The future of materials technology in the manufacturing sector

Innovative materials technology has become extremely important in the manufacturing and academic domains. More specifically, these new materials discoveries have given rise to a variety of possibilities with great potential for addressing real-world human issues. The investors in both domestic and international areas thus seem to turn more and more interested as well as significantly contributing to the development of novel material technology trends. As a result, the following article will conduct a deep-dive analysis to access more about how the adoption of high-tech inputs are now being leveraged in the industrial sector.

1. The role of materials technology in the manufacturing industry

The area of materials technology is evaluated as an essential base for the industrial sector. The raw material is of the utmost importance for production given that this resource serves as primary building blocks for creating new materials innovations and high-tech inputs.

The development of the materials technology revolution assists the industrial sector tremendously. Improved product quality, lower manufacturing costs, higher production efficiency, and time savings tend to be all the outcomes of new materials technology. The environmental effect of production is reduced by the fact that the new materials are more recyclable.

To not only strengthen the industry’s competitiveness in the national area but also expand to the global scale, creative ideas of material technology are being promoted domestically.  Lots of new material technology trends in Vietnam are developed and produced for application in a diversity range of fields, including healthcare, automobile, electronics, and construction.

In finalization, materials technology definitely plays an important role in the industrial sector and its advancement will assist to increase productivity, lower prices, and safeguard the environment. A further means by which Vietnam might raise its level of industrial competition more effectively through the study and creation of new high-tech inputs.

2. Discoveries the effect of new materials by conducting an impressive movement on the manufacturing industry

To bring about a modification in the industrial sector, new advanced material discoveries have mostly added a significant contribution. Here are a few examples of new materials innovations and high-tech inputs that have been already created:

2.1. Titanium Fluoride Phosphate

Titanium fluoride phosphate (TiFP) is known as one of the discovered new materials that impressively recorded to come to light in 2018. As its ability to store energy is 3–4 times more than that of currently available batteries on the market, TiFP is obviously a breakthrough material in the electricity storage business. The aforementioned elements, including titanium, fluoride, and phosphate, are widely accessible, inexpensive, and environmentally advantageous. Mobile devices, computers, automobiles, and the energy sector are hence just a few industries where TiFP batteries may be encountered.

TiFP with the capacity for energy preservation could enhance device performance as well as the lifespan of items used whilst simultaneously is able to lower operating costs and maintain product sustainability. Due to the use of less harmful to the environment components, the processing of TiFP once again is emphasized to contribute significantly to representing the corporation social responsibility.

2.2. Cellulose Nanofibers

Cellulose Nanofibers (CNF) are also defined as another type of new materials that were originally created from plant fiber. CNF has high strength and good toughness, and can be used in many different fields, such as automotive industry, aerospace industry, medical and even food industry.

As CNFs are made of plant-based components, their manufacture has little negative effects on the environment along with lessening reliance on chemical conductive materials. Furthermore, CNF may also be recycled and reused, which reduces trash generation and promotes environmental conservation, contributing to achieving sustainable manufacturing.

2.3. Platinum-Gold Alloy

New materials produced by combining platinum and gold are widely referred to by the term platinum-gold alloy. This particular type of metal has the outstanding quality of being able to withstand high corrosion and oxidative impacts, which lengthens the lifespan of the machinery employing it.

The production of medical devices thus wants to make significant utilization of platinum-gold alloy, particularly for impurity couplers and the coupling components that go with them. Additionally, this kind of material is employed in the production of electronic components such as chips and circuit boards as well, where oxidative and corrosion impacts may compromise performance and durability.

With its superior features, Platinum-Gold Alloy has altered how equipment is produced and utilized in a variety of industries, contributing to improvements in product efficiency and sustainability. In which, this type of mentality tends to be a compulsory key to not only minimize dependence on other raw materials but improve the production process’ environmental friendliness as well.

2.4. Composite Metal Foams

A recently created substance called Composite Metal Foams increases the strength and bearing capacity of items. The process of making this substance involves mixing metal sheets with aluminum powder to produce a hollow, light-weight structure that yet has the mechanical qualities of the metal.

Considering composite metal foams have so many varied uses in industries like shipbuilding, automotive, and aerospace, these resources have fundamentally altered the industrial sector’s function. For instance, Composite Metal Foams may be utilized in the aviation sector to produce lighter aircraft components, improve strength, and reduce the bulk of aircraft parts. Moreover, this material may be utilized in the automobile industry to create lighter interior and exterior components, improve fuel economy, and reduce emissions as well.

The manufacturing industry, as a result, stands to benefit greatly from the new materials discovery referred to as Composite Metal Foams, allowing them to boost product durability and toughness whilst reducing bulk and enhancing performance.

2.5. Spider Silk

Spider Silk’s potential applications in the manufacturing industry include the production of products that require elastic properties, such as sportswear and footwear. On top of that, spider silk could be employed to create medical items like seams and tapes, particularly for demanding procedures like surgery or wound healing.

Spider Silk manufacturing, however, continues to have certain difficulties. In nature, spiders are necessary for the formation of spider silk, but this is a challenging process to manage on a big scale. To address the demands of the manufacturing sector, scientists have created artificial means of synthesizing spider silk.

A lot of academic research thus seems to be required to improve the manufacturing process as well as broaden the practical application of spider silk, a possible new material in the manufacturing sector with a wide range of appealing functions.

2.6. Shrilk

Shrilk is another material that can be described as 100% recyclable and elastic than regular flexible polymers. In which, this has considerably impacted the manufacturing industry by playing an important role in creating products such as plastic bags, packaging, and medical products.

With its versatility and high recyclability, Shrilk is becoming one of the potential key trends in the future. It can be used to create medical products, such as film-coated services and surgical lines, as well as in the agricultural sector and shipbuilding industry. Furthemore, the applications of Shrilk are evaluated to conduct a diversity range as well.

2.7. Carbon Concrete

The industrial sector has demonstrated considerable potential for improvement because of the recently produced construction material termed carbon concrete. A blend of regular concrete and carbon fiber is used to create carbon concrete. Carbon fibers make up a small portion of the material (approximately 0.2%) of Carbon Concrete, but they are present in sufficient quantities to greatly boost the material’s strength and resilience.

Carbon Concrete may be utilized for a wide range of projects, from house building to the construction of highways, bridges, and other substantial structures. It has stronger corrosion resistance, hardness, and durability than traditional concrete. Decreased upkeep substitution costs as well as environmental effects are all benefits of implementing carbon concrete.

2.8. Aerogel

The industrial sector has seen a significant transformation as a result of aerogel, one of the most recent materials trends. With their lightweight characteristics, synthetic foam, and 99.8% free space, aerogels are among the lightest and most load-bearing materials on the market right now. Due to this, the manufacturing sector now builds and designs items using a different strategy. Aerogels may drastically reduce the weight of objects like buildings, vehicles, and airplanes that are heavy but need to carry a lot of weight.

One of the best insulating materials now on the market thus is considered to be aerogel. In more detail, this is due to the fact that aerogel has an extremely low thermal conductivity, which makes it more effective at insulating and retaining heat than traditional insulation materials. These unique properties have driven the development of the manufacturing industry and the application of aerogel is extended to various fields, such as in electronics, energy, and medical. With such superior features, it is not surprising that aerogel has been considered one of the newest materials with the potential to change the way products are manufactured and designed in the future.

3. Summary

The subject of materials technology is one that is constantly expanding. Both the manufacturing and consumption of products in a number of industries, from healthcare and electronics to renewable energy and construction materials, are changing as a result of the discovery of new materials and advanced material technologies. Modern building projects frequently employ this method due to their offer of superior insulation, bearing, and durability.

Vietnam then is gradually increasing its manufacturing and research capabilities in this area as an outcome of the emergence of materials technology trends. Research companies and organizations seem to concentrate more deeply on creating high-tech materials to satisfy the demands of both domestic and international markets.

Within the framework of Vietnam Manufacturing Expo (VME) 2023 organized by RX Tradex, new material technology will be introduced and displayed for both domestic and foreign enterprises. This is an opportunity for all the players in the field of materials technology to come together and gain more practical knowledge and experience, thus conducting a strong foundation to support the development of Vietnamese industry.