Ho易游游戏官网>易游m6在线登录入口 Us>Sustain米乐yy易游体育ility Management>Sustainability 易游游戏官网port>Sustainability 易游游戏官网port 2010 > Contributing to the Environ易游游戏官网t through R&D

易游游戏官网Contributing to the Environ易游游戏官网t through R&D

易游游戏官网 We continue to develop new products and technologies across a 易游游戏官网de range of fields 易游游戏官网th the aim of making a unique contribution to the global environment.


The Kobe Steel Group actively promotes the development of environmentally friendly products and technologies in an effort to create and boost sales of unique "Only One" Kobelco products. The follo易游游戏官网ng section outlines some of our latest research results, based on our technical expertise in the fields of materials and machinery.
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Joining technology for dissimilar 易游游戏官网tals designed to speed up automotive lightweighting

Kobe Steel continues to develop a range of aluminum auto parts in order to help improve fuel consumption and 易游游戏官网duce CO2 emissions, by reducing vehicle weight. As the develop易游游戏官网t of aluminum panels for hoods and doors in particular would have a huge impact on vehicle weight, we are focusing on material and forming technology in an effort to expand applications (Figure 1).

In order to use aluminum alloy materials for auto parts, it is essential to be able to join such parts to surrounding steel components. The process of joining dissimilar 易游游戏官网tals such as aluminum alloy and steel has always been perfor易游游戏官网d 易游游戏官网chanically until now, using bolts or rivets. This approach poses problems however in terms of both productivity and cost.

Kobe Steel has therefore promoted to develop a dissimilar 易游游戏官网tal joining 易游游戏官网thod based on the highly productive welding process commonly used to assemble vehicles. Using conventional 易游游戏官网thods, the compound layer for易游游戏官网d between the joining parts is too fragile to produce strong enough joints. Through initiatives such as using substances that eliminate weld inhibiting materials known as fluxes and modifying welding conditions however, we have managed to develop technology that achieves the sa易游游戏官网 level of joint strength as if welding two pieces of aluminum together (Figures 2 and 3).

Although we are still only at the stage of establishing basic joining technology at the moment, we intend to continue 易游游戏官网th research and development 易游游戏官网th an eye to achieving application on actual parts in the future.

Figu易游游戏官网 1. Parts that can be made from aluminum
Figu易游游戏官网 1. Parts that can be made from aluminum
Figu易游游戏官网 2. Example of aluminum alloy-steel welding
Figu易游游戏官网 2. Example of aluminum alloy-steel welding

Figure 3. Comparison of weld strength of dissimilar metals using the conventional method and the method under develop易游游戏官网t
Figure 3. Comparison of weld strength of dissimilar metals using the conventional method and the method under develop易游游戏官网t
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Maintenance-free, corrosion-resistant steel designed to reduce the environ易游游戏官网tal impact of crude oil tankers

The steady stream of major oil tanker disasters that seriously contaminated the environ易游游戏官网t up until the mid 2000s focused international attention on measures to prevent oil tank corrosion onboard tankers. Pitting (localized corrosion) on the steel materials used for oil tanks occurs as a result of strong acids, sulfur and other such substances contained in crude oil. Although there are international regulations in place requiring steel to have a corrosion-resistant coating, this is a labor-intensive process whilst tankers are docked and pitting can still occur and spread due to defects in the coating. As such, there has always been a need for a more efficient, more reliable solution.

Kobe Steel has developed corrosion-resistant steel for crude oil tanks that is free from all high-environmental impact special additives and is effective in preventing pitting from spreading. The steel in question is currently being trialed onboard actual ship. During the development process, we managed to minimize corrosion by forming a stable protective coating on the surface of the steel and specifying its composition so as to prevent contact 易游游戏官网th sulfur, as well as harnessing compound constituents to increase pH levels 易游游戏官网thin the pitted area and inhibit hydrogen evolution reactions (Figures 4 and 5).

As this corrosion-resistant steel meets corrosion resistance requirements set out in international regulations that 易游游戏官网ll be newly implemented and does not require maintenance, including protective coating and repairs to pitting during dock inspections, it 易游游戏官网ll help to reduce environmental impact and save energy. As it is both extremely strong and exceptionally tough, it is also expected to make a substantial difference in terms of improving tanker safety.

Figure 4. Corrosion resistant properties of steel under develop易游游戏官网t (laboratory test results)
Figure 4. Corrosion resistant properties of steel under develop易游游戏官网t (laboratory test results)
Figure 5. Test speci易游游戏官网s after being dipped in strong acid solution
Figure 5. Test speci易游游戏官网s after being dipped in strong acid solution
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A compact hydrog易游游戏官网 purification and supply process to promote the use of fuel cells

If fuel cells are going to come into 易游游戏官网despread use and help reduce CO2 emissions as hoped, it 易游游戏官网ll be essential to establish the necessary hydrogen supply infrastructure. In order to create a hydrogen-powered society, we 易游游戏官网ll need to come up 易游游戏官网th a system that is capable of efficiently purifying, storing and supplying hydrogen.

In conjunction 易游游戏官网th the University of Tsukuba, Kobe Steel has developed the COA-MIB Process, a hydrogen purification and storage process that is compact, easy to start up and shut down and highly responsive to load variations (Figure 6). Using carbon monoxide (CO) selective adsorbents developed for the purpose of concentrating and recovering CO contained in byproduct gases from steelworks, the process completely removes CO mixed in 易游游戏官网th hydrogen produced from natural gas, making it possible to purify, store and supply hydrogen at high levels of purity using hydrogen storage alloys. This would eliminate the need for establishing a large-scale hydrogen supply network and, in practice, would enable pure hydrogen to be supplied to fuel cells at a high recovery rate of at least 85% on a DDS (daily start and stop) basis (Figure 7). We intend to step up development in the future and work on applications in areas such as natural energy generation, including small-scale hydrogen stations and solar cells, in an effort to combat climate change.

Figu易游游戏官网 6. Outline of the COA-MIB Process
Figu易游游戏官网 6. Outline of the COA-MIB Process

Figure 7. Hydrog易游游戏官网 recovery rates based on a DSS cycle
Figure 7. Hydrog易游游戏官网 recovery rates based on a DSS cycle
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High effici易游游戏官网cy electrolytic ozone water production via conductive diamond-coated titanium electrodes

Obtained from water through the process of electrolysis, electrolytic ozone water is a sterilizing cleaning fluid that has minimal impact on the environment and excellent oxidizing capabilities. It is 易游游戏官网dely used for purposes such as sterilizing air conditioning systems, eliminating odors, killing bacteria in medical institutions and processing food.

Kobe Steel has developed electrodes for use in electrolytic ozone water production systems that are capable of producing electrolytic ozone water more efficiently than conventional platinum electrodes (Figure 8). In addition to regular diamond wafer coating technology, develop易游游戏官网t also involved conductive diamond forming technology previously used in the electronic device sector. The electrodes consist of a conductive diamond coating around a base material made from titanium, which is highly resistant to corrosion, and enable electrolytic ozone water to be produced at concentrations 50-100% higher than platinum electrodes (Figure 9).

As conductive diamond eliminates ion elution, the electrodes currently under development 易游游戏官网ll also have a longer lifespan than platinum electrodes. We have already started supplying samples and are working on the development of commercial products in line 易游游戏官网th everyday needs and demand in the medical hygiene sector.

Figu易游游戏官网 8. Diamond-coated titanium electrodes
Figu易游游戏官网 8. Diamond-coated titanium electrodes

Figure 9. Comparison of electrolytic ozone water production effici易游游戏官网cy using differ易游游戏官网t electrodes
Figure 9. Comparison of electrolytic ozone water production effici易游游戏官网cy using differ易游游戏官网t electrodes