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nilpatole · 6 days ago

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Recycled Foam Glass Aggregate Market, Global Outlook and Forecast 2025-2032

The Recycled Foam Glass Aggregate (RFGA) market pertains to the industry focused on producing and utilizing foam glass aggregates made entirely from recycled glass. This material is lightweight, highly insulating, and load-bearing, making it an eco-friendly alternative to traditional building materials. Foam glass aggregate, also known as foam glass gravel, is typically used in construction, providing thermal insulation and promoting free drainage to enhance the energy efficiency and comfort of buildings.

The production process of RFGA involves heating recycled glass to a point where it forms bubbles inside the glass, creating a foam-like structure. This process results in a product that is not only lightweight but also possesses impressive durability and strength. Its superior thermal and sound insulation properties make it suitable for a variety of construction applications, such as sub-bases for floors, landscaping, roofing systems, and more. As a result, RFGA serves as a sustainable choice that helps reduce environmental impact while contributing to greener building practices.

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Market Size

The global market for Recycled Foam Glass Aggregate (RFGA) was valued at approximately USD 618 million in 2023. This market is projected to grow at a compound annual growth rate (CAGR) of 5.50%, reaching an estimated USD 898.99 million by 2032. This steady growth is primarily driven by the increasing demand for sustainable, eco-friendly construction materials, as more industries and governments seek to reduce their carbon footprints and embrace green building practices.

The RFGA market has experienced consistent growth over the years, thanks to its applications in sustainable construction. The rising awareness of environmental issues, coupled with government incentives promoting the use of recycled materials, has fueled this expansion. Furthermore, as more regions embrace green construction standards, the RFGA market is expected to continue its upward trajectory.

Key Statistics

2023 Market Size: USD 618 million

Projected 2032 Market Size: USD 898.99 million

CAGR: 5.50%

The RFGA market is becoming increasingly significant in both residential and commercial sectors due to the mounting focus on reducing energy consumption and minimizing the environmental footprint of the construction industry.

Market Dynamics (Drivers, Restraints, Opportunities, and Challenges)

Drivers

Several factors contribute to the growth of the RFGA market:

Environmental Sustainability: RFGA is made entirely from recycled glass, which helps divert waste from landfills. As environmental sustainability becomes a major focus in the construction sector, the demand for recycled materials like RFGA is expected to increase significantly.

Energy Efficiency: The insulation properties of foam glass aggregates help reduce energy consumption in buildings by improving thermal efficiency. With energy efficiency becoming a priority for new buildings and renovation projects, RFGA’s demand is expected to rise as a preferred material for sustainable construction.

Government Regulations and Incentives: Many governments, especially in North America and Europe, are actively promoting the use of sustainable materials through tax incentives, grants, and regulations that support green building practices. This regulatory push creates favorable conditions for the RFGA market to expand.

Restraints

Despite its advantages, the RFGA market faces several challenges:

High Production Costs: Manufacturing RFGA involves a complex, energy-intensive process. The cost of producing foam glass aggregate is relatively high, especially in the initial stages of production. This can limit the material’s competitiveness compared to traditional insulation materials that are more affordable.

Limited Awareness: Although the popularity of RFGA is growing, many construction professionals and project managers are still unfamiliar with its benefits and applications. This lack of awareness can hinder the widespread adoption of foam glass aggregates.

Opportunities

The RFGA market has numerous growth opportunities:

Expansion in Emerging Markets: As sustainability awareness grows worldwide, emerging markets in Asia-Pacific, South America, and Africa present significant growth opportunities. These regions are increasingly focusing on sustainable construction methods, creating a new demand for materials like RFGA.

Product Innovation: Advancements in foam glass technology could help lower production costs and improve the performance of RFGA. Innovations such as lighter and stronger foam glass aggregates could further boost the market's growth and appeal.

Challenges

The market also faces a few ongoing challenges:

Raw Material Supply: The supply of recycled glass, a crucial raw material for foam glass production, can be inconsistent due to varying regional recycling rates. This could create challenges in ensuring a steady supply of materials, impacting production capabilities.

Competition from Traditional Insulation Materials: Established insulating materials such as polystyrene, fiberglass, and mineral wool dominate the market, posing a challenge to the adoption of RFGA despite its environmental benefits. Convincing industries to switch to more sustainable options remains an obstacle.

Regional Analysis

North America

North America, particularly the United States and Canada, represents a significant market for Recycled Foam Glass Aggregate. The region's market was valued at USD 161.03 million in 2023, and it is projected to grow at a CAGR of 4.71% from 2025 to 2032. The strong regulatory environment in North America promotes the use of sustainable building materials, and increasing public awareness of environmental issues is contributing to higher demand for RFGA.

Europe

Europe is a major market for RFGA, with countries like Germany, the UK, and France driving demand. Europe is focused on reducing carbon footprints, which aligns well with the adoption of foam glass aggregates. The region’s push for green building standards and regulations further promotes the use of recycled materials in construction.

Asia-Pacific

The Asia-Pacific region is expected to see significant growth in the RFGA market. Countries such as China, India, and Japan are experiencing rapid urbanization and increased construction activities, which boost the demand for eco-friendly construction materials. Government policies supporting sustainability in the construction sector are further driving the adoption of RFGA in this region.

South America

The South American market for RFGA is still in its early stages, but countries like Brazil and Argentina are starting to adopt more sustainable construction practices. As environmental concerns increase in the region, the demand for recycled materials is expected to grow.

Middle East & Africa

The Middle East and Africa region, especially countries like Saudi Arabia and the UAE, are showing growing interest in sustainable building materials. While the RFGA market is still in its infancy in this region, it holds substantial potential for future growth as sustainability trends continue to evolve.

Competitor Analysis

Key players in the global RFGA market include:

Womersley’s Ltd

Columbia Green Technologies

Mike Wye Limited

GLAPOR

Glavel

Geocell

GreenBuildingAdvisor

AeroAggregates of North America, LLC

Chalk Down Lime

London Lime

BELGLAS BV

George Harvey Glavel

These companies are focused on expanding their product portfolios, increasing production capacity, and improving the sustainability of their offerings. Strategic partnerships and acquisitions are common as companies look to strengthen their position in the market.

Global Recycled Foam Glass Aggregate: Market Segmentation Analysis

This report provides a deep insight into the global Recycled Foam Glass Aggregate market, covering all its essential aspects. This ranges from a macro overview of the market to micro details of the market size, competitive landscape, development trends, niche market, key market drivers and challenges, SWOT analysis, value chain analysis, etc.

The analysis helps the reader to shape the competition within the industries and strategies for the competitive environment to enhance the potential profit. Furthermore, it provides a simple framework for evaluating and assessing the position of the business organization. The report structure also focuses on the competitive landscape of the Global Recycled Foam Glass Aggregate Market. This report introduces in detail the market share, market performance, product situation, operation situation, etc., of the main players, which helps the readers in the industry to identify the main competitors and deeply understand the competition pattern of the market.

In a word, this report is a must-read for industry players, investors, researchers, consultants, business strategists, and all those who have any kind of stake or are planning to foray into the Recycled Foam Glass Aggregate market in any manner.

Market Segmentation (by Application)

Limecrete Floors

Sub-Base for Modern Floor Slabs

Green Roofs and Landscaping

Slope Stabilization

Lightweight Back Fill

Sports Arenas

Market Segmentation (by Type)

Building Materials

Insulation Materials

Key Company

Womersley’s Ltd

Columbia Green Technologies

Mike Wye Limited

GLAPOR

Glavel

Geocell

GreenBuildingAdvisor

AeroAggregates of North America, LLC

Chalk Down Lime

London Lime

BELGLAS BV

George Harvey Glavel

Geographic Segmentation

North America (USA, Canada, Mexico)

Europe (Germany, UK, France, Russia, Italy, Rest of Europe)

Asia-Pacific (China, Japan, South Korea, India, Southeast Asia, Rest of Asia-Pacific)

South America (Brazil, Argentina, Columbia, Rest of South America)

The Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria, South Africa, Rest of MEA)

FAQ

What is the current market size of the Recycled Foam Glass Aggregate market?

➣ The global Recycled Foam Glass Aggregate market was valued at USD 618 million in 2023 and is projected to reach USD 898.99 million by 2032, growing at a CAGR of 5.50%.

Which are the key companies operating in the Recycled Foam Glass Aggregate market?

➣ Key players include Womersley's Ltd, Columbia Green Technologies, Mike Wye Limited, GLAPOR, Glavel, Geocell, GreenBuildingAdvisor, and AeroAggregates of North America, LLC, among others.

What are the key growth drivers in the Recycled Foam Glass Aggregate market?

➣ Growth drivers include a focus on environmental sustainability, increased demand for energy-efficient buildings, and government regulations promoting the use of recycled materials.

Which regions dominate the Recycled Foam Glass Aggregate market?

➣ North America and Europe currently dominate the market, followed by the growing demand in the Asia-Pacific region.

What are the emerging trends in the Recycled Foam Glass Aggregate market?

➣ Emerging trends include technological innovations in foam glass production, increasing adoption in emerging markets, and growing interest in green building practices across the globe.

Key Benefits of This Market Research:

Industry drivers, restraints, and opportunities covered in the study

Neutral perspective on the market performance

Recent industry trends and developments

Competitive landscape & strategies of key players

Potential & niche segments and regions exhibiting promising growth covered

Historical, current, and projected market size, in terms of value

In-depth analysis of the Recycled Foam Glass Aggregate Market

Overview of the regional outlook of the Recycled Foam Glass Aggregate Market:

Key Reasons to Buy this Report:

Access to date statistics compiled by our researchers. These provide you with historical and forecast data, which is analyzed to tell you why your market is set to change

This enables you to anticipate market changes to remain ahead of your competitors

You will be able to copy data from the Excel spreadsheet straight into your marketing plans, business presentations, or other strategic documents

The concise analysis, clear graph, and table format will enable you to pinpoint the information you require quickly

Provision of market value (USD Billion) data for each segment and sub-segment

Indicates the region and segment that is expected to witness the fastest growth as well as to dominate the market

Analysis by geography highlighting the consumption of the product/service in the region as well as indicating the factors that are affecting the market within each region

Competitive landscape which incorporates the market ranking of the major players, along with new service/product launches, partnerships, business expansions, and acquisitions in the past five years of companies profiled

Extensive company profiles comprising of company overview, company insights, product benchmarking, and SWOT analysis for the major market players

The current as well as the future market outlook of the industry concerning recent developments which involve growth opportunities and drivers as well as challenges and restraints of both emerging as well as developed regions

Includes in-depth analysis of the market from various perspectives through Porter’s five forces analysis

Provides insight into the market through Value Chain

Market dynamics scenario, along with growth opportunities of the market in the years to come

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#Recycled Foam Glass Aggregate Market

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mrhenryharrell · 7 years ago

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Media Alert: Application deadline approaches for CSWD Recycling Market Development grant program

Two weeks remain to apply for grant funds from the Chittenden Solid Waste District.

Williston, VT — The deadline for applications in CSWD’s Recycling Market Development Grant Program is approaching: Applications are due to CSWD by 2pm on Tuesday, October 31st.

The Chittenden Solid Waste District (CSWD) launched this new grant program to encourage innovation for hard-to-recycle products and packaging from Chittenden County.

“We have made huge strides in the past by encouraging investment in recycling markets for specific materials, like asphalt shingles, drywall, and other construction debris,” says Nancy Plunkett, CSWD’s Director of Special Projects. “And we’re excited to support the vision of a new generation of innovators in tackling waste.”

The program will invest up to a total of $30,000 into projects that support or develop recycling markets for targeted materials — those that make up a significant portion of the landfill waste stream, and for which current recycling markets are limited or non-existent. Some examples of hard-to-recycle materials include rigid foam plastic (e.g. Styrofoam), plywood, vinyl siding, tires, glass aggregate, mattresses, carpeting, and more.

“Waste is fundamentally a design flaw,” says Jonny Finity, CSWD’s Marketing & Communication Manager. “Any time you see a garbage truck driving down the road, it should be a reminder of the opportunity we have to design new ways to use, reuse, or recycle the stuff that we call ‘trash.'”

To apply, or to learn more about the program, visit the Recycling Market Development Program webpage.

Media Alert: Application deadline approaches for CSWD Recycling Market Development grant program posted first on Green Energy Times

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concrete-molds-blog1 · 5 years ago

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Are Concrete Molds Waterproof?

Bridges could use long beams of excessive-power concrete to decrease the variety of spans required. Occasionally, other structural wants might require high-energy concrete. If a construction have to be very inflexible, concrete of very excessive strength could also be specified, even a lot stronger than is required to bear the service loads. Strengths as high as a hundred thirty MPa (18,900 psi) have been used commercially for these causes https://columbiamachine.com/concrete-molds/.

A wide number of tools is used for processing concrete, from hand tools to heavy industrial machinery. Whichever tools builders use, nonetheless, the target is to produce the desired building material; components must be correctly mixed, positioned, formed, and retained within time constraints.

Accelerators velocity up the hydration (hardening) of the concrete. Typical materials used are calcium chloride, calcium nitrate and sodium nitrate.

Air entrainment admixtures are often utilized in freeze–thaw climates to minimize the potential for frost injury. Pervious concrete additionally permits rainwater to filter via roads and parking heaps, to recharge aquifers, as an alternative of contributing to runoff and flooding.

Larger earthquakes can generate very massive shear loads on buildings. These shear loads topic the construction to both tensile and compressional masses. Concrete constructions without reinforcement, like different unreinforced masonry buildings, can fail during extreme earthquake shaking. Unreinforced masonry constructions represent one of the largest earthquake dangers globally. These dangers could be decreased through seismic retrofitting of at-threat buildings, (e.g. faculty buildings in Istanbul, Turkey).

<h2>Tips For Using Concrete In Architecture</h2>

Admixtures are added to switch the treatment rate or properties of the fabric. Mineral admixtures use recycled materials as concrete ingredients. Conspicuous supplies embody fly ash, a by-product of coal-fired energy plants; ground granulated blast furnace slag, a byproduct of steelmaking; and silica fume, a byproduct of industrial electric arc furnaces.

However, use of chlorides may trigger corrosion in steel reinforcing and is prohibited in some countries, so that nitrates could also be favored, despite the fact that they are less effective than the chloride salt. Accelerating admixtures are especially useful for modifying the properties of concrete in chilly weather. Concrete is robust in compression, as the combination effectively carries the compression load. However, it's weak in pressure because the cement holding the aggregate in place can crack, allowing the construction to fail. Reinforced concrete provides either metal reinforcing bars, steel fibers, aramid fibers, carbon fibers, glass fibers, or plastic fibers to carry tensile hundreds.

Very low-strength—14 MPa (2,000 psi) or much less—concrete could also be used when the concrete must be light-weight. Lightweight concrete is often achieved by including air, foams, or lightweight aggregates, with the facet impact that the strength is lowered. For most routine makes use of, 20 MPa (2,900 psi) to 32 MPa (4,600 psi) concrete is commonly used.

Its usage worldwide, ton for ton, is twice that of metal, wooden, plastics, and aluminum mixed. Globally, the prepared-combine concrete trade, the most important segment of the concrete market, is projected to exceed $600 billion in income by 2025. In contrast to modern concrete structures, the concrete used in Roman buildings was often covered with brick or stone. Wet-combine shotcrete, nevertheless, includes the usage of pre-mixed concrete. The concrete has already been prepared and therefore only involves one pump.

Bacteria similar to Bacillus pasteurii, Bacillus pseudofirmus, Bacillus cohnii, Sporosarcina pasteuri, and Arthrobacter crystallopoietes enhance the compression energy of concrete through their biomass. Not all bacteria increase the energy of concrete considerably with their biomass.[citation needed] Bacillus sp. can reduce corrosion of reinforcement in strengthened concrete by up to 4 occasions. pasteurii increases resistance to acid.[citation needed] Bacillus pasteurii and B.

Any interruption in pouring the concrete may cause the initially placed materials to begin to set earlier than the next batch is added on high. This creates a horizontal airplane of weakness called a chilly joint between the two batches.

The general embodied vitality of concrete at roughly 1 to 1.5 megajoules per kilogram is therefore decrease than for many structural and construction supplies. Another strategy to mass concrete structures that minimizes cement's thermal byproduct is the usage of roller-compacted concrete, which uses a dry combine which has a a lot decrease cooling requirement than standard moist placement. It is deposited in thick layers as a semi-dry material then roller compacted into a dense, sturdy mass.

<h3>Share Your Construction Industry Knowledge</h3>

<ul><li>It is value noting that this value is predicated on mix proportions for concrete of no more than 20% fly ash.</li><li>This means that transportation only accounts for 7% of the embodied vitality of concrete, while the cement manufacturing accounts for 70%.</li><li>One space of the concrete life cycle worth noting is the fact that concrete has a very low embodied vitality relative to the amount that's used.</li><li>This is primarily the result of the fact that the supplies utilized in concrete building, similar to aggregates, pozzolans, and water, are relatively plentiful and can usually be drawn from local sources.</li><li>With a complete embodied power of 1.69 GJ/tonne concrete is lower than some other building materials in addition to wood.</li></ul>

Once the combo is where it must be, the curing course of have to be controlled to ensure that the concrete attains the specified attributes. During concrete preparation, various technical particulars could have an effect on the quality and nature of the product. Modern concrete is often prepared as a viscous fluid, so that it might be poured into forms, that are containers erected within the field to offer the concrete its desired form. Concrete formwork could be prepared in a number of methods, similar to slip forming and metal plate development. Alternatively, concrete can be blended into dryer, non-fluid varieties and utilized in manufacturing facility settings to manufacture precast concrete products.

The upside to using moist-mix shotcrete is that dry-combine shotcrete creates extra waste (excess powder that falls to the floor), more rebound off the wall, and moist-mix shotcrete can place a bigger quantity in a smaller amount of time. In the years following the development of the Ingalls Building in 1904, most excessive-rise buildings had been manufactured from metal.

sphaericuscan induce calcium carbonate precipitation in the floor of cracks, including compression energy. Pervious concrete is a mixture of specially graded coarse combination, cement, water and little-to-no fine aggregates. Mixing the ingredients in a fastidiously controlled course of creates a paste that coats and bonds the mixture particles.

<h2>Www.designingbuildings.co.uk</h2>

Construction in 1962 of Bertrand Goldberg's 60-story Twin Towers in Chicago sparked renewed interest in using strengthened concrete for high-rises. The Pantheon has exterior foundation partitions which are 26 toes broad and 15 ft deep and made from pozzolana cement (lime, reactive volcanic sand and water) tamped down over a layer of dense stone mixture.

In the 1980s, coinciding (apparently by likelihood) with the "Right to Buy" laws being brought in, it was discovered that many of the publish-struggle concrete council houses had been faulty. The defect stemmed from the poor high quality steel rods used of their construction, which were discovered to endure corrosion and subsequent metallic fatigue over time. Though PRC houses bought previous to 1984 could have certified for presidency grants to help restore them, these grants are not available and present owners are forced to pay the repair burden alone. Even if you have appropriate trendy development house insurance, such work is unlikely to be covered in your policy. As mentioned above, concrete could be very sturdy in compression, but weak in tension.

<h3>Characteristics Of Concrete</h3>

forty MPa (5,800 psi) concrete is instantly commercially obtainable as a more sturdy, though costlier, possibility. Higher-energy concrete is usually used for bigger civil initiatives. Strengths above forty MPa (5,800 psi) are sometimes used for particular building components. For instance, the decrease flooring columns of excessive-rise concrete buildings might use concrete of 80 MPa (eleven,600 psi) or more, to keep the size of the columns small.

While insulation reduces vitality loss by way of the building envelope, thermal mass makes use of walls to retailer and release energy. Modern concrete wall techniques use both exterior insulation and thermal mass to create an power-environment friendly building. Insulating concrete forms (ICFs) are hole blocks or panels made of both insulating foam or rastra that are stacked to type the shape of the partitions of a building and then full of reinforced concrete to create the structure. Energy necessities for transportation of concrete are low as a result of it is produced domestically from native sources, typically manufactured inside one hundred kilometers of the job website. Similarly, relatively little energy is used in producing and combining the uncooked materials (although massive amounts of CO2 are produced by the chemical reactions in cement manufacture).

It is predicted that to keep pace with calls for in South East Asia and sub-Saharan Africa, cement manufacturing may have to extend by 25% by 2030. A load cell is fitted to the tensile tester to measure tensile pressure. In addition a tensile test is commonly used to measure other properties of materials corresponding to Young’s modulus of elasticity, yield stress, elongation, pressure and ultimate tensile stress.

<h3>Concrete In Architecture ( : A Material Both Stigmatised And Celebrated</h3>

Once in place, concrete offers nice energy efficiency over the lifetime of a building. Concrete partitions leak air far less than those made from wooden frames. Air leakage accounts for a large share of power loss from a home. The thermal mass properties of concrete increase the effectivity of each residential and industrial buildings. By storing and releasing the power needed for heating or cooling, concrete's thermal mass delivers yr-round advantages by decreasing temperature swings inside and minimizing heating and cooling prices.

The hardened concrete contains interconnected air voids totaling roughly 15 to 25 %. Water runs through the voids within the pavement to the soil beneath.

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aslowlymagicalcollection-blog · 6 years ago

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Recycled Glass Aggregates Market Dynamics, Segments, Size and Demand 2018 - 2028

Over the past few years, the construction industry has shifted its focus to the environmental impact of many construction materials used in the global market. The construction industry have heavy demand from the primary aggregate sources, it is projected that approximately 160 million tons of aggregates are used annually. Hence it is considerable to develop alternate aggregate sources such as recycled glass aggregates in the global market.

The recycled glass aggregates are produces with the use of waste materials such as plastics which can be used as building blocks, hence eliminating the need of disposal and plastic pollution across the globe. Recycled glass aggregates can be used as a replacement for concrete and also the powder form of recycled glass aggregates can be used as a gluing element in the construction industry. Additionally, glass is one of the materials which can be recycled indefinitely, and hence the use of recycled glass for recycled glass aggregates products reduces the use of raw materials and energy.

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Recycled glass aggregates have a massive prospect to grow and moderately replace traditional construction aggregates in the global market. The foremost driver of the recycled glass aggregates market is the safety concern for working population, without compromising on the aggregate quality. Recycled glass aggregates are widely used in commercial and industrial buildings, and structures in the global market. The global recycled glass aggregates market is estimated to grow with a prominent CAGR over the forthcoming years.

Recycled Glass Aggregates Market Dynamics:

Recycled glass aggregates has numerous environmental and economic advantages such as; the closed-cell porous structure holds any organic porosity from glass pollution, recycled glass aggregates fines don’t require additional energy consuming recycling processes, the drying shrinkage of concrete foams is considerably reduced with the addition of glass fines in recycled glass aggregates, the potential ASR (alkali-silica reaction) traditional concrete glass fines can be organized with a custom-made blended designsand the absorbent structure of light-weight concrete delivers sufficient space for recycled glass aggregates enlargement and significantly reduces the concrete cracking owing to the ASR (alkali-silica reaction).

Market players are focusing on expanding their presence in regions where the recycled glass aggregates industry is growing at a rapid rate. Also, key players are focusing on entering into tie-ups with local vendors, distributors and recycled glass aggregates companies to promote their products this factors are estimated to act as a catalyst for the growth of recycled glass aggregates market in the near future. The recycled glass aggregates industry is projected to register steady growth due to high rate of urbanization in emerging countries of Asia Pacific, coupled with increasing population. This rapid growth in the residential sector in urban as well as semi-urban areas in the global market contributes significantly to the recycled glass aggregates market growth. Countries such as United States, Brazil, Russia, China and India are expected to create several jobs over the forecast period, which in turn, will propel the overall demand for recycled glass aggregates in all the end use segment globally.Furthermore, the growing applications of recycled glass aggregates in commercial and industrial sectors are expected to propel the growth of the overall recycled glass aggregates market in the near future.

Recycled Glass Aggregates Market segmentation:

Recycled glass aggregates Market can be segmented on the basis of resin type, technology and end use.

By resin type, the recycled glass aggregates market can be segmented into:

Glass cullet recycled glass aggregates

Glass fines recycled glass aggregates

On the basis of end use,recycled glass aggregates market can be segmented into:

Commercial

Residential

Industrial

Recycled Glass Aggregates MarketRegional Outlook:

North American and European countries have presence of all industrial and commercial sectors alongside with the existence of globally prominent players, which is a boon for the recycled glass aggregates market in these regions. Rapid industrialization & construction activities in the Asia Pacific & Latin America region, prominently in China, Brazil, and India, is estimated to fuel the growth of the recycled glass aggregates market. Increasing consumer eagerness to own a house is estimated to drive the residential construction sector, which in turn, will propel the demand for recycled glass aggregates in the global market over the forecast period. For instance, in 2015, it is estimated that more than a million new households were created but only 620,000 new housing units were completed, creating a shortage of 430,370 units. This gap has pushed up home prices and rents, a trend that will continue for the foreseeable future absent imminent policy changes. Additionally, all construction buildings that were erected in the past have a certain period of operation life, after which the structure is dangerous as it can collapse after prolonged use. Additionally, the use of recycled glass aggregates can save money for local governments and other purchasers, create additional business opportunities, save energy when recycling is done on site, conserve diminishing resources of urban aggregates and help local governments meet the diversion goals of production. Therefore, it is expected that the recycled glass aggregates market will see rapid growth in all – developed and developing countries in the future.

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Recycled Glass Aggregates Market: Market Participants Some market participants in the recycled glass aggregates market are:

Arim, Inc.

Coloured Aggregates Inc.

K & B CRUSHERS

Conigliaro Industries

Heritage Glass, Inc

ASG Glass (American Specialty Glass)

Good Planet Laboratories

AeroAggregates, LLC.

EcoProCote

Canadian Recycled Glass

#Recycled Glass Aggregates Market

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