3D Printing Ceramics Market Size to Cross $982 Million Revenue by 2030

3D Printing Ceramics Market Snapshot

“The Global 3D Printing Ceramics Market is expected to grow rapidly at a 18% CAGR consequently, it will grow from its existing size of from $72 Million in 2023 to $982 Million by 2030.”

The 3D printing industry of today is quite a change far from those days when plastic models were all the rage. The modern user has a variety of materials, ranging from hard and flexible plastics to advanced composites. One of the materials that is getting more use across different the industries are ceramic. We briefly touched on ceramic 3D printing while looking at 3D printing with metal but let's go for more of a dive.

Consumer goods like housewares lighting, furniture, tableware toys, and many other items that can be manufactured using 3D printing technology are getting popularity. In addition, medium- to large-scale electronic consumer businesses utilize 3D printing for devices like tablets, smartphone cases phones, and ceramics for the construction of the exterior of items including internal circuits, as well as other things.

The increasing demand for this technology will lead to the growth of the market. Its Global 3D Printing Ceramics Market report offers a comprehensive analysis on the industry. The report provides a thorough analysis of the most important segments as well as trends, drivers as well as restraints and the competitive landscape, as well as elements that play an important role within the marketplace.

Ceramics are usually formed by an amalgam of powders, that are binders or not, and other additives through using traditional techniques like die pressing, injection molding or tape casting. The 3D printing of ceramics a method of creating ceramics under computer control, to create an 3D model of the object that is scanned.

The 3D printing process of ceramics is of superior quality when as compared to traditional 3D printing. The type of ceramic used for 3D printing is able to resist temperatures of up to 1700* Celsius or 3092° Fahrenheit.

Ceramics that print 3D are available in an numerous shades, such as turquoise, and more specific shades of anise as well as oyster blue. They are used to print tableware, and even decoration for the home, from food items to drinks.

3D printing ceramics are used in the creation of solid objects. They are utilized by surgeons, engineers architects, designers, and other professionals to design sketches for students and clients. Ceramic prototypes are also utilized in high-temperature applications in the automobile and aerospace industries.

3D printing ceramics are an extremely secure technique, and includes the use of non-toxic and lead-free gloss. This is expected to boost the production of tableware, kitchen utensils and other tools using this method. Numerous tableware companies have begun using this technique to increase their production. This is a major factor driving the market globally.

Ceramics are also used in a variety of medical products within the health sector, including dental equipment, surgical instruments implants, prosthetics, and equipment for tissue engineering. This is driving in the 3D Printing Ceramics Market. In addition, the increase in the need for high-end 3D printing ceramics that are certified by various governing bodies to be used for medical use is driving this 3D Printing Ceramics Market.

There are some reserves and limitations which limit the overall growth of the market aspects. Factors like less advances in ceramics as compared to plastics and metals due to limited application bases as well as the cost-intensive nature associated with 3D printing ceramics because of their low consumption and the low acceptance of the latest technologies in emerging economies could be the main factors hindering the overall development of Global 3D Printing Ceramics Market.

However, the constant advancements in technology, the increase of spending on 3D printing ceramics and advancements in advanced printers compatible with metals and ceramics provide growth prospects.

Demand Outlook

The demand for 3D printing in ceramic is increasing, since ceramics are now an integral element of interior design and decor. A rising demand for ceramics led to sellers turning to quicker and more efficient technology. The dependence of big sellers of ceramics on laborers who are manual has led to a slowdown in the growth.

Thus, the emergence of 3D printing technology in ceramic manufacturing can create huge opportunities for those in the market. The use of ceramic 3D printing machines to design archetypes and prototypes across a range of industries is also expanding the market.

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Market Dynamics

Growth Drivers

• The application of 3D ceramic printing in dentistry has been identified as a crucial opportunity for growth in the market. The demand for creating fillers and dentures for dental treatment is a crucial trend in the medical field. Ceramics are useful in root canal treatment. Therefore, the global Ceramic 3D Printing market expected to grow rapidly in the coming years. Increased use of ceramics for the aerospace and defense sector is increasing the size of the market.
• Demand for art works and aesthetic items for decorating homes is very extremely high in the residential market. Restaurants and hotels also invest the majority of their profits on improving their interiors and designs. This has resulted in the rise in ceramic 3D printing in recent years. The availability in cutting-edge 3D printing technology is an important factor to consider when analysing the growth of the market. Growing use of 3D printing on ceramic in combination with metallic printing also opened up opportunities for market growth.
• The development of metal and composite materials that can be used in manufacturing and automotive are restricting the market for 3D printing in ceramic

Trends

The popularity of ceramics in powdered form will increase in the years ahead

Resin forms offer flexibility when it comes to additive manufacturing and are great for creating high-resolution products. This market will witness significant expansion in the market estimated at over 7 million dollars in the year 2018 because of the growing use of high-end resins in dentistry restoration.

The advancements in several technologies, including MOVINGLight's UV polymerization technology allows the creation of parts that have up to 99percent ceramic density following the debinding process and then sintering. This makes it possible for resin to be utilized in a variety of applications, including electronic and medical. Furthermore, several players in the industry are launching new materials to enable the additive process. For example, in August 2018, Ackuretta Technologies, launched ceramic resin material to be used in DLP 3D printers. This allows Ackuretta Technologies to expand their presence in the medical field.

The dominance of powdered ceramics is in the market for 3D printing made of ceramic with around two-thirds of the market share due to the development in the development of ceramic powders with new properties that are used for tooling and manufacturing parts. These types are suggested for 3D printers using binding jet or powder and are fairly simple to work with.

The powdered ceramics are available for purchase at a lower price in comparison to other types of products. Furthermore, any excess powder that is discarded from one manufacturing step can be reused. This allows users to suffer costs for materials, which can lead to the demands.

Ceramic 3D printed rapid prototyping of intricate components to increase sales

Rapid prototyping in ceramic is an extremely popular method to test new designs before deploying expensive tools. The market was worth more than 10 million dollars in 2018, and allows makers of complex and large components to avoid the need for costly and repetitive re-tooling in the manufacturing process. Rapid prototyping is utilized in a variety of molds for casting and biomedical due to superior surface finish and dimensional precision of made parts.

Part production is a part of the market for ceramic 3D printing analysis will show gains of greater than 30 percent growth compounded in the coming years, due to the development of improved printers that can be used for a variety of applications. Innovations in additive production allow manufacturers of parts to achieve greater accuracy in dimensional precision and the ease of producing complicated parts.

This helps reduce the overall cost of manufacturing for intricate structures and complicated forms. Furthermore, the use of various ceramic materials like composite ceramics also contributed to the improvement of mechanical properties of the fabricated components which in turn helps to improve the quality of products.

3D Printing Ceramics Market Segment Analysis

It is estimated that the Global 3D Printing Ceramics Market is classified according to Type Form, End-User, and Geography.

Based on Type, the market has been divided into Quartz, Glass Fused Silica and Others. Quartz and fused silica segments are predicted to take the biggest part of the market over the forecast time frame due to the growing the demand for top-quality 3D printing. Fused Silica is distinguished by its distinct characteristics that make it ideal for a variety of applications that require high temperature resistance as well as low thermal expansion and transparency.

Based on form Based on Form, the market is split into Liquid Filament, Liquid and Powder. Powder is the segment that has the highest market share over the forecast time. One factor that could be in the increase in the use of these powders could be due to growing demands for the laser sintering technology in commercial applications, which is fueling the market for this segment. To make the object you desire the powder is placed or fused into layers in the 3D printing.

Based on the end-user The market is divided according to end-users. It is divided into Aerospace & Defense, Healthcare, Automotive and Other. The aerospace and defense segment remains the most significant market share in the coming years. The reason for this are attributed to advancement of new materials as well as growing investments, the demand for products in aerospace applications increases the need for this segment.

 Competitive Landscape of the 3D Printing Ceramics Market

• 3D Ceram
• Lithoz GmbH
• Exone GmbH
• ETH Zurich
• EOS GmbH Electro Optical Systems
• CRP Group
• 3D Systems Corporation
• Materialise NV
• Renishaw PLC
• Tethon 3D
• Stratasys Ltd.

Recent Developments in 3D Printing Ceramics Market

November 6, 2023: ETH Zurich Develops Efficient 3D-Printed Ceramics for Solar Energy Production

November 3, 2023: Joining a growing list of launches and debuts at this year's Formnext, ceramic 3D printing specialist Lithoz will unveil the latest developments in its multi-material additive manufacturing technology.

February 28, 2023:  3D Systems announced a multi-faceted restructuring initiative designed to improve operating efficiencies that include optimizing its European metal printer operations and streamlining its software organization. The initiative is expected to reduce operating expenses in 2023 by approximately USD 2.5 million to USD 3.5 million, and provide an annualized savings of approximately USD 5.5 million to USD 7 million in 2024 and beyond.

May 10, 2022: Stratasys Ltd a leader in polymer 3D printing solutions, announced new manufacturing materials across three different 3D printing technologies, including third-party materials for FDM® 3D printers for the first time. The addition of 16 new materials dramatically expands the use cases addressable by Stratasys for a wide variety of manufacturing settings.

In July 2016, 3D Systems announced a new version of its Cimatron 13 software, which is used for mold-, die- and tool-makers. The new version of Cimatron 13 will help company to cater to the growing demand with better quality product. This will help accelerate manufacturing of molds, dies, and discrete parts.

In June 2016, Materialise NV announced its latest version of the Materialise Mimics Innovation Suite. The suit, with a combination of live 3D Preview and smarter editing tools helps in faster segmentation. The new suite helps researchers and engineers in effective image segmentation and 3D construction with reliability. This product development will help the company to provide better solutions to customers in terms of software synchronization with actual 3D printing.

In June 2016, Renishaw opened a new additive manufacturing solutions center in Pune, India. This new facility helps company provide a secure development environment in which customers can expand their knowledge and confidence using additive manufacturing (AM) technology.

3D Printing Ceramics Market Regional Insights

North America is expected to dominate the global ceramics 3D printing industry over the forecast time which is due to the growth in the use of ceramics in diverse industries of end-use within the region. Construction is on the rise across both the U.S. and Canada. This will likely expand the use of 3D printing using ceramics throughout the time frame forecast.

India, China, and Japan are undergoing a rapid industrialization rate, mostly due to the dramatic increase in population as well as rapid urbanization and the expansion of key industries like food processing, construction electronics, furniture and consumer items.

The market for 3D printing in ceramics within Asia Pacific is anticipated to increase at a rapid rate mostly due to the rise of production in the consumer goods, automotive, and electronic industries. The growing investment in healthcare and fueled by a growing population, the increasing production of military and commercial aircraft along with ongoing developments will help boost markets within the APAC region. 

Europe is among the most important markets for 3D printing using ceramic. The region is expected to provide numerous lucrative opportunities for business players over the forecast time.

Segments Covered in the 3D Printing Ceramics Market

3D Printing Ceramics Market By Type

• Glass
• Quartz
• Fused Silica
• Others

3D Printing Ceramics Market By Form

• Liquid
• Filament
• Powder

3D Printing Ceramics Market By End-User

• Aerospace & Defense
• Healthcare
• Automotive
• Others

 3D Printing Ceramics Market By Region

• North America
• Europe
• Asia Pacific
• Middle East and Africa
• Latin America

Frequently Asked Questions:

What is the projected market size & growth rate of the 3D Printing Ceramics Market?

Global 3D Printing Ceramics Market is expected to grow rapidly at a 18% CAGR consequently, it will grow from its existing size of from $72 Million in 2023 to $982 Million by 2030.

What are the key driving factors for the growth of the 3D Printing Ceramics Market?

Medium to large-scale consumer electronics businesses use 3D printing for equipment such as tablets, smartphone cases, smartphones, and ceramic to build the exterior of products, internal circuits, and others. This increasing demand will foster market growth.

What are the top players operating in the 3D Printing Ceramics Market?

The major players are 3D Ceram, Lithoz GmbH, Exone GmbH, EOS GmbH Electro Optical Systems, CRP Group, 3D Systems Corporation, Materialise NV, Renishaw PLC, Tethon 3D, and Stratasys, Ltd.

What segments are covered in the 3D Printing Ceramics Market Report?

The Global 3D Printing Ceramics Market is segmented on the basis of Type, Form, End-User, And Region.

1. SUMMARY

1.1. 3D Printing Ceramics Market Overview

1.2. Key Insights

1.3. Report Scope

1.4. Research Methodology

1.5. Frequently Asked Questions

1.6. Chapter Outlines

2. DECISION-MAKING SUMMARY
3. INTRODUCTION

3.1. Overview of 3D Printing Ceramics

3.2. Key Historical Events

3.3. Structure

3.4. Biochemical Interaction

3.5. Target Indications

3.6. Advantages of 3D Printing Ceramics

3.7 Challenges associated with 3D Printing Ceramics

3.8. Future Perspectives.

4. MARKET LANDSCAPE

4.1. Methodology

4.2 3D Printing Ceramics: Developer Landscape

4.2.1. Analysis by Year of Establishment

4.2.2. Analysis by Company Size

4.2.3. Analysis by Location of Headquarters (Region-wise)

4.2.4. Analysis by Location of Headquarters (Country-wise)

4.2.5. Analysis by Year of Establishment, Company Size and Location of Headquarters (Region-wise)

4.2.6. Most Active Players

5. COMPANY

5.1. Company Overview

5.1.2 Management Team

5.1.3. Product Portfolio

5.1.4. Recent Developments and Future Outlook

6. PARTNERSHIPS AND COLLABORATIONS

6.1. Partnership Models

6.2. 3D Printing Ceramics: Partnerships and Collaborations

6.2.1. Analysis by Year of Partnership

6.2.2. Analysis by Type of Partnership

6.2.3. Analysis by Year and Type of Partnership

6.2.4. Analysis by Type of Partner

6.2.5. Analysis by Year of Partnership and Type of Partner

6.2.6. Analysis by Type of Partnership and Type of Partner

6.2.7. Analysis by Type of Partner and Parent Company Size

7. ACADEMIC GRANTS ANALYSIS

7.1. Methodology and Key Parameters

7.2. 3D Printing Ceramics: Academic Grants Analysis

7.2.1. Analysis by Year of Grant Award

7.2.2. Analysis by Amount Awarded

7.2.3. Analysis by Funding Institute Center

7.2.4. Analysis by Support Period

7.2.5. Analysis by Funding Institute Center and Support Period

7.2.6. Analysis by Type of Grant Application

7.2.7. Analysis by Purpose of Grant

8. PUBLICATION ANALYSIS

8.1. Analysis Methodology and Key Parameters

8.2. 3D Printing Ceramics: Publication Analysis

8.2.1. Analysis by Year of Publication

8.2.2. Analysis by Type of Publication

8.2.3. Analysis by Type of Conjugate

8.2.4. Analysis by Target Indication

8.2.5. Analysis by Copyright Holder

8.2.6. Word Cloud: Emerging Focus Area

8.2.7. Most Active Publishers: Analysis by Number of Publications

9. SUCCESS PROTOCOL ANALYSIS

9.1. Methodology and Key Parameters

9.2. Key Assumptions and Scoring Criteria

9.3. Success Protocol Analysis

9.4. Assessment of Approved 3D Printing Ceramics

10. Appendix 1: Tabulated Data
11. Appendix 2: List of Companies

1. 3D Ceram
2. Lithoz GmbH
3. Exone GmbH
4. ETH Zurich
5. EOS GmbH Electro Optical Systems
6. CRP Group
7. 3D Systems Corporation
8. Materialise NV
9. Renishaw PLC
10. Tethon 3D
11. Stratasys Ltd.

Research Methodology