WHAT AND IN WHICH INDUSTRIAL FIELDS CAN INVESTMENTS BE MADE WITH THE FUTURE INDUSTRIAL AND CONSTRUCTION MATERIALS AND TECHNIQUES WE DEVELOPED?
As can be seen from the information we have provided, the materials and techniques we have developed have new and attractive areas of use in many sectors and are fully compatible with the principles of the European Green Deal.
What is the European Green Deal?
The road map announced by the EU on 11 December 2019 for the green transformation process required by the Paris Climate Agreement is called the European Green Deal.
The European Green Deal aims to make Europe the world’s first climate-neutral continent with net zero greenhouse gas emissions by 2050.
The European Green Deal is a radical transformation plan covering many areas from production to trade, from energy to transportation, from agriculture to taxation.
In order to achieve the goals of the European Green Deal, it is planned to implement sustainable investments worth approximately 1 trillion euros in a 10-year period.
To contribute to the implementation of the European Green Deal, important policies such as the Energy System Integration Strategy, Hydrogen Strategy, Renovation Strategy for the building sector, Methane Strategy, Offshore Renewable Energy Strategy, Energy Systems Integration Strategy have been implemented to date. documents have been published.
In order to support the competitiveness and production capacity of Europe’s net zero industry, the “Green Deal Industrial Plan” was announced by the European Commission on February 1, 2023. The Green Deal Industrial Plan consists of four key priority areas: a predictable, harmonized and simplified administrative framework, facilitating access to finance, skills development and open trade for resilient supply chains.
The EU Council, the European Parliament and the European Commission reached a political agreement on the “Net Zero Industry Law” within the scope of the first subheading on 6 February 2024.
The “Circular Economy Action Plan”, announced by the European Commission on 11 March 2020, includes measures that promote circular economy processes throughout the life cycles of products on the basis of environmental protection, support sustainable consumption and aim to keep resources in the EU economy for as long as possible.
For detailed information:
https://commission.europa.eu/strategy-and-policy/priorities-2019-2024/european-green-deal_en
The global economy has become almost integrated with each other today, and if the goods, raw materials or production techniques you produce in one place do not meet the standards of another place, you cannot sell them to that place. you can’t invest there
As can be seen, other economies outside the European Union must also comply with these standards of the European Union, which is the largest market in the world.
Therefore, the future promises very attractive opportunities and a large reshaped market for “raw materials, products, production techniques that we have developed” or similar.
A few of the most basic features of the material we have developed that show “why it can be the industrial raw material of the future” will give you an idea at first glance.
The foam form of the material we developed, namely GrePor, has almost all the physical properties of polyurethane foam. Plus, GrePor is a mineral-based and natural material, A1 class non-flammable, non-toxic when turned into waste, does not create pollution for the environment, and even adds fertilizer to the soil it is mixed with.
It is approximately 10 times more economical than polyurethane.
Its application does not require complex and technical equipment like polyurethane.
And most importantly, it is the future strongest rival of Polyurethane, which has no rivals in its field. With its positive features, it will replace polyurethane in a very short time, and with its fireproof feature, it will be an indispensable material in many branches of industry where polyurethane foam cannot be used or is used unsafely.
We can say that the non-porous form of the material we developed, GreCer, is a type of ceramic that does not require firing. It cures itself under atmospheric conditions and shows ceramic properties when cured. The most important feature of GreCer is that it does not require heat treatment of 900 – 1100 degrees Celsius, that is, baking, in order to show ceramic properties. The firing process equals almost half the cost in ceramic production. Additionally, since GreCer has no relation with heat, you can use GreCer with any material that will be damaged, deformed or destroyed by heat. This feature opens hundreds of new areas of use for our material.
We can already predict that it will turn into unrivaled products, especially in the COMPOSITE MATERIALS INDUSTRY.
Another important feature of both materials is; Since GreCer and GrePor have the same origin, they can be applied in layers in the same application. In other words, a single product with excellent properties can be obtained by applying an extremely hard surface of the desired thinness and a second layer of the desired size, which is extremely light and has excellent heat and sound insulation properties, under this surface. With this property, the interaction and the entire structure are chemically interconnected and show separate physical properties, but a single property. They do not tend to separate from each other due to time, climatic conditions, mechanical or chemical effects, and they have an infinite lifespan.
If we take a look at its other important features;
Using our materials and techniques does not require abandoning old techniques and materials. It can be used with the same machinery and equipment. It can be combined with traditional materials when necessary. These combinations eliminate the negative aspects of traditional materials, prevent their damage to the environment, increase their lifespan, and provide new capabilities.
The material we have developed is extremely capable and much more economical than other raw materials it will replace.
The techniques and applications we have developed do not require high-tech equipment.
Therefore, it has the capacity to provide high turnover and profitability in a short time with very low investment requirements.
Carbon footprint is close to zero
In this way, it will not be affected by the restrictions that are certain to be implemented in the future due to climate change, and it is unrivaled in this regard.
It is an ecological and sustainable material that is compatible with the environment. It is locally abundant throughout the world
Does not require wild mining techniques to obtain
And with its many uncountable advantages, it promises high and permanent profits for investment in the areas where it will be used.
By making the necessary investments and carrying out certification studies in line with the requirements of the market, our unrivaled material and the products produced from it are ready to take their place in the market on a global scale.
DETAILED INFORMATION ABOUT THE MATERIAL WE DEVELOPED
The material we developed,
Clay + Natural Pozzolan
IT IS OF ORIGIN AND HAS TWO MAIN FORMS
Non-porous Clay + Natural Pozzolan (GreCer)
We have developed a 100% ecological, non-porous, very hard, resistant to all kinds of natural conditions, unaffected by water, A1 class fireproof, 1600 – 2000 kg/M3 density building material.
Porous Clay + Natural Pozzolan (GrePor)
The insulation material we have developed is 100% ecological, porous, resistant to all kinds of natural conditions, A1 class fireproof, has super insulation ability, 120 – 300 kg/M3 density, 0.040 – 0.050 W/mK insulation coefficient.
These two main forms are used in the techniques and materials we develop.
A NEW TYPE OF CERAMICS THAT DOES NOT REQUIRE FIRING, MODIFIED WITH NATURAL POZOLANS
The material we have been working on for a long time is of clay origin and is widely available all over the world. As a result of our studies; By changing the structure of clay with different natural pozzolans or natural geopolymers, a new material that does not require firing but has ceramic properties has been developed. This material, whose commercial name is GreCer, is the starting point of our project and is 100% natural. It does not contain any synthetic or toxic substances.
Everything that can be done with ceramics can be done with this material using the same techniques. Therefore, its usage area is very wide.
There is only one difference between it and traditional ceramics. This difference does not require firing, which requires a large investment and accounts for almost 50% of the cost in ceramic production. Therefore, huge energy savings lie at the root of the material we developed. It also allows the production of many new products that cannot be made with ceramics. He created his own techniques in this regard.
For example:
Traditional ceramics must be fired between 950 – 1200 degrees Celsius in order to harden and show physical strength. Therefore, it cannot contain any substance other than clay in its structure and must be pure in terms of content. This makes it impossible to use ceramics, whose physical properties are extremely attractive, in many areas.
The fact that the material we have developed exhibits the physical properties of ceramics without requiring firing gives our material extraordinary abilities. Since it is not exposed to heat, it can carry all kinds of assigned materials in its structure and adds the superior properties of the material it carries to its structure.
To explain the issue with a simple example:
Adobe is the oldest building material made by human hands. Plant residues (in the form of fiber) have been mixed into it for thousands of years to strengthen it and provide insulation properties. However, adobe produced in this way is not cooked even though cooking techniques are known. Because when cooked, the organic materials inside will burn and its insulation feature will be lost. Another reason why it is not cooked is that cooking is very laborious and expensive. For this reason, various civilizations have not cooked adobe for thousands of years, knowing that not cooking it would create many disadvantages, and they preferred to use it with its disadvantages (soft texture – excessive exposure to water, moisture and natural conditions) in order to benefit from its insulation feature. Although adobe is not used anymore, it is now possible to produce adobe bricks with plenty of straw in them, which are not affected by water, moisture and other natural conditions, and are very hard and have the desired shape and appearance, with our material.
There are four basic features that people have expected from the materials they have built their homes with for thousands of years.
1 – Being physically strong and not affected by natural conditions. Ability to live a dry, moisture-free life inside
2 – It can be easily heated in winter conditions and does not transfer the cold outside to the inside.
3 – It is cool in summer conditions and does not transfer the heat from outside to the inside.
4 – The material is easy to find and economical
In this context, we focused our project’s priority on these properties of our material. The most important of these features was that the material had insulation properties.
We applied various techniques to add porosity to the base material, GreCer. After a long period of work, we produced a brand new insulation material that is porous, has high insulation values, is physically very strong and sustainable, which we commercially call GrePor.
With all these developments, we finalized our project in line with the requirements of the construction industry and modern construction techniques.
With the features listed above, our material is also the most ideal and unrivaled raw material in the “ECOLOGICAL CONSTRUCTION MATERIALS” market.
As it is known, the ecological product market is growing geometrically exponentially, especially in countries with high levels of prosperity and awareness. This is also the case in the construction materials market. Developing technology and application techniques have made clay, the ancient material of human history, a popular construction material again. Because clay has a tradition of thousands of years and has been used and experienced by almost all civilizations and has proven to be the “BEST, HEALTHIEST” building material.
However, a huge problem arises here that has not yet been solved by the industry. Just as we mentioned in the adobe example, clay is extremely resistant to moisture and water when used naturally, and its physical properties are far below today’s standards without being fired. Of course, it is possible to solve these negative features by using today’s techniques and plenty of additives and cooking. But then the resulting material is not “ECOLOGICAL” and leaves huge carbon footprints behind. Therefore, in order to produce “THE MOST IDEAL ECOLOGICAL CONSTRUCTION MATERIAL”, clay must be used without using chemical additives and without being fired. The only material we have developed that can meet this important detail is the one we have developed, and it will take its place as a “problem solver” in the “ECOLOGICAL CONSTRUCTION MATERIALS” market in a very short time. When we look at the clay-based products produced in the ecological construction materials market, at first glance a very limited product range stands out. Clay wall panels and clay plaster material, made by adding small amounts of some chemical binders to the main material clay, are the main building materials of this sector. The water resistance of both products is almost zero, and the material that encounters moisture and water instantly turns into mud. Very expensive materials, labor etc. This is why the expenditures made for this may be wasted.
In this regard, “ECOLOGICAL CONSTRUCTION MATERIALS”, prototypes of which were produced using our material, not only solved physical problems, but also diversified their options and imagination by offering brand new product types to designers, architects and users in decorative and functional terms.
Likewise, by applying the clay-based 100% ECOLOGICAL PLASTER we have developed in only 3 mm thickness, it can protect even the non-water-resistant materials on the market from water and moisture forever.
The GreGRC construction technique, the details of which you can find on our website and which we developed as an alternative to the standard GRC construction technique, meets all the expectations of the “ECOLOGICAL CONSTRUCTION MATERIAL” concept. With this technique taking its place and becoming widespread in the construction industry, concepts such as ECOLOGICAL BUILDING, GREEN BUILDING, PASSIVE HOUSE, which are only accessible to the upper income and conscious groups, will also be extremely economically accessible to the masses in the middle and low income groups. In this way, the concept of high quality, healthy and low energy consuming sustainable houses and buildings for the masses will no longer be a luxury or utopia. When this happens, low carbon footprint construction and construction techniques, which can be applied on a very small or even micro scale due to costs and insolvency, will become widespread on very large scales. And in this way, concepts that are very difficult to bring together, such as energy efficiency, sustainability and environmental harmony, can be brought together, and this concept, which is a utopia in the construction materials and techniques sector, will go a long way towards realization.
After all these explanations, according to our findings, we can briefly summarize the features that today’s construction industry expects from a material as follows.
1 – Ideal physical strength properties
2 – High insulation values
3 – Low cost
4 – Vital values suitable for human health (no emissions harmful to health during use)
5 – It does not cause any problems for the environment when recycled
6 – Being sustainable
Although the construction industry is one of the three largest industries in the world, it has still not been able to develop a building material that combines the six items listed above.
This is the starting point of our project, and our material is a candidate to be a brand new construction and industrial material that contains these six elements alone.
THE FEATURE THAT MAKES OUR MATERIAL “SPECIAL AND UNRIVALED IN ITS FIELD”
Since both materials (GreCer and GrePor) have the same origin, they can be applied in layers in the same process. In other words, a single product with excellent properties can be obtained by applying an extremely hard surface of the desired thinness and a second layer of the desired thickness that is extremely light and has excellent heat and sound insulation ability under this surface. With this feature, it is molecularly and chemically bonded to each other and shows separate physical properties but a single material feature. They do not tend to separate from each other due to time, climatic conditions, mechanical or chemical effects, and they have an indefinite life.
This material developed by us step by step;
It consists entirely of mineral-based CLAY and a number of different natural pozzolans.
There are many different derivatives all over the world,
When it completes its function and returns to nature, it does not show waste characteristics and instantly becomes a part of nature again. It does not require waste disposal processes.
There is no difference in cost with materials of natural origin and currently used in the industry, it is much more economical in total.
Plus, it is non-flammable, has the ability to take extraordinary details, and can be used in many sectors with minor changes in its content.
It does not contain any chemical or synthetic components that may harm the environment,
It is water-based, only low amounts of water are used in all production and application stages,
Carbon footprint is almost 0,
The mentioned features are general features and important preliminary tests, applications have been made and tested under atmospheric conditions. The results show that this material can be used in many more areas in specific dimensions or that brand new variations based on this material may emerge.
The most basic feature here is that we are talking about a completely ecological product. This trend, towards which all sectors are directed and which is mandatory for their survival, points to our product and similar ones.
At the same time, the main form of the material, its derivatives and the techniques used are protected by industrial property rights.
Content of the Material We Developed
Our material is essentially a single form and does not contain chemical additives to increase its resistance, impermeability, water resistance, etc. We provide these features with the proportions of the ingredients or natural additional materials.
The formulation of our main material, which we call GreCer, is based on the following main formula:
25 – 50% (this ratio can be adjusted according to the desired product properties) geopolymer and pozzolans + 50 – 75% clay feature filler.
The geopolymer and pozzolan formulations used are developed by our company and are natural, geologically originated, reactive materials that gain super-binding properties and are sustainable and candidate to be the industrial raw material of the future.
Clay, which is the main component of the material, has been determined by examining all clay types and conducting experiments and tests for years. The biggest advantage of our material is that the type of clay that should be used is an ordinary, secondary type of clay that is not preferred by the ceramic industry and is found all over the world. Provided that it meets certain specifications, it is possible to obtain it from open pits in an extremely economical and sustainable manner only by the sieving method.
The clay ratio in the main formulation determines the physical and chemical properties of the material.
The content of our foam material, which we call GrePor, is basically based on the simple formulation given above. Depending on the desired foam density, the proportions of the components in the formulation can be adjusted as desired. The process of giving GrePora porosity is based on gas release during the reaction with a natural activator. The gas released and the activator used do not have any negative effects on nature, environment or human health. In fact, after the reaction, the material content becomes forever antibacterial and carries this feature to the material it will be used in.
Below, the materials and techniques we have developed are compared with the approximate global prices of classical materials used in the same areas and for the same purpose, and the cost and environmental advantages that our materials will bring.
PRICES OF THE 2 MAIN MATERIALS WE DEVELOPED
GreCer/kg is 0.25 – 0.30 EURO (depending on the content).
GrePor/kg is 0.50 EURO.
STANDARD MATERIALS ON THE MARKET THAT SHOW SIMILAR PROPERTIES WITH OUR MATERIAL
POLYURETHANE FOAM
It is a synthetic, toxic compound of petroleum origin.
Its use requires expertise.
The equipment used is expensive and technological equipment.
It is extremely flammable and a fire trigger.
When burned, it releases deadly, poisonous gases.
After use, people and equipment must be cleaned with solvent-based toxic solvents.
Once its waste and useful life is over, the product cannot be recycled and poses a toxic threat to nature and human health for centuries.
Even when it is turned into a product, poisonous gas continues to be released into the environment.
The carbon footprint is extremely high.
The price of 1 kg Polyurethane foam = 5 6 EURO/kg.
The ideal polyurethane foam density is 100 – 120kg/M3.
The cost of 1 M3 of polyurethane foam of this density = 500 – 700 Euros.
The cost of our A1 class fireproof GrePor foam material, which will perform the same function and has much superior physical properties and can be used mobilely anywhere, takes the shape of the place where it is applied, is 50 Euros.
ROCK WOOL
120KG/M3 Rockwool = 200 – 250 EURO.
The cost of our A1 class fireproof GrePor foam material, which will perform the same function and has much superior physical properties and can be used mobilely anywhere, takes the shape of the place where it is applied, is 50 Euros.
The molecular breaking point of the binder of stone wool, which is the best known and widely used fireproof insulation material, is around 250 degrees. If this binder disappears, the rock wool does not burn but turns into a pile of dust.
In addition, when rockwool absorbs water into its structure, it is almost possible to return this water to the environment.
It is in the form of plates or mattresses and is pre-shaped and sized.
EPS – XPS
EPS – XPS 15 – 30 kg/M3= 190 – 250 EURO
The price of 1 M3 EPS – XPS is around 190 – 250 Euros.
The cost of our Aı class fireproof GrePor foam material, which will perform the same function and have much superior physical properties and can be used mobilely anywhere, takes the shape of the place where it is applied, is 50 Euros.
Although polystyrene and polyurethane burn very easily, lose their volume immediately at low temperatures, and release deadly gases as a result of combustion, many manufacturers claim that they have mixed certain substances into them or their combinations, thus making them non-flammable.
However, under fire conditions, none of these claims will remain true and, on the contrary, these materials used will be fire triggers. Because the above materials lose their volume at 75 – 80 degrees and catch fire at 110 – 120 degrees, no matter what is added to them for non-flammability.
POLYESTER SYNTHETIC RESIN
It is a synthetic, toxic compound of petroleum origin.
Its use requires expertise.
The equipment used is expensive and technological equipment.
It is extremely flammable and a fire trigger.
When burned, it releases deadly, poisonous gases.
After use, people and equipment must be cleaned with solvent-based toxic solvents.
Once its waste and useful life is over, the product cannot be recycled and poses a toxic threat to nature and human health for centuries.
Even when it is turned into a product, poisonous gas continues to be released into the environment.
The carbon footprint is extremely high.
1 kg Polyester resin 2.5 – 3.0 EURO/kg
A special form of the GreCer material we have developed allows the production of layered shell-shaped products, just like polyester resin applications, and has many superior aspects.
Although 1 kg of Polyester resin is 2.5 – 3.0 Euro/kg;
1 kg of GreCer is 0.25 – 0.30 Euro (depending on its content).
CONCRETE
2400KG/M3 concrete = 95 EURO = 1 kg 0.1 EURO
2mm GreCer equals the durability of 1cm of concrete and is much more flexible and lighter.
It is possible to get the same result, much more durable and flexible, with 5 times less GreCer.
Therefore, 5 kg of concrete = 1 Kg of GreCer.
5kg concrete x 0.1 EURO = 0.5 EURO
Concrete, which is the cheapest alternative, needs to be used 5 times more in order to show minimum GreCer properties. The cost of this is 0.5 Euro.
The cost of using GreCer with the same physical properties is 0.25 – 0.30 Euros.
Moreover, in the use of concrete, logistics, usage problems, excessive weight, curing and compulsory use of iron due to concrete will increase the total cost by at least 100 – 150%.
On the contrary, our GreCer material will reduce the costs much more with its advantages such as logistics, quick results, weight, and the use of much less carrier material.
When all the advantages listed above and the widespread use of our material come together and the extraordinary energy savings that buildings will provide throughout their lifetime, it is clear that the widespread use of our material alone can provide a measurable decrease in carbon emissions.
In conclusion;
R&D activities are based on “KNOWLEDGE” which is extremely difficult, very costly and very difficult to protect.
Technical, experimental, field studies and time-based tests regarding the material we have developed have been completed and the material is ready for industrialization in many branches of industry.
After this process, large-scale industrial applications that can be immediately converted into money, their tests, etc. need to be carried out. Our technical infrastructure, experience and knowledge regarding these are ready. These studies continue in direct proportion to our economic capacity.
We can easily say that we have come a long way in these efforts, despite our limited resources. Some of our works are not currently included on our website or in the documents presented to you. This information will be shared when necessary and with the necessary people.
POSSIBLE INVESTMENT AREAS
AREAS WHERE OUR MATERIAL CAN BE USED
1 – CERAMICS INDUSTRY
https://greenginnovation.com/wp-content/uploads/2021/05/CER-ENG-PDF.pdf
2 – EVERY AREA WHERE POLYURETHANE FOAM IS USED
3 – ALL AREAS WHERE POLYURETHANE FOAM CANNOT BE USED WITH ITS INFLAMMABLE AND RIGID FEATURES
4 – MANY AREAS OF THE CONSTRUCTION INDUSTRY:
http://www.greengconstructions.com/
a – Decorative and functional panels with different features,
b – Very thin, light and artistic coating materials,
c – Very thick and light, porous panels,
ç – Modular multi-economic housing and building production, Modular block house parts, giant lightweight panels,
d – Insulated lightweight tile, panel tile systems
e – Extremely reducing the static load and iron usage in multi-storey buildings, using it instead of concrete in the floor castings between columns, beams and floors, construction of very light buildings
f – Production of real-looking artificial stone, coating materials, etc.
g – Production of new ecologically certified green products with combined use and super insulation properties to eliminate the negative properties of aerated concrete and aerated concrete
h – The surface is covered with decorative stone texture or marble texture, does not require plaster, paint or coating, has extraordinary insulation values, is a new generation very light wall creation and construction elements
i – Production of new generation very light cladding plates whose surface is covered with decorative stone texture or marble texture, which does not require plaster paint or coating, and has extraordinary insulation values
j – Production of decorative bricks and bricks with super insulation values
k – Production of ecological construction materials, Natural clay based ecological plaster sector
5 – AS A CASTING MATERIAL IN THE SOFTWARE AND ORNAMENTS INDUSTRY
6 – DECORATIVE OBJECT PRODUCTION – LIGHTWEIGHT AND VERY ECONOMIC PRODUCTION OF GIANT SCULPTURES – ARCHITECTURAL PIECES – HISTORICAL ARTIFACTS RESTORATION
http://www.greengconstructions.com/grecer-unique-decoration-products/
7 – USING OUR MATERIAL INSTEAD OF POLYESTER RESIN OR EPOXY RESIN IN THE PRODUCTION OF MANY PRODUCTS MADE WITH POLYESTER, EPOXY RESIN
https://greenginnovation.com/wp-content/uploads/2021/05/POL-ENG-PDF.pdf
8 – ALTERNATIVE TO PRECAST (GRC) SYSTEM, MUCH MORE ECONOMIC AND EASIER APPLIED GreGRC CONSTRUCTION TECHNIQUE DEVELOPED BY US
https://greenginnovation.com/wp-content/uploads/2021/05/GreGRC-ENG-PDF-1.pdf
https://greenginnovation.com/wp-content/uploads/2021/05/GreGRC2-ENG-PDF.pdf
9 – FIRE PREVENTION MATERIALS INDUSTRY – SOUND AND HEAT INSULATION INDUSTRY
10 – FOR SHOCK ABSORBING FEATURES AND FIREPROOF INSULATION IN THE AUTOMOTIVE INDUSTRY
11 – AS A SPECIFIC MATERIAL IN THE BALLISTIC INDUSTRY
https://greenginnovation.com/wp-content/uploads/2021/05/REAKTIF-ENG-PDF.pdf
12 – 100% NATURAL AND SUSTAINABLE, VERY LIGHT AND DURABLE DRINKING WATER TANKS, FOOD PROCESSING, FERMENTATION AND BRINE TANKS, UNDERGROUND WASTE WATER – CLEAN DRINKING WATER STORAGE SYSTEMS
https://greenginnovation.com/100-natural-and-…-storage-systems/
13 – COMPOSITE SECTOR
SOME GLOBAL MARKET FIGURES ABOUT OUR MATERIAL
The annual world BUILDING MATERIALS market size is around 6.0 Trillion US dollars.
Approximately 40% of this figure is directly related to the material we developed.
The world annual ECOLOGICAL BUILDING MATERIALS MARKET is around 300 billion US dollars.
It is inevitable that the “ECOLOGICAL” building materials sector, which has a size of only 5% in the world building materials market, will grow rapidly in a very short time as the phenomenon of climate change tends to turn into a disaster…
“ECOLOGICAL” building materials provide buildings with improved efficiency and sustainability in terms of design, construction, maintenance and renovation. According to its standards, it does not harm the environment and its carbon footprint is very low. In conclusion; It is a mandatory choice to “PREVENT GLOBAL DISASTER CAUSED BY CLIMATE CHANGE”.
The market for BUILDING MATERIALS THAT DO NOT SATISFY ECOLOGICAL CRITERIA is around 5.7 Trillion US dollars.
GRC (PRECAST) SECTOR MARKET FIGURES
USD 92.14 billion in 2020
95.76 US Dollars in 2021
It is predicted to be 139.33 US dollars in 2028
WHY IS THE SHARE OF THE GRC SECTOR, WHICH HAS MANY ADVANTAGES, IN THE 2 TRILLION DOLLAR GLOBAL CONSTRUCTION INDUSTRY MARKET IS VERY LOW
Although the product has many advantages over traditional concrete, the cost of machinery and molds required for production is extremely high. Therefore, it is estimated that high initial investment has and will hinder the overall market growth to some extent.
CAN THE NEW AND REVOLUTIONARY GreGRC TECHNIQUE AND THE MATERIAL WE DEVELOPED CHANGE THIS SITUATION..?
Undoubtedly yes… The GreGRC technique, which eliminates the problems that users hesitate about and offers many new and very attractive advantages as explained above, has become a market leader in the Precast sector in a very short time with its practical, solution-oriented application techniques, extraordinary economy brought by the material used and problem-solving oriented features. We predict that its share will rise to the top with an extraordinary acceleration…
GLOBAL SYNTHETIC RESIN MARKET
According to 2020 figures; The global synthetic resin market is around 31 Billion US Dollars, Polyester resins are around 12 Billion US Dollars, Epoxy resins are around 11 Billion US Dollars, and Polyurethane resins are around 8 Billion US Dollars.
COMPOSITE MATERIAL GLOBAL MARKET INFORMATION
In 2019, the world composite market was 11.7 million tons by weight. This figure is expected to be 12.1 million tons in 2020 and reach 13.1 million tons in 2023.
The average volumetric growth figure between 2019 and 2023 is expected to be around 2.7% annually.
In 2019, the world composite market was valued at $90.8 billion (€82 billion). This figure is expected to be $94.4 billion (€85.8 billion) in 2020 and $106.2 billion (€96.5 billion) in 2023.
It is estimated that the average growth figure between 2019 and 2023 will be around 4% annually.
The material we have developed, which can be used instead of synthetic resins, is much more economical and has superior properties than all classical materials.
With a fast, solid and rational marketing strategy, our project has the capacity to replace synthetic resins in many areas in a very short time.