市場調查報告書
商品編碼
1171457
4D印刷的全球市場預測(2022年~2027年)4D Printing Market - Forecasts from 2022 to 2027 |
全球4D印刷市場有望成為其受歡迎程度的主要推動力,因為它能夠提供產品設計自由度。
本報告提供全球4D印刷市場相關調查,提供市場規模和預測,COVID-19影響,市場促進因素及課題,市場趨勢,各市場區隔的市場分析,競爭情形,主要企業的簡介等系統性資訊。
4D printing is an extension of 3D printing technology which allows customers and end-users enhanced efficiency, quality, and performance capabilities over existing manufacturing techniques. For instance, 3D printing technology is primarily used for making static structures from digital data in 3D coordinates, while 4D printing technology involves changing the configuration of the printed design when exposed to different environmental conditions. The primary aspect of the effective implementation of 4D printing technology is the material that is used in the additive manufacturing process of a particular commodity. These materials should have the ability to change their functionality and properties in response to different stimuli.
The ability to provide product design freedom is expected to be the primary driver for its growing popularity.
The popularity of 4D printing is expected to grow on account of its ability to improve the overall speed of the manufacturing cycle. The technology will allow companies to print commodities that can reshape, self-assemble, and react to changing conditions. Its primary property that is mainly expected to benefit the manufacturing industries is its self-assembling ability. For instance, a commodity that is considered too big to be printed through the 3D printing technique can now be done through the 4D printing technology.
There has been a significant increase in interest in and funding for the development of 4D printing.
For instance, researchers from Veer Surendra Sai University, Odisha, India have developed two 4D printed prototypes of biocompatible and biodegradable materials that tend to actuate when put in hot water. Similarly, researchers from Carnegie Mellon University were recently awarded a Manufacturing Futures Initiative (MFI) award for their collaborative project "SimuLearn: Combining Machine Learning, Mechanical and Geometrical Simulation for the Inverse Design and Manufacture of Self-assembling Fiber-reinforced Composites".
Initial Challenge: High Cost
The major challenge for 4D printing technology is the high initial cost as only a few companies are currently involved in its research and development Moreover, the development of this technology requires extremely skilled labour, apart from the sophisticated materials. The most common materials used in 4D printing are shape-memory polymers, which normally require going through five steps to make them adaptable objects. Apart from this, hydrogels are also used. However, they cannot be utilized for rigid structures. The cost of these materials is high and, as such a high initial investment is required for the development of 4D printing technology.
4D printing technology in the healthcare sector is growing rapidly
The ability to program material as desired is expected to create an exhaustive list of applications. The healthcare sector, in particular, has been paying great attention to the development of 4D printing technology. 4D printing techniques can enable the development of intelligent devices and implants. For instance, there is a growing requirement for the development of implants that grow as per the patient's growth. 4D printing technology can meet the demand of making such products by using intelligent materials because the implants manufactured can change their size and shape with time in response to changing body environments and significantly aid in effective patient treatment. Moreover, the growing investment in regenerative medicine is also expected to boost the growth of the 4D printing market in the healthcare industry.
Simultaneously, 4D printing is increasingly adopted in the aerospace and defense industries.
The aerospace and defense segment is expected to hold a significant market share by the end of the forecasted period. The benefits offered by this technology such as the ability to self-repair, are leading to higher research funding in order to further explore its potential and widen its application areas. Moreover, the growing pressure on the aerospace industry to suppress airline cost structure and improve fuel efficiency has been assisted by the revolution embarked upon by 3D printing technology and is expected to further continue with the commercialization of 4D printing technology. Moreover, with the International Air Transport Association (IATA) expecting 7.8 billion passengers to travel in 2036, the competition in the aerospace market is expected to increase. In fact, the backlog of orders has been rising steadily over the years for the major aerospace manufacturer with Airbus recently stating that the value of its backlog orders exceeds US$1 trillion. Moreover, the sub-components of aircraft have also increased as a result of the growing demand for air services, and 4D printing technology could potentially reduce the cost associated with spare parts by minimizing their use and services.
The Americas is projected to hold a significant share of the market
The American region is expected to hold a significant market share and is further anticipated to show rapid growth over the projected period owing to the state-of-the-art infrastructure present in the region, which is favourable for evolving technologies like 4D printing to gain traction. Huge investments are being funnelled into the research and development of 4D printing technology, which has fueled the research activities in this sector. Recently, the American Heart Association granted US$300,000 to the School of Engineering and Applied Science to develop 4D print technology that can print tissue to repair parts of the heart damaged by disease and heart attack. Researchers are developing and testing prototypes to test the potential applications, limitations, and risks associated with the use of this technology. Developed infrastructure in this region is expected to push the adoption of 4D printing technology into various industries like healthcare, automotive, aerospace and defense, textiles, and others.
Key Developments
Segmentation:
Thermo-Responsive
Moisture-Responsive
Photo-Responsive
Others
Aerospace and Defense
Automotive
Healthcare
Others
Americas
Europe Middle East and Africa
The Asia Pacific
List is not exhaustive