest share in 2022, owing to the extensive adoption of the prototyping process across several industry verticals. The automotive, aerospace, and defence verticals, in particular, use prototyping to design and develop parts, components, and complex systems precisely. The functional parts segment is expected to expand most from 2023 to 2028, in line with the increasing demand for designing and building functional parts. The market is segmented into two major printer types, including desktop 3D printers and industrial 3D printers. Among them, industrial 3D printers will dominate the market in 2022 with a higher market share. Industrial 3D printers help design consumer, automotive and industrial tools and final parts. Industrial 3D printers have the capability of mass production and offer high performance. Increasing demand from the healthcare, aerospace & defense, and automotive industries is boosting the growth of the industrial 3D printers segment. Desktops are expected to have the highest CAGR during the forecast period due to the fact that desktop 3D printers are generally smaller, more affordable, and easier to use compared to industrial or professional-grade 3D printers.
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Download SampleThere are several 3D printing processes that are widely used in the country. Some of the most commonly used 3D printing processes in Germany include fused deposition modeling (FDM), which is one of the most popular 3D printing processes in Germany. This process uses a heated extruder to melt and deposit plastic filaments layer by layer to create a 3D object. FDM is widely used in prototyping, small-batch production, and educational settings due to its affordability and ease of use. Furthermore, selective laser sintering (SLS) is a 3D printing process that uses a laser to sinter powdered materials, such as plastics or metals, layer by layer to create a 3D object. SLS is a popular choice for creating complex geometries and functional parts in the aerospace and medical industries. Moreover, stereolithography (SLA) is a 3D printing process that uses a laser to cure a liquid resin layer by layer to create a 3D object. SLA is widely used in industries such as jewelry, dental, and medical due to its high level of accuracy and ability to produce fine details. Furthermore, Direct Metal Laser Sintering (DMLS) is a 3D printing process that uses a laser to sinter metal powders layer by layer to create a 3D object. DMLS is commonly used in the aerospace, medical, and automotive industries due to its ability to produce high-strength, complex metal parts. In addition, binder jetting is a 3D printing process that uses a liquid binding agent to bond powder particles layer by layer to create a 3D object. Binder jetting is a popular choice for creating full-color parts in industries such as architecture and design. Some of the most commonly used 3D printing materials in Germany include polylactic acid (PLA), acrylonitrile butadiene styrene (ABS), polyamide (Nylon), polyethylene terephthalate glycol (PETG), metal powders, and many more. In Germany some of the notable events for 3D printing include Formnext, Rapid.Tech 3D, Inside 3D Printing, 3D Printing Europe, and many more. Formnext, one of the largest 3D printing trade fairs in the world, is held annually in Frankfurt, Germany, attracting professionals and enthusiasts from around the globe. Furthermore, in 2019, the German automotive company Audi announced that it had produced the first 3D-printed engine component for one of its production vehicles, using a process called selective laser sintering (SLS). Moreover, Germany is also home to several 3D printing education and research institutions, including the Technical University of Munich and the Fraunhofer Institute for Manufacturing Technology and Advanced Materials, which are leaders in the field. Furthermore, German automotive giant BMW has been using 3D printing technology since the 1990s to produce parts for its vehicles, and the company now uses 3D printing extensively in its production processes. Moreover, the German Aerospace Center (DLR) has been using 3D printing technology to produce parts for satellites and rockets, with the aim of reducing weight and increasing efficiency. In addition, the German city of Lübeck has a 3D printing lab in its public library, allowing residents to use 3D printing technology for free. In January 2021, the Fraunhofer Institute for Additive Production Technologies (IAPT) opened a new research centre in Rostock focused on the development of new 3D printing materials and technologies. Furthermore, Volkswagen announced in February 2021 that it is collaborating with the HP 3D printing company to produce high-performance 3D printed parts for its vehicles in order to reduce costs and improve efficiency. Furthermore, in March 2021, AMendate, a German company, launched a new cloud-based 3D printing software platform that uses artificial intelligence to optimise and automate the design process. Furthermore, SLM Solutions, a German company, announced in April 2021 that it had developed a new 3D printing process for the production of high-strength aluminium parts that could be used in the aerospace and automotive industries. Furthermore, the German 3D printing company EOS announced in September 2021 that it had developed a new biocompatible polymer material for 3D printing that could be used in medical applications such as implants and prosthetics.
Considered in this report • Geography: Germany • Historic year: 2017 • Base year: 2022 • Estimated year: 2023 • Forecast year: 2028 Aspects covered in this report • Germany 3D Printing market with its value and forecast along with its segments • Various drivers and challenges • On-going trends and developments • Top profiled companies • Strategic recommendation By Offerings: • Printers • Materials • Services • Software
By Printer Type: • Desktop 3D Printer • Industrial 3D Printer By Application Type: • Prototyping • Functional Part Manufacturing • Tooling The approach of the report: This report consists of a combined approach of primary and secondary research. Initially, secondary research was used to get an understanding of the market and list out the companies that are present in it. The secondary research consists of third-party sources such as press releases, annual reports of companies, government-generated reports, and databases. After gathering the data from secondary sources, primary research was conducted by making telephone interviews with the leading players about how the market is functioning and then conducting trade calls with dealers and distributors of the market. Post this; we have started doing primary calls to consumers by equally segmenting them in regional aspects, tier aspects, age group, and gender. Once we have primary data with us, we can start verifying the details obtained from secondary sources. Intended audience This report can be useful to industry consultants, manufacturers, suppliers, associations and organizations related to the 3D printing industry, government bodies, and other stakeholders to align their market-centric strategies. In addition to marketing and presentations, it will also increase competitive knowledge about the industry.
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