4D Printing Market Snapshot
“The 4D Printing Market Predictable at $128 million in 2022, is estimated to increase at a CAGR of 35.56% from $400 million in 2023 to $2400 million by 2030.”
What is 4D Printing?
The process of 4D printing is the process by which the 3D printed object changes into a new form by the force of energy input from the outside like temperatures, light or other environmental stimuli.
Four-dimensional printing is an innovative form of additive manufacturing which creates objects using intelligent material which can alter their form and characteristics over the course of time. "The "fourth dimension" in 4D printing is the capacity for the object printed to alter its form or functions in reaction to external influences including temperatures, light, or moisture. The technology is built on the same foundation of 3D printing but it advances it by adding smart materials as well as flexible design.
What is the main difference between 3D Printing as well as 4D Printing?
It is evident that 4D printing has an additional "D" than 3D Printing. What is that and what is it that brings an enormous value this technique? 3D Printing is the process of repeating the same 2D structure layers by layer in print paths, beginning at the bottom, and moving to the top by layer by layer, until the 3D volume is produced.
4D printing is often referred to as 3D printing that transforms with the course of. So, there is a fourth dimension that is included: time. The biggest innovation with 4D printing over 3D printing technology is the ability to alter the shape of the print over the course of time.
An object printed in 4D is produced just like any other 3D printed form. What makes it different is that 4D printing technology makes use of sophisticated and flexible material that can perform different purpose by the addition of hot liquid, light or heat. It's the reason a living object can modify its shape and behave as time passes.
What Is 4D Printing Used For?
Though it's still relatively new process, 4D printing has numerous possible applications, which cover many different fields that include:
Soft robotics
The 4D printing process allows the design of "soft robots' with a flexible body which can adjust to the environment and do tasks traditional robots are unable to perform.
Implants for medical purposes:
The objects printed in 4D can be customized to cater to the requirements of each patient for example, implants that can change in shape to stimulate osteoporosis or release drugs.
Aerospace engineering:
The process of 4D printing can be utilized to design parts for aircraft which are in a position to change shapes in flight in the effort to improve performance as well as reduce the amount of fuel consumed.
Clothing and fashion:
The 4D-printed garments can be adapted to the body's shape as well as the environment. They can alter colour or pattern according to the wearer's preferences.
Construction and Infrastructure:
Technology for printing in 3D could lead to self-assembling structures, or materials which are capable of repairing themselves in the event of damage
Demand Outlook
4D printing is commonly referred to as 4D Bioprinting and shape-morphing technology also known as Active origami. 4D printing is the process of re-designing in 3-D printing using special printing materials that are employed to create objects which can alter their shape following printing. Because of the increasing demand in the requirement for reducing in production and manufacturing costs there is an increase in the revenues generated from printing errors.
This is considered to be a viable V that will boost the rate of growth. It offers a comprehensive analysis of the market and hence the 4D printing industry is anticipated to grow over the next forecast.
Similar to that used in 3D printing is utilized for creating in the process of which there is an application of material upon top of the other. The difference is that in the instance of 4D printing, the size is larger due to a transformation process during a certain period of duration. The printer reacts to its surrounding environment and transforms and shape.
In the near future, there will be a commercialization of this technique. There are significant investments in advancement of research in the region that will offer superior performance, quality and efficiency as well as better capabilities over traditional manufacturing methods.
A variety of industries across the world have been affected by the spread of the pandemic. Because of the need of advanced technologies in the medical field as well as a rising need to manufacture various varieties of medical devices and equipment Let's make use of the technology known as 4D printing. Ventilators were developed by using 3D technology.
The ventilation systems were then incorporated into various other components that were available in the marketplace. The process was quick and efficient of these components and a number of ventilators were manufactured in one day in the outbreak.
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4D Printing Market Dynamics
Growth Factors
The market for 4D printing is expected to experience a significant expansion over the next few years due to the fact that there is an rise in the need to manage resources. This 4D technology is beneficial because it permits consumers to create objects that are flexible enough to change shape or self-assemble in the course of a time which is predicted to be an advantage for industries such as building construction robots, furniture, robotics and many more.
All of these uses made possible by 4D printing are expected to drive industry's growth. 4D printing is a method of 4D printing assists in cutting down on processing time and manufacturing expenses because there is a fierce concurrence among the main market manufacturers and this can drive the primary driver in the expansion of the market. The technology employed to print 4D is similar to 3D printing. It offers less marketing times, less inventory, and less need for capital.
It is a 4D printing technology provides opportunity to consumers to use of limited materials to serve a range of needs. Additionally, it assists in making materials with ability to alter the characteristics and behavior of the material in response to external stimuli. They react to fluctuations in temperature, pressure, and various other conditions of the climatic. These advanced technologies will offer great possibilities to grow in the future. Innovations in 4D printing technology are accelerating 4D printing process are increasing the advancement of different techniques in the defense sector and medical sector.
For medical professionals, they are using 4D printing in the production of tissues that have different mechanical characteristics. Once the implants are in into the body of the patient the elements auto-reform to decrease the number of procedures needed during the procedure. The technology of 4D printing is highly effective in military. Soldiers are capable of wearing camouflage, which helps them be able to adapt to different conditions and various metals.
Researchers are constantly focusing on 3D printing, particularly at the microscopic scale. A new technology is being developed that is the technique based on shape memory alloys in which the fluctuation in the temperature triggers the change in the form of an object.
The printing process that is 4D is believed to be profitable driven. The technology is thought as a groundbreaking printing technique since it offers customers and end-users their customers enhanced performance, higher quality and enhanced efficiency through the application of manufacturing processes.
A growing need for companies that offer software solutions as well as the need for hardware makers due to the is because of the advances in technology will propel the development of the market for 4D printing in the coming years. It will be an advantageous effect on 4D printing market because of the advances in technologies like digitization of 3D printing process, which offers high resolution.
Growth Drivers
"High Demand for Innovative and Cost-Effective Products across Industries"
The rising demand for new products and the increasing level of the competition in the industry of manufacturing are increasing market growth. Innovations in 4D printing can assist businesses in the creation of products that are innovative for less money as well as facilitating access as well as increased effectiveness.
As 4D printing can eliminate intermediaries and reduce costs for labor, many companies are expanding their investment in technology in order to increase their profits while labor costs increase.
Furthermore it is additionally, the 4D printing process adds benefits of managing resources by permitting the use of one system to serve multiple reasons, moving towards sustainable. This is increasing the usage of 4D printing and driving development of the market.
As greenhouse gases and harmful substances are not produced in the process of manufacturing 4D printers These devices are extensively used to reduce carbon emissions while concerns over the rapid pace of climate change increase.
Restraints
"High Initial Cost of Technology"
The high price at the beginning is one of the main factors which can hinder the growth of the market because only a small number of businesses are actively engaged in research and development of 4D printing. Apart from the sophisticated technology, developing the technology requires highly skilled work.
The main components that are used in the printing process are shape memory polymers. They generally require five steps for the production of adaptable items. As these elements are costly, an enormous beginning expenditure is required for the growth of the technology 4D printing.
4D Printing Market Segment Analysis
Why are Programmable Carbon Fibers in High Demand?
"High Rigidity, Tensile Strength, and Lightweight Properties of Programmable Carbon Fibers"
The need for programmable carbon fibers is expected to grow by an 31% CAGR percent over the next 7 years. This is due to carbon fiber's high stiffness, strength to tensile as well as its light weight properties. The material can be altered easily by using active material over flexible carbon fiber, and then reaction with heat. Furthermore, it doesn't need the use of sophisticated actuators, sensors or other electronic components. This also aids in reducing the risk of failure and weight.
In addition, the need for flexible textiles is increasing. These textiles are employed in manufacturing of furniture, product design and transport.
How is the Aerospace Industry Embracing 4D Printing Technology?
"Strong Need to Reduce Cost and Enhance Fuel Economy"
The demand for 4D printing technologies is growing in the aerospace sector. The method of space memory used in 4D printing aids in developing a self-deploying system which can be employed in the aerospace field. Moreover, Airbus S.A.S. is creating a process for cooling airplane engines with the use of a material that is able to adapt to temperatures.
Additionally, the increasing demands on the aerospace sector to lower the cost structure of airlines and improve fuel efficiency is being reduced by the 3D printing revolution. This is expected to grow as we implement the 4D printing process.
Additionally it is true that the number of components for aircraft has increased as a result of the growing demands for air-based services and the technology of 4D printing has potential to reduce the price of spare components by cutting down on their usage and the associated costs.
The technology of 4D printing is growing in popularity from the medical sector. Healthcare industry professionals have shown an active fascination in the advancement of the 4D printing technology. Implants and devices that are intelligent can be made with the help of 4D printing.
As an example, there is an increasing need for implants that grow in accordance with the needs of patients. As the implants that are created can change their shape and dimensions over time in response to medical conditions, the 3D printing can satisfy the requirement for these items by employing advanced material. This is a huge help in efficient treatment for patients.
Competitive Landscape of the 4D Printing Market
- Autodesk, Inc
- Hewlett Packard Corp.
- Materialise NV
- Dassault Systèmes
- ARC Centre of Excellence for Electromaterials Science (ACES)
- Norsk Titanium US Inc
- Aerojet Rocketdyne Holdings Inc.
- Engineering & Manufacturing Services Inc
- Heineken NV
- Stratasys Ltd
- ExOne Corporation
- Organovo Holdings, Inc.
- 3D Systems Inc
Recent Developments in 4D Printing Market
2 Aug 2023: Tokyo University Researchers Develop New 4d Printing Method for More Efficient & Sustainable Manufacturing
Organovo Holdings, Inc and BICO signed an agreement in March 2022 to grant BICO and its related firms a comprehensive license to Organovo's main patent portfolio for 3D bioprinting.
3D Systems stated in May 2022 that it had been selected by Airbus Defense and Space to manufacture essential parts for its industry-first satellite invention, OneSat.
August 2022: MIT declared that its researchers had developed a technique for 3D printing constituents with adjustable mechanical properties, these materials sense the way they are moving and working together with the surroundings. The academics create these dynamic structures using just one material and a single run on a 3D printer.
Fast radius which is a 3D printing startup raised USD 48 million in order to increase its printing capabilities and application engineering in the year 2019.
Autodesk offered new generative design software which works with HP multi jet fusion 3D printers in 2019. There was a specifically designed designed to print workflow for additive manufacturing to streamline the conversion of digital design into physical parts. Autodesk is also working with GE additive. These companies are working to create integrated workflow for GE 3D printers. the use of these printers will provide an advancement indie 4D printing techniques.
4D printing is expected to see increasing applications in the forecast period. Recently, researchers at the Switzerland’s Zurich-based Federal Institute of Technology had manufactured the world’s tiniest stents for treating the artery blockages. These stents are made using 4D printing technology and these stents are 40 times smaller than any other stent offered to the market till date.
4D Printing Market Regional Insights
Why Does the United States Control a Large Portion of the Global Market?
"Massive Investments in Related Research & Development"
North America, led by the United States, is dominating the global market for 3D printing.
The United States is commanding the world market because of its state of the art infrastructure that is ideal for the development of cutting-edge technologies, such as 4D printing. Furthermore, huge investment are focused on research and development in the technology of 4D printing that has increased the research effort in the United States.
The American Heart Association recently awarded the School of Engineering and Applied Science UD$250,000 to develop a 4D printing system that can print tissue for repair of parts of the heart injured by cardiac disease and heart attacks.
Furthermore, scientists in the United States are creating and testing prototypes that will evaluate potential applications, limitations that are imposed and the dangers associated in the use of this technology.
How are South Korea and Japan Boosting Asia Pacific Market Growth?
"Rapidly Increasing Demand for 4D printing from End-Use Industries"
It is believed that the Asia Pacific market is growing rapidly because of the booming manufacturing and construction industries in regions. South Korea and Japan are driving the growth in Asia Pacific due to the increasing demand for end-user industries like construction, defense and military automotive, healthcare and. Because of the frequent occurrence of natural disasters Japan is in high demand for earthquake-resistant buildings and this has led to the demand for 3D printing technologies.
What is the Growth Outlook for 4D Printing in Germany?
"Germany to Experience Increased Usage of 4D Printing"
It is evident that the European market is growing rapidly due to advancements in technology as well as the rising importance of innovation products in the area. Printing using 4D technology is increasing in Germany because of the increasing demands from the auto manufacturing. Growing usage of printing technology in the manufacturing of luxurious cars and other passenger vehicles is increasing the growth of the market in Germany.
Segments Covered in the 4D Printing Market
4D Printing Market By Material
- Programmable Carbon Fiber
- Programmable Wood - Custom Printed Wood Grain
- Programmable Textile
- Programmable Bio Material
4D Printing Market By End User
- Aerospace & Defense
- Automotive
- Construction
- Clothing
- Healthcare
- Utility
- Others
4D Printing Market By Region
- North America
- Europe
- Asia-Pacific
- South Korea
- Latin America
- Middle East & Africa (MEA)
Frequently Asked Questions
What is the current size of 4D printing market?
4D Printing Market Predictable at $128 million in 2022, is estimated to increase at a CAGR of 35.56% from $400 million in 2023 to $2400 million by 2030.
Who are the major players operating in the 4D printing market?
The major players operating in the 4D printing market are Stratasys Ltd, ExOne Corporation, Organovo Holdings, Inc., 3D Systems Inc, Autodesk, Inc, Hewlett Packard Corp., Materialise NV, Dassault Systèmes, Norsk Titanium US Inc, and Heineken NV.
Which are the driving factors of the 4D printing market?
The 4D printing market is estimated to witness great growth during the forecast period as there is an increase in the demand for resource management.
Which region will lead the global 4D printing market?
The North America region accounted largest revenue in 2023 and will lead in the near future.
- SUMMARY
1.1. 4D Printing Market Overview
1.2. Key Insights
1.3. Report Scope
1.4. Research Methodology
1.5. Frequently Asked Questions
1.6. Chapter Outlines
- DECISION-MAKING SUMMARY
- INTRODUCTION
3.1. Overview of 4D Printing
3.2. Key Historical Events
3.3. Structure
3.4. Biochemical Interaction
3.5. Target Indications
3.6. Advantages of 4D Printing
3.7 Challenges associated with 4D Printing
3.8. Future Perspectives.
- MARKET LANDSCAPE
4.1. Methodology
4.2 4D Printing: 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
- COMPANY
5.1. Company Overview
5.1.2 Management Team
5.1.3. Product Portfolio
5.1.4. Recent Developments and Future Outlook
- PARTNERSHIPS AND COLLABORATIONS
6.1. Partnership Models
6.2. 4D Printing: 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
- ACADEMIC GRANTS ANALYSIS
7.1. Methodology and Key Parameters
7.2. 4D Printing: 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
- PUBLICATION ANALYSIS
8.1. Analysis Methodology and Key Parameters
8.2. 4D Printing: 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
- 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 4D Printing
- Appendix 1: Tabulated Data
- Appendix 2: List of Companies
- Autodesk, Inc
- Hewlett Packard Corp.
- Materialise NV
- Dassault Systèmes
- ARC Centre of Excellence for Electromaterials Science (ACES)
- Norsk Titanium US Inc
- Aerojet Rocketdyne Holdings Inc.
- Engineering & Manufacturing Services Inc
- Heineken NV
- Stratasys Ltd
- ExOne Corporation
- Organovo Holdings, Inc.
- 3D Systems Inc