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acp-sheet-design · 2 years ago

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Factors to Know Before Buying an ACP Board

The selection of materials is an essential phase in any architectural design. As much as it contributes to the strength and reliability of the structure, the right materials also enhance the aesthetics. It needs little explanation why it would be a dangerous thing to compromise the structural integrity and quality.

There's a rigorous procedure involved including chemical, mechanical, thermal, electrical, and environmental that decides whether the material is fit to be called best in the construction industry.

The use of Aludecor's ACP sheets is gradually seeing a rise as one of the most trustworthy cladding materials. So, when it comes to design and innovation, ACP boards are definitely a new-age option. However, given the plentiful choices of ACPs in the market, you need to be aware of the basic factors before buying an ACP board.

Let’s have a look at the five golden factors that you cannot miss while deciding on the right ACP board -

Material or product grade

For someone dealing with ACPs, the grades are definitive enough to understand the quality of the product. With Aludecor, you can select from a broad range of material grades that can fit various applications. Choose from AL-45, AL-43, AL-33, AL-312, AL-33D, AL-32, and AL-63 grades which can be cut into dimensions such as 2440mm X 1220mm, 3050mm X 1220mm, 3660mm X 1220 mm.

Scope of application

Depending on the application type, you must select the corresponding ACP sheet. With Aludecor, you can get ACPs of 3mm, 4mm, and 6 mm thickness. Whether you will use it for facade, wall cladding, false ceiling, signage, canopy, corporate identity design, or wall panelling - the right ACP can make a difference. And each of these ACP board varieties has a varying price range.

What is ACP price?

ACP sheet price at Aludecor starts from INR 72. Depending on the series, application, and type, the price varies.

Colour

You cannot go wrong with the choice of colours when selecting the right ACP board. And by 'right' we mean it should be free of any carcinogenic material as any of Aludecor's paint. We strongly practice the use of lead-free paints for ACP coating which otherwise can impair the nervous system as well as hurt the kidneys. What makes Aludecor's coating special is the use of PVDF resin of Kynar 500/ Heyner 5000 in a 70:30 PVDF and Acrylic Resin ratio. With our 'double coat double bake' line, we produce paint with excellent gloss retention and impeccable surface finish.

Type of texture

Over 350+ shades of ACPs are available with Aludecor. There are both glossy and matte sheets. Choose from various series such as Timber, Wabi Wabi, Rustic, Gloz, Sand, Mirror, and more depending on the look and feel of the project. The fire-retardant feature (with Firewall and Firewall A2 series) is a standalone point that proves why Aludecor is spearheading the ACP industry. As the name suggests, these ACP sheets aid in preventing fire through the buildings and protecting lives and properties.

Certification

For those architects, builders, and fabricators ACP is a new subject, certification is the foremost identifier of the product’s authenticity. At Aludecor, you will get certified fire-retardant ACPs. Aludecor Firewall A2 has Factory Production Control certification from ESL (Emirates Safety Lab). It’s noteworthy that Aludecor Firewall A2 is only available in AL-45 grade.

There's also Indian Green Building Council certification given the recyclable properties of the ACP sheets.

There’s more…

What makes ACP sheets preferred by architects and designers is their quick delivery and installation properties. With a substantial supply chain management team and an equally strong logistics support system, Aludecor thrives adroitly in this competitive environment.

An SAP-enabled mechanism is our secret to maintaining a seamless chain of order, production and delivery.

In conclusion

Choosing the right materials highlight engineering skill and also elevate the design. The choice of cladding materials like ACP sheets is a step towards being more ecologically responsible. Find out more about Aludecor’s products at https://www.aludecor.com/ or call 1800 102 0407.

#acp board #acp sheets #acp sheet price #composite sheet

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ieatpockey · 5 years ago

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The No. 1 Question Everyone Working In Stamped Concrete Walkway Nh Should Know How To Answer

After he’s completed Placing his spin on the store’s concrete walls and flooring, audiences could have a watch-popping backdrop for the unforgettable selfie at WOC 2020.

Decorative concrete is the usage of concreteas not only a utilitarian medium for development but as an aesthetic enhancement to a construction, whilst however serving its purpose as an integral Section of the building alone like floors, partitions, driveways, and patios.The transformation of concrete into decorative concrete is attained through the usage of a number of materials that may be used over the pouring system or after the concrete is cured, these supplies and/or units involve but usually are not limited to stamped concrete, acid staining, decorative overlays, polished concrete, concrete countertops, vertical overlays plus much more.

And What's even better, you don’t Stamped Concrete Walkway NH need to be an artist to provide this type of decorative concrete software. It can be utilized on almost any sort of residential or commercial House, indoors or out.

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Rapid expansion of industries in industrial & Household inDecorative concrete materialsoption generate an effect in creating nations around the world for your desire of Architects & Engineers

Utilizing insulated concrete varieties to create vertical substrates for cost-effective and sturdy innovative area therapies.

Decorative concretecan even be utilized to generate lovely driveways for that residential and nonresidential reason.

Decorative concreteis using concrete as not just a medium for development the improvement of its benefit, good quality, or attractiveness to your composition, while however serving its perform as an integral Element of the developing by itself for instance flooring, partitions, patios, driveways.

Providing only the best quality concrete curbing merchandise readily available, with design alternatives that provide you with a decision of profiles, shades and stamped styles that may remember to one of the most discriminating style.

The installation consists of pressing molds into your concrete whilst the concrete continues to be in its plastic condition.

We have been specifically skilled curbing industry experts who set up a long-lasting galvanized steel reinforced landscape edging that is definitely both equally extremely eye-catching and cost-successful.

Critical strategic progress driver adopted by market players. In-depth Evaluation of their methods and implication on competition & progress.

Originally meant to be used as a thin area restoration substance for concrete substrates, polymer cement overlays had been released in to the architectural concrete and professional flooring industries from the early 80s.

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acquiremarketresearch · 5 years ago

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Architectural Shading Systems Market Huge Growth Opportunity by Trend 2019-2024: Skyco Shading Systems, Solinear, Insolroll, etc.

Acquire Market Research has published a new report titled Architectural Shading Systems Market by Type ( Interior Shading Systems, Exterior Shading Systems ) and by Application ( Residential Use, Commercial Use, Industrial Use ): Global Industry Perspective, Comprehensive Analysis, and Forecast 2019-2024.

The report provides insightful details – how clients enhance their basic leadership…

View On WordPress

#AMR #Architectural Shading Systems #Architectural Shading Systems Market #Architectural Shading Systems Market Analysis #Architectural Shading Systems Market Demand #Architectural Shading Systems Market Forecast #Architectural Shading Systems market growth #Architectural Shading Systems market scope #forecast #Key players #latest research reports #News #Trend

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anchorbypanasonic · 3 years ago

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Rooftop Solar — The Future of India

“The wind will always blow and the sun will always shine”. An anonymous quote that might sound like a poetic aphorism but is actually our ticket to sustainability in disguise. Climate change is no longer a hoax but a reality that the world is facing. After decades of denial, the world has finally attained a middle ground and is rigorously pushing the inventions and innovations of renewable energy. Hence, we say that the above quote is our gateway to life in the future because solar energy is one of the top renewable energy sources. It’s high time to make the most of it.

Why should we make the most of solar energy?

The sun is the powerhouse of the entire solar system. It regulates life on earth and generates enough power for the entire world in place of conventional electricity. In the last decade, the popularity and demand for solar panel installations have increased by manifolds.

Solar panels are suitable for commercial, residential, as well as industrial sectors. They capture the sunlight or solar energy and convert it into electrical energy. The installation is also known as the rooftop solar photovoltaic system or solar PV. Today, it is possible to install solar panels with ease and at a much lower rate because of the increased demand and the world’s mission to go green.

Solar energy produces clean electricity, reduces carbon footprint, enhances productivity, and increases access to electricity. It can be installed at the micro as well as a macro level.

Here are some more remarkable benefits of using solar energy.

The only cost associated here is the manufacturing and installation. It barely has minimum to zero maintenance and energy production costs. You can consider it as an investment with high returns.

The storage system allows consumers to use electricity even during cloudy weather.

Rooftop solar doesn’t use up any extra landscape or need separate construction.

Solar energy is not subject to fluctuations in market prices like non-renewable sources of electricity are.

Rooftop solar is preferable to ground-mounted solar

Ground-mounted solar panels are subject to geographical, environmental, and social issues. They require substantial space, which could mean risking existing farmlands, vegetation, wildlife conservation, etc. Whereas, the modern architecture makes it easier and more convenient to install solar panel roofs on infrastructure. With the entry of many other promising innovations like battery storage and microinverters, the installation of rooftop solar has become more favorable.

But depending on your goals and scope, you can choose to install either type of solar panel. Here are some of the key factors you should consider before installing either of them.

You should decide in advance how much space you want to allocate for the solar rooftop system. Because, along with the solar panel, come many electronic components and accessories.

Make sure that the area of installation does not fall under shade.

Pick the type of solar panel system that you want to install. The three types that you can consider are on-grid systems, off-grid systems, and hybrid systems.

To read further content, please visit below page.

https://lsin.panasonic.com/blog/rooftop-solar-the-future-of-india/

#solar panel #solar system #solar energy #solar india #Anchor By Panasonic

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marketstudyreport · 3 years ago

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Trivalent Chromium Finishing Market Analysis, Growth Opportunities and Recent Trends by Leading Manufacturers 2025

30th June 2021 – Global Trivalent Chromium Finishing Market is anticipated to reach USD 379.1 million by 2025. The market is anticipated to grow at a healthy rate in the years to come. The factors that propel the growth of the market include rising awareness about safety and health coupled with governing mandates to impose trivalent chromium as a replacement for hexavalent chromium, and extensive investigation to decrease the use of destructive chemicals in the chrome finishing procedure. The trivalent chromium finishing industry is anticipated to grow at a significant CAGR of 5.4% in the upcoming period as the scope, product types, and its applications are increasing across the globe.

Trivalent chromium finishing market may be explored by system, application, end use, and geography. The market may be explored by system as Plating, Passivation, and Conversion Coatings. The “Trivalent Chromium plating” dominated the market in 2016 and is anticipated to maintain its dominance by 2025. As compared to coating, plating has gained higher share because of huge acceptance in productions such as appliance, architecture, and automotive. Trivalent chromium finishing industry may be explored by application as Decorative, and Functional. The “Decorative” segment dominated the market in 2016 and anticipated to maintain its dominance by 2025. Availability of different shades and product differentiation could be attributed to decorative applications. Chromium improves the appearance of components giving rise to a glossy and corrosion resistant surface.

Trivalent chromium finishing market may be explored by end use as Automotive, Aerospace, Oil & Gas, Machinery, Hydraulics & Heavy, and Others may include Architectural Industry, Appliance Industry, Hardware Industry, and Fastener Industry. The “Automotive” segment dominated the trivalent chromium finishing industry in 2016 and is anticipated to maintain its dominance by 2025. The “Automotive” segment could be further explored as passenger vehicles, commercial vehicles, and two-wheeler.

Europe accounted for the major share of the Trivalent Chromium Finishing Market Size in 2016 and will continue to lead in the forecast period. The factors that could be attributed to the occurrence of regulatory guidelines and rising trend toward compliance of governing rules. Some of the key players that fuel the growth of the trivalent chromium finishing industry comprise Kakihara Industries Co., Ltd., Sarrel Group, Atotech Deutschland GmbH, Ronatec C2C, Inc, Chem Processing, Inc, MacDermid Incorporated. The leading companies are taking up partnerships, mergers and acquisitions, and joint ventures in order to boost the inorganic growth of the industry.

Request a Sample Copy of Trivalent Chromium Finishing Market Report @ https://www.millioninsights.com/industry-reports/trivalent-chromium-finishing-market/request-sample

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researchreportinsight · 3 years ago

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Trivalent Chromium Finishing Market Growth Factors, Trends and Forecast Report to 2025

Request a Sample Copy of Trivalent Chromium Finishing Market Report @ https://www.millioninsights.com/industry-reports/trivalent-chromium-finishing-market/request-sample

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chitrakullkarni · 4 years ago

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Trivalent Chromium Finishing Market Key Company Overview & Financial Performance, 2025

The Global Trivalent Chromium Finishing Market research report provides complete insights on industry scope, trends, regional estimates, key application, competitive landscape and financial performance of prominent players. It also offers ready data-driven answers to several industry-level questions. This study enables numerous opportunities for the market players to invest in research and development.

Market Overview:

Global Trivalent Chromium Finishing Market is anticipated to reach USD 379.1 million by 2025. The market is anticipated to grow at a healthy rate in the years to come. The factors that propel the growth of the market include rising awareness about safety and health coupled with governing mandates to impose trivalent chromium as a replacement for hexavalent chromium, and extensive investigation to decrease the use of destructive chemicals in the chrome finishing procedure.

Key Players:

Asterion

Atotech Deutschland GmbH

Chem Processing, Inc.

Electro Chemical Finishing Co.,

Kakihara Industries Co., Ltd.

MacDermid Incorporated

Midland Polishing and Plating Ltd.

Poeton Industries Ltd.

Ronatec C2C, Inc.

Request free sample to get a complete analysis of top-performing companies @ https://www.millioninsights.com/industry-reports/trivalent-chromium-finishing-market/request-sample

Growth Drivers:

The trivalent chromium finishing industry is anticipated to grow at a significant CAGR of 5.4% in the upcoming period as the scope, product types, and its applications are increasing across the globe.

Trivalent chromium finishing industry may be explored by application as Decorative, and Functional. The “Decorative” segment dominated the market in 2016 and anticipated to maintain its dominance by 2025. Availability of different shades and product differentiation could be attributed to decorative applications. Chromium improves the appearance of components giving rise to a glossy and corrosion resistant surface.

System Outlook:

Plating

Conversion Coatings

Passivation

Decorative Plating

Functional Plating

Decorative Conversion Coatings

Functional Conversion Coatings

End Use Outlook:

Automotive

Oil & Gas

Aerospace

Hydraulics & Heavy

Machinery

Others

Appliance Industry

Architectural Industry

Fastener Industry

Hardware Industry

The “Automotive” segment dominated the trivalent chromium finishing industry in 2016 and is anticipated to maintain its dominance by 2025. The “Automotive” segment could be further explored as passenger vehicles, commercial vehicles, and two-wheeler.

Regional Outlook:

Browse Related Category Research Reports @ https://industryanalysisandnews.wordpress.com/

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architectnews · 4 years ago

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Beijing Galleria-Instreet Renovation

CR Land Galleria Shopping Center, Beijing Public Masterplan Development, Chinese Architecture Images

CR Land Galleria Shopping Center in Beijing

28 Oct 2020

Beijing CR Land Galleria Shopping Center

Architects: Kokaistudios

Location: Beijing, Northern China

Beijing Galleria-Instreet Renovation: Rethinking China’s Public Social Spaces

Building on a solid reputation for urban regeneration and renewal, Kokaistudios recently breathed new life into an overlooked and underused Beijing street. Drawing on design interventions including a network of canopies and increased seating, the project overhauls a neglected district to set a new benchmark for China’s public spaces.

Kokaistudios was recently commissioned by property developer CR Land to redesign Galleria-Instreet (Hereinafter referred to as “Instreet”) in central Beijing. Calling for interventions both large and small, the extensive urban renewal project has transformed what was previously an underused, sparse space by injecting all-important human scale to invite public participation. The result is a clear flow to this formerly disjointed thoroughfare, as well as community-focused lifestyle elements to cater to both residents and visitors.

Located in Chaoyang District in the northeast of Beijing, Instreet is now representative of a hybrid-ized public space prototype that is becoming increasingly popular in Chinese cities. Comprising commercial functions as well as residential, and typically pedestrian, they feature lifestyle elements aimed squarely at communities. In the case of Instreet, these include children’s play areas, a net-work of canopies to provide welcome shade, plentiful public seating, and flexible spaces for markets, concerts, and outdoor events of all kinds.

Despite several core landmarks – namely, a main entrance to both Phoenix Mall plus Sanyuanqiao subway station, as well as a long-redundant concrete bridge – the street lacked visual unity, its vari-ous elements disparate and unconnected. An absence of public seating contributed to not only the street’s empty feel, but also its non-human scale.

Kokaistudios’ first action was to demolish the concrete bridge that once connected the two ends of Instreet. An unnecessary feature along an already pedestrianized route, and disliked by locals, it was largely unused. Furthermore, it brought the negative effect of obstructing the line of sight from one end of the street to the other. Its razing opened up the space significantly, further highlighting the street’s distinct lack of character. At the same time, the bridge’s demolition presented multiple oppor-tunities for design interventions.

A total re-landscaping of the area saw the introduction of instruments aimed at encouraging public interaction and use. In particular, a network of canopies running the length of the street visually inter-rupt the otherwise empty space. Not only does the string of shelters provide welcome shade, come nightfall they light up in a way that is not only atmospheric, but also brings safety and security. Re-sembling an archipelago, they are designed as oases of various activities. These include a children’s play area; clusters of green planters; as well as plentiful benches. At the centre is a versatile open-air platform for events of all kinds, further opening Instreet for future actions and possibilities.

Smaller interventions also play a part in Instreet’s redesign. For example, an intricate rain collection system and custom-made elements such as steel tree root guard meshes are representative of the project’s close attention to detail, and elevation in quality on what was previously in place.

Frontages of existing commercial tenants, as well as future ones, have also been given an overhaul. That includes a new louvered facade to a multipurpose facility comprising a gym, restaurant, and pri-vate club for residents. Now more visually and thematically linked, a mainstay of F&B outlets feature extended terraces, surrounded by planters. The smart wooden decks, combined with rough stone elements, as well as additional trees all make for a pocket of nature in the heart of Beijing. The over-all effect is welcoming, comfortable and in keeping with Instreet’s refined lifestyle focus.

Completed in 2020, Instreet’s shift from underused, disjointed and bare, to a space that invites inter-action through attractive, useful, and flexible facilities has been transformative both for residents, as well as the area’s economy. Now attracting higher-end businesses, as well as community initiatives by way of its multipurpose, open-air events platforms, the urban renewal project sets a benchmark for public space design in China.

CR Land Galleria Shopping Center in Beijing, China – Building Information

Architects: Kokaistudios Location: Beijing, China Site area: 12,000 sqm Date of completion: July 2020 Client: CR Land Service Scope: Urban Renewal + Landscape Design + Architecture Facade Renovation Chief Designers: Andrea Destefanis, Filippo Gabbiani Design Director: Pietro Peyron Architecture Design Manager: Andrea Antonucci Design Team: Andrea Antonucci, Lu Tian, Zhao Muyun, Christine Chen, Marta Pinheiro, Zhu Wenye, Pablo Zhao, Liu Chang

Text: Frances Arnold

Architecture LDI: China Academy of Building Research Landscape Design Development: UNLIMITED METROPOLIS DESIGN Lighting Consultant: BEIJING PRO LIGHTING DESIGN CO., LTD. Curtain Wall Consultant: Beijing Jingtonghua Curtain Wall Consulting Co., Ltd Signage Consultant: Graphia International Limited

Photography: Jin Weiqi

Beijing CR Land Galleria Shopping Center – Instreet Renovation information / text received 281020

Location: Beijing, People’s Republic of China

Architecture in Beijing

Beijing Architecture Designs – chronological list

Beijing Architecture Walking Tours

Beijing Architecture News

The Dog House Design: Atelier About Architecture photograph : Sun Haiting The Dog House in Beijing

Office Environmental Design of Shiyue Media, Lang Park Vintage, Chaoyang District Architects: CUN Design photographers : Wang Ting, Wang Jin Office Environmental Design of Shiyue Media

MS-II Restaurant Architects: WAY Studio photographer : Zeng Hao, Fernie Lai MS-II Restaurant in Beijing

Hualong Private Terminal Space, Capital Airport Design: Shishang Architecture photographer : An Li Hualong Private Terminal Space

Comments / photos for the Beijing CR Land Galleria Shopping Center – Instreet Renovation page welcome

Website: Beijing

The post Beijing Galleria-Instreet Renovation appeared first on e-architect.

#e-architect

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sandlerresearch · 4 years ago

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Smart Glass Market with COVID-19 Impact by Technology (Suspended Particle Display, Electrochromic, Liquid Crystal), Application (Architecture, Transportation, Consumer Electronics), and Geography - Global Forecast to 2025 published on

https://www.sandlerresearch.org/smart-glass-market-with-covid-19-impact-by-technology-suspended-particle-display-electrochromic-liquid-crystal-application-architecture-transportation-consumer-electronics-and-geography-gl.html

“The smart glass market is expected to grow at significant CAGR during the forecast period.”

The smart glass market size is expected to grow from USD 3.8 billion in 2020 to USD 6.8 billion by 2025, at a CAGR of 12.1% during the forecast period. The growth of the smart glass industry is driven by factors, such as the growing adoption of smart glass in automotive application and, declining prices for eletro chromic material.

Other major driving factors for smart glass adoption include supportive government mandates and legislation on energy efficiency. Governing bodies of various countries are increasingly encouraging the use of these energy-efficient products. Smart glass has inherent energy-saving and auto-dimming properties, which reduce its maintenance cost. As a result, the perceived benefits of these glass products are more than the incurred investments.

“Electrochromic technology is likely to hold the largest share of the smart glass market in 2020.”

The electrochromic smart glass technology dominated the smart glass market. The electro chromic technology has long been used in rearview mirrors across the automotive sector. With the recent advancements, it has also found applications in switchable windows, sunroofs, and so on. Though the electrochromic smart window technology is not used much in the architecture or building applications, it is expected to revolutionize the architecture sector in the coming years, accounting for a major share of the market by 2025. Commercial buildings (corporate and government) are expected to be early adopters of the electrochromic technology.

“Transportation application is expected to account for the largest market share in 2020.”

The transportation application accounted for the largest share of the smart glass market in 2020 as many automobile manufacturers have been incorporating smart glass materials in their vehicle designs to benefit from its antiglare property, remote access capacity, and dynamic light emission adjustment properties. In transportation another major application area for smart glass are in the form of doors, windows, sunroofs, windshields, rearview mirrors, and skylights. Smart glasses help minimize heat generation, provide shading, limit the viewing scope, and offer privacy to users.

“UK considered major markets for smart glass”

UK is expected to lead the overall smart glass market in the coming years. Technological advancements and a recovering economy act as driving factors during the growth period. Rapidly increasing energy cost is likely to trigger the demand for energy-efficient products. The ability of smart glass to reduce the overall energy consumption of a building while offering attractive features such as on-demand privacy or glare-control is expected to multiply its applications.In extreme weather conditions prevalent in several areas of Europe, smart glass offers a suitable solution for maintaining the internal temperature of buildings or vehicles, thus saving the overall energy costs.

Breakdown of profiles of primary participants:

By Company: Tier 1 =45 %, Tier 2 =35%, and Tier 3 =20%

By Designation: C-Level Executives =35%, Directors =20%, and Others =45%

By Region: North America = 43%, Europe = 29%, APAC = 21%, and RoW= 7%

Major players profiled in this report are as follows:

Saint Gobain (france)

Research Frontiers (US)

View Inc. (US)

NSG Group (Japan)

AGC Inc. (Japan)

Gentex Corporation (US)

Hitachi Chemical Co. Ltd. (Japan)

Glass Apps (US)

Pleotint, LLC (US)

Smartglass International Ltd.(Ireland)

SPD Control System Corporation (US)

Polytronix (US)

APG Americas (US)

Xinyi Glass (China)

TaiwanGlass Group (Taiwan)

Fuyao Glass (China)

Central Glass (Japan)

Innovative Glass Corp (US)

Research Coverage

In this report, the smart glass market has been segmented based on the technology, applications, and geography.The smart glass market, by technology, has been segmented into electrochromic, photochromic, suspended partical display(SPD), Liquid crystal (LC), micro-blind and thermochromic. In addition, the study segments the market by application into architechture, transportation, power generation (solar), consumer electronics and others. The study also covers the market in regions:North America, Europe, APAC and Rest of the world.

Key benefits to buy the report

The report would help key players/new entrants in this market in the following ways.

This report segments the Smart glass market comprehensively and provides the closest approximations of the overall market size and that of the sub segments across different applications and regions.

The report would help stakeholders understand the pulse of the market and provide them with information on key drivers, restraints, challenges, and opportunities.

This report would help stakeholders understand their competitors better and gain more insights to enhance their position in the market. The competitive landscape section includes competitor ecosystem, product launches and developments, partnerships, and mergers and acquisitions carried out in the market in the recent past.

#Semiconductor &amp; Electronics

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delhi-architect2 · 4 years ago

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Journal - How to Create Photorealistic Architectural Renderings Using Unreal Engine 4

Ronen Bekerman is an industry leader in Architectural Visualization who hosts in-depth tutorials on his specialist blog. Architizer is pleased to present a selection of these guides written by some of the world’s best rendering artists.

Keeping on the trail we took in the previous installment of this series, “A Photographic Approach to Architectural Visualization“, we will check how these effects can be transported into the world of real-time, more specifically with Unreal Engine as the champion of game engines making their way into the realm of ArchViz. To present this case, let’s take a trip down memory lane starting at the point that sparked it all for me and for the ArchViz community at large as well.

Here, Lasse Rode of Berlin-based studio xoio takes Unreal Engine for a good spin as he strives for photorealism using a real-time tool. He does this with his great-looking, and mostly white, Berlin Flat scene as seen on the forums. Follow along as Lasse explains getting started with Unreal Engine 4. Enjoy it!

Introduction

My name is Lasse Rode, and I am part of studio xoio. We are a small agency specializing in visualization and illustration works for architecture and product marketing. Usually we work in a kind of “traditional” 3D environment utilizing applications such as 3ds Max and the like. We are constantly checking out new rendering engines and currently making big use of Corona Renderer, V-Ray and Octane. Each engine has its strengths, and we always try to use it like that: each for the best purpose.

Lasse Rode’s modeling techniques enable realistic renderings to be created in a relatively short amount of time; images via Corona Renderer.

Back in August 2014, I stumbled upon some drop dead gorgeous Unreal Engine 4 architectural visualization tests by Frenchman Koola, which immediately reminded me “The Third & The Seventh” by Alex Roman, only this time it was done in REAL-time.

In my eyes there have been several main trends within our industry: The strive for (photo)realism and becoming faster — if not real time. Not having to wait for your rendering to come out of your render farm was always a dream for us — especially when rendering animations!

For a long time, the main downside of the “real-time-thing” was the lack of quality you could achieve compared with pre-rendered still images or animations. So even though it looked very interesting, the application of it in a visualization context seemed hard to imagine. And honestly, the “gamey” look of it made it hard to sell for high-demanding clients from the architecture and brand fields.

This has changed rapidly. The results possible with real-time engines today are very beautiful and convincing!

Why Unreal Engine?

The release of UE4 gained a lot of attention within our industry, and the possibilities seemed to be endless. The PBR (Physically Based Rendering) material system and the easy-to-use importing pipeline for getting your models into the Unreal Engine were the most compelling reasons for us to give it a try — in addition to the quality of output possible! If you have seen the work of Koola (also available as a download in the Unreal Engine Marketplace), which went viral some weeks ago, you are probably as convinced as we are that Unreal Engine 4 is capable of impressive quality.

In the following article, I want to give you an outline of the workflow I used to make the Berlin Flat scene you can download from the Marketplace and share some techniques and tricks I came across during the process. Some of them I found myself, while others are derived from information I found on the web. The Unreal Engine Forums and Documentation are a vast and great resource, as are the starter content that comes with the engine and the assets and scenes you can get from the Marketplace.

The Berlin Flat

I made a series of images of this flat in a historic building in Berlin at the beginning of 2013 using 3ds Max with the Corona Renderer. It’s a flexible way of handling the color-mapping, which really helped to pull off the very whitish mood of the whole set. This actually was also the reason for choosing it when giving UE4 a try.

I noticed UE4 being very successfully used on scenes with gloomy lighting and busy textures. I suspected it to be not that easy to get precise shadows and GI within an ultra-white interior. And honestly: It is a tricky task!

Above is one of the original renders done with 3ds Max and Corona Renderer. To have a look at the entire set, click here. Below is the UE4 video made with this scene …

youtube

Viewing on mobile? Click here.

The Original Scene

The entire model was done in 3ds Max in a rush, so I actually detailed only the parts that are visible in the final images. Of course, this is an approach that is not possible in a real-time environment. Repurposing the scene for use with Unreal Engine, I had to reduce the scope a bit because furnishing and detailing the complete space would have taken too much time for testing purposes. I decided to export only two rooms: the ones you see on the lower part of the screenshot below.

Exporting the Geometry for Unreal Engine

This is a very easy task IF you keep some things in mind!

It makes sense to split things up a bit. Because the lightmass is calculated with a separate map for every object, it is good to be a bit careful with high values especially on big plain objects like walls and ceiling. Because of this, I only exported the inner faces of the walls that we actually see.

I also added a bit to the top and bottom of the walls to intersect them later with the ceilings. I found this to be a good way to prevent “light leaks” — lighting artifacts that happen when geometry is not closed or not intersecting. This is no problem when having a gloomy scene with lots of busy textures, but because we are going to have an ultra-white space, it is important to get as precise GI as possible, especially in the corners.

The second crucial thing is to create unwrapped UV coordinated for the channel the GI is going to be stored in by Unreal Engine’s lightmass calculation. In 3ds Max, this would be UV-channel 2.

Channel 1 is for use by all the other textures like diffuse, roughness, normal, etc. Unreal Engine counts the channels starting from 0, which can cause some confusion in the beginning — but once you get it, it is fairly simple.

Note: Unwrapping is only important for the light-map channel! For the texture channel, any kind of mapping can work, such as cubic or cylindrical mapping. In most cases, a simple “flatten mapping” in 3ds Max unwrap does the job to create sufficient UV-coordinates!

If you want to put your scene together in UE4 like it has been in your Max-scene, it is good to leave the entire “space” in place when exporting because the object’s coordinates are easier to align. For single objects like chairs and other assets, it is very comfortable to export it only once and install them in your Unreal Engine scene. For this purpose, it is good to move them near the center of your 3ds Max scene because the new object’s pivot in Unreal Engine will be there.

I used high-poly geometry without any LOD (Level of Detail) simplification. This is only recommended in small scenes like this one, but because I’m after a smooth experience and don’t want to have any jagged edges on my furniture, this was logical for me. I have no doubt there’s room for optimization, though!

Make sure your assets are merged into one object and have different material-IDs applied to handle the different materials later in UE4. Then, save your geometry as an FBX file and off you go over to the Unreal Engine editor!

Importing Into Unreal Engine 4

Importing FBX files into Unreal Engine 4 works pretty smooth! I did it in several steps.

I prepared different files that made sense:

The geometry of the room in a separate FBX file

Different file for the assets, each with some objects in them

Just make sure to uncheck the “Combine Meshes” to receive your objects separately and not baked into a single mesh!

Materials

I’m a very straightforward guy and a big fan of simple setups! It’s a philosophical thing, but achieving things with the least effort possible is far superior to using a setup only you understand or you can’t remember when opening a scene half a year later.

So this example of a shader is very simple, consisting of a diffuse map, desaturated and blended with black color. The same map is then color corrected and inverted to put into the roughness channel of the material. Done.

A normal map would have been too much here, but feel free to explore the materials for yourself in the scene!

Here you see the wood material applied to the chairs and the table — a dark dyed wood with a crisp matte reflection revealing the wood structure and texture.

In this image you see two more materials that might be of interest: firstly the curtain, which is backlit by sunlight and is a two-sided material:

You have to set the Shading Model to “Subsurface” and add a constant node with a value smaller than 1 and wire it to the Opacity property of your material to get this effect.

Secondly, the jar in the foreground has a very simple glass material:

It has a fairly dark diffuse color, zero roughness and a high specular value. I also involved a Fresnel-node with a value of 1.5 to control the opacity and refraction. There are a lot more complex ways to generate more realistic glass — but I honestly had some trouble to really get control over that, so this easy glass seems to be good enough.

Note that I checked “Two Sided” and set Translucency Lighting Mode to “TLM Surface” in the Details tab on the left.

One other material I want to show here as well is the floor because this one is the only one to have a normal map applied:

Here you see a material defined by a diffuse color, a roughness texture and a normal map. The diffuse color is a simple very light gray, defined by a 4-value constant.

Roughness looks a bit more complex: On the left, you see the same map three times scaled differently with a TexCoord node. The red channel of each is then multiplied with the others and then wired as an alpha into a Linear interpolation node (Lerp) to blend to values; 0.3 and 0.2 in this example to get a subtle noisy reflection on the floor planks. This is then fine tuned with a “Power” node to get just the right amount of roughness that looks OK.

The normal map again is influenced by a TexCoord and is then flattened a fair amount via a “FlattenNormal” node to get a subtle relief on the material.

Preparing the Assets

Before dropping the assets into your scene, it is always best to apply the materials onto them within the geometry editor. You only have to do it once and can still apply different materials in the main scene if needed. This is a fast process: Here you see it is important to apply different Material-IDs to your objects to put the different materials where they belong!

Building the Scene

This is kind of brief, but: Put the thing together. First you have to drag in the room geometry. The best way is to select all the parts needed and drag and drop them into the empty scene. Afterwards all the furniture and assets have to be placed in the environment.

Here you don’t see the back faces of the outer walls. As I’ve explained above: They are only single-sided for better lightmass calculation.

For this exact purpose it is also good to set the lightmap resolution for your larger objects to a high value, for the walls I set it at 2048, for example.

As mentioned above, light leaks can be an issue. To prevent these, I put black boxes around the whole scene. It looks kind of messy from the outside — though more clean on the inside!

Lighting and Lightmass

The lighting is also a fairly simple setup: I used the “Koola method” — a combination of a sun and planes with spotlights in front of the window to simulate a skylight. It is rather effective and easy to control!

To calculate the global illumination, only a few tweaks are important:

I drastically increased the lighting bounces and the indirect lighting quality. I also decreased the smoothness to 0.6. Details are pronounced better and the shadows don’t wash away so much.

Further to this, I set the direct lighting to a dynamic shadow, which is important to have the light moving later in the animation!

The last step before hitting “Build” is to set the Lighting Quality to “Production”!

This should result in smooth lighting everywhere.

Actually when getting to this point the first time, I was kind of thrilled! This is actually the strongest part of this engine: to thrill you. Being able to move inside my “rendering” in real time was really a delightful moment!

Post Processing

One of the greatest features is the possibility to apply color correction and camera effects just within the editor. This can be done with a Post Process Volume for global settings. I did some tweaks on the saturation, fringing and vignette, the bloom, disabled the auto exposure by setting the min. and max. values to 1 and increased the overall brightness by setting the Exposure Bias to 1.42. I also added a lens flare, which I find really awesome happening in real time!

Setting up the Animation

The ability to move freely inside the scene makes doing animation a very easy and pleasing task because of the instant-feedback nature of the real-time environment. As a frequent user of compositing software, it took not much time for me to adapt to the integrated Matinee tool and set up an animation.

First thing to do is setting up a Matinee Actor.

When opening Matinee, you will see a window with a track section and a curve editor.

Setting up the cameras and animation work is very self-explanatory. Motion is controlled by key frames and curves just like any other animation software. Also the “cutting” work is done just within the Matinee editor.

I created a couple cameras moving slowly through the space: Seeing exactly what you are doing really helps to tweak the timing of cuts and speed of camera movement!

You can see the camera trajectories just in the editor and control the editing on the fly! After getting the rough “cut” done in Matinee, I then exported the complete animation as an AVI and fine-tuned it in Premiere and aligned it to the music.

Conclusion

The entire process starting at exporting from 3ds Max and importing into Unreal Engine 4, working out the shading and lighting to produce the animation and then posting on YouTube took me about one day. This speed is unheard of in ArchViz and reflects very much the key potential that lies in the use of Unreal Engine 4 for visualization works.

Some screenshot details from the animation

The absence of render times in terms of “producing” images really makes the process of creation very flexible and free. The fast feedback of your action is the real revolution!

We are constantly thinking and testing the possibilities of applying this kind of production and workflow into our daily work and our environment as a whole.

There are a lot of possible applications, and we are very eager to explore them!

I hope I gave some insight into my motivation and process and wish a lot of fun with the Berlin flat scene.

Kind regards,

Lasse.

This article was first published on Ronen Bekerman Architectural Visualization Blog in December 2014 and refers to software available at that time. Enjoy this article? Check out the other features in our series on “The Art of Rendering”:

Methanoia Reveals the Story Behind Architecture’s Most Striking Visualizations

When Architectural Visualization Gets It Right: Victor Enrich’s Surreal Art

7 Magical Demonstrations of Hyper-Real Environments

Alex Hogrefe Creates Stunning Architectural Visualizations Using SketchUp and Photoshop

How Technology Will Revolutionize Architectural Representations

The post How to Create Photorealistic Architectural Renderings Using Unreal Engine 4 appeared first on Journal.

from Journal https://architizer.com/blog/practice/details/the-art-of-rendering-real-time-photorealism/ Originally published on ARCHITIZER RSS Feed: https://architizer.com/blog

#Journal #architect #architecture #architects #architectural #design #designer #designers #building #buildings

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latestmarketreport · 5 years ago

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Trivalent Chromium Finishing Market 2020 Key Players, Industry Overview, Supply Chain and Analysis to 2025

Global “Trivalent Chromium Finishing Market” report offers an overview of the market size, share, trends, drivers, and barriers with respect to the Trivalent Chromium Finishing Industry. Latest report on the global Trivalent Chromium Finishing market is a compilation of key market insights and discusses key market dynamics such as drivers, restraints, and opportunities at length. It also provides a comprehensive overview of the market of different regions across North America, Europe, Asia Pacific, South America, Africa and Others.

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Global Trivalent Chromium Finishing Market in-depth statement on the key influencing factors, market statistics in terms of revenues, segment-wise knowledge, region-wise knowledge, and country-wise knowledge are offered within the full study. The Report focuses on manufacturers, suppliers, segmentation according to the application, major players, customers, opportunities, future roadmap, and furthermore. The competitive data type analysis includes capacity, market share, profit margin, market growth, consumer consumption, imports, exports, revenue, and etc.

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What are the market factors that are explained in the report?

Key Strategic Developments: The study also includes the key strategic developments of the market, comprising R&D, new product launch, M&A, agreements, collaborations, partnerships, joint ventures, and regional growth of the leading competitors operating in the Trivalent Chromium Finishing market on a global and regional scale.

Key Market Features: The report evaluated key market features, including revenue, price, capacity, capacity utilization rate, gross, production, production rate, consumption, import/export, supply/demand, cost, market share, CAGR, and gross margin. In addition, the study offers a comprehensive study of the Trivalent Chromium Finishing market dynamics and their latest trends, along with pertinent market segments and sub-segments.

Analytical Tools: The Global Trivalent Chromium Finishing Market report includes the accurately studied and assessed data of the key industry players and their scope in the market by means of a number of analytical tools. The analytical tools such as Porter’s five forces analysis, feasibility study, and investment return analysis have been used to analyze the growth of the key players operating in the market.

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marketnewzstack-blog · 5 years ago

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Global Architectural Dedicated Film Market 2019 - Porter Five Forces Analysis, Growth Opportunities & Forecasts 2024

Global Architectural Dedicated Film market 2019 is a very recent research report which focuses on providing a primary overview of the industry including Segmentation, definitions, implementation, and industry structure. The Global Architectural Dedicated Film Industry analyzes the worldwide markets involving the changing trends, competitive landscapes, and key geographic development status. Expansion strategies and plans are also well discussed along with the processes of manufacturing and cost structures of the product. Supply and demand Figures, import/export consumption, cost, price, revenue, and gross margins are also stated in this report.

Scope and limitation of the Architectural Dedicated Film Market: This Research Mostly pinpoints on the PESTEL analysis (i.e. Political, Environmental, social, Technological, Legal and Economical factors) as they are the opportunity generation as well as the challenging factors of any industry. The technology is changing day by day depending on the consumer's tastes and preferences. Along with the changing market trends, the surrounding Factors also influence changes either positive or negative to any business.

Sample PDF Request Link

Architectural Dedicated Film Market Competitive Outlook: The Profiles of Active Competitors of the Architectural Dedicated Film Market are also analyzed based on their geographical activity, product type, Market Potential, Productions, sales, future strategies, and the technological status Forecast of the leading manufacturers are also included here. This Report is estimated from the global aspect of Market that is the reason this data can assist any consumer or business and help them to observe the rival strategies.

Top Competitors the Global Industry:

Verseidag Taconic-AFD Seaman Corp Heytex Mehler Veik Sioen Serge Ferrari Sattler Guardtex Xinyida ObeiKan Jinda Sika Atex Membrane Chukoh Chem Sijia Hiraoka Kobond Yilong Saint-Gobain

Specific Types: Glass Fabric, Polyester Fabric (PES), ETFE Sheeting

Application/Usage: Tensile Architecture, Tents, Sun Shading and Sun Screening, Print Applications

Geographical Distributions of the Architectural Dedicated Film: North America Country, South America, Asia Country, Europe Country Also Other Countries (Middle East, Africa, GCC)

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Contents covered in the Architectural Dedicated Film Research Report: - Executive Summary. - Profiles of Leading International Players. - Market Dynamics. - Key Players of the Market and the Strategies. - Key Findings of the research.

The report provides a worthwhile analysis of the Competitive landscape and its Dynamics that keeps the user ahead of their respective competitors. The Architectural Dedicated Film Market report provides a five-year forecast estimated on the basis of the market growth. So, with the help of this report user gets a direction to business decisions by having insights into the Global Architectural Dedicated Film Market.

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anchorbypanasonic · 3 years ago

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Why rooftop solar offers a viable future for India

Why should we make the most of solar energy?

Solar energy produces clean electricity, reduces carbon footprint, enhances productivity, and increases access to electricity. It can be installed at the micro as well as a macro level.

Also read: The Solar Energy Potential of Your Roof!

Here are some more remarkable benefits of using solar energy.

The only cost associated here is the manufacturing and installation. It barely has minimum to zero maintenance and energy production costs. You can consider it as an investment with high returns.

The storage system allows consumers to use electricity even during cloudy weather.

Rooftop solar doesn’t use up any extra landscape or need separate construction.

Solar energy is not subject to fluctuations in market prices like non-renewable sources of electricity are.

Rooftop solar is preferable to ground-mounted solar

But depending on your goals and scope, you can choose to install either type of solar panel. Here are some of the key factors you should consider before installing either of them.

You should decide in advance how much space you want to allocate for the solar rooftop system. Because, along with the solar panel, come many electronic components and accessories.

Make sure that the area of installation does not fall under shade.

Pick the type of solar panel system that you want to install. The three types that you can consider are on-grid systems, off-grid systems, and hybrid systems.

#rooftop solar #solar system #solar future #solar energy #solar panel #Anchor #panasonic

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redappletech · 5 years ago

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What Are The Popular Html5 Engines Used For Creating Web-Based Games

With the inclusion of interactive content and the latest technologies, the demand for online gaming has been increasing rapidly. Along with mobile games, the game development companies now are equally focusing upon creating web-based games. HTML5 technology is considered to be a pioneer in revolutionising the scenario of browser-based games. Just like mobile games, web-based games also require high knowledge of system architecture, programming and the ability to use physics blended with appropriate technologies.

To know about the proper implications of HTML5 engines you need to avail tips from a reputed HTML5 game development company.

Given below are some of the competitive game engines equipped with HTML5 technologies for creating immersive and innovative games.

Pixi.js: Fully intended for HTML5 games, Pixi.js is a well known 2D game rendering engine. Developers who do not wish to use WebGL can still make games with enriched content, interactive displays with Pixi.js. Also, games created using it can be deployed across platforms. However, it does not imply that Pixi.js is not supported with WebGL. If you do not know the concept of hardware acceleration, you still can avail its benefit by using Pixi.js.

Stage.js: This is another popular solution when it comes to HTML5 game development. It indeed offers easy and flexible solutions with respect to create 2D games for the first time with the support of JavaScript and HTML5. It is compatible with your favourite platforms and is also open source. Using this you can easily create games on simple physics or dynamic puzzle games.

Kiwi.js: This game engine is highly suitable for developing 2D games compatible with HTML5 browsers. Being integrated with Canvas and WebGL rendering engine it helps in deploying your games across wide ranges of mobile devices and desktops. Moreover, the rich collection of Kiwi plugins enables you to create meaningful gaming experiences related to customisation of achievements by the gamers, growing your game based upon the users’ choices, quest management, advanced integration of physics in games, shades and sprites for all scenarios, and last but not the least social media connector so that the players can share their scores and achievements. Containing one of the best tutorials in the market, Kiwi.js can be recommended for beginners to learn the nuances of creating HTML5 games using a JavaScript engine.

Panda.js: It will give you an authentic taste about the look and feel of a 2D HTML5 game development engine. With its convenient documentation, even novice developers will find it easy for making online games. Pixi.js library will help in the smooth rendering when blended with Panda.js. Also, beautiful particle-based effects can be created here. The performance within the games can be properly tracked by creating custom Google Analytics events. Through the concise local data storage, your games can be sped up.

QICI engine: It helps in integrating game development directly into the browser as it utilises the Phaser engine and on top of it creates its very own interface. Here you do not have to use a code editor until and unless you wish to. The most interesting part is that it helps in creating HTML5 games for mobile devices also. In other words, using QICI engine you can use your favourite web browser, use your favourite code editor, leverage JavaScript language etc. Thus with this engine, you can focus intensely on your game development tasks by depending on functional tools and features.

Conclusion: Based on the nature and scope of your games you can approach a noted HTML5 game development company so that your games can be made unique and versatile. Using the latest resources can facilitate in making the content interactive so that the gamers both serious and casual across the globe can be attracted.

#HTML5 Game Development Company

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thekwandae-blog · 5 years ago

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Innovative Report on Aluminum Solar Shading Systems Market with Competitive Analysis, New Business Developments and Top Companies : Hunter Douglas, Warema, TRYBA, etc.

The Global Aluminum Solar Shading Systems Market Study that gives a meticulous investigation of the current scenario of the market size, share, demand, growth, trends, and forecast in the coming years. The report firstly introduced the Aluminum Solar Shading Systems Market basics: definitions, classifications, applications and market overview; product specifications; manufacturing processes; cost structures, raw materials and so on. Then it analyzed the world main region market conditions, including the product price, profit, capacity, production, supply, demand and market growth rate and forecast etc. Companies Profiled in this report includes : Hunter Douglas, Warema, TRYBA, Lutron, Kawneer, Draper, EFCO Corporation, QMotion, Rainier Industries, C/S Corporate, Unicel Architectural, Skyco, Levolux, Perfection Architectural Systems, Insolroll, Altex, Louvolite. GET THE INSIDE SCOOP OF THE SAMPLE REPORT @[click here] The research study gives a complete list of all the leading players working in the Global Aluminum Solar Shading Systems Market. Moreover, the financial status, company profiles, business strategies and policies, along with the latest expansions in the worldwide market have been mentioned in the research study. Research objectives: • To study and analyze the Global Aluminum Solar Shading Systems market size by key regions/countries, product type and application, history data from 2012 to 2019, and forecast to 2023. • To understand the structure of Aluminum Solar Shading Systems Market by identifying its various sub-segments. • Focuses on the key Global Aluminum Solar Shading Systems Market players, to define, describe and analyze the value, market share, market competition landscape, SWOT analysis and development plans in next few years. • To analyze the Aluminum Solar Shading Systems Market with respect to individual growth trends, future prospects, and their contribution to the total market. • To share detailed information about the key factors influencing the growth of the market (growth potential, opportunities, drivers, industry-specific challenges and risks). • To project the size of Aluminum Solar Shading Systems Market, with respect to key regions, type [Indoor Solar Shading Systems, Outdoor Solar Shading Systems] and applications [Public Building Shade Systems, Residential Building Shade Systems]. • To analyze competitive developments such as expansions, agreements, new product launches and acquisitions in the market. READ DETAILED INDEX OF FULL RESEARCH STUDY AT @ [click here]

In this report you will also find additional deals into key geographical segments of Global Aluminum Solar Shading Systems Market and deliver details about their current and former share. Ongoing trends, upcoming Challenges, future better regional investments and many other influencing factors have been considered and presented. The regions United States, Europe, China, Japan, Southeast Asia, India & Central & South America have been studied in depth to gain better market penetration and assure exact analysis. Top manufacturers have been given prime importance to make sure their strategies are understood and their position in this particular market can be elucidated. In the end, the report includes Global Aluminum Solar Shading Systems Market new project SWOT analysis, investment feasibility analysis, investment return analysis, and development analysis. The report also presents a round-up of vulnerabilities which companies operating in the market must avoid in order to enjoy sustainable growth through the course of the forecast period. Thanks for reading this article; you can also get individual chapter wise section or region wise report version like North America, Europe or Asia (China, India, Japan etc) or Oceania [Australia and New Zealand]. Fundamentals of Table of Content: 1 Report Overview 1.1 Study Scope 1.2 Key Market Segments 1.3 Players Covered 1.4 Market Analysis by Type 1.5 Market by Application 1.6 Study Objectives 1.7 Years Considered. 2 Global Growth Trends 2.1 Global Aluminum Solar Shading Systems Market Size 2.2 Aluminum Solar Shading Systems Growth Trends by Regions 2.3 Industry Trends. 3 Market Share by Key_Players 3.1 Global Aluminum Solar Shading Systems Market Size by Manufacturers 3.2 Global Aluminum Solar Shading Systems Key_Players Head office and Area Served 3.3 Key_Players Product/Solution/Service 3.4 Enter barriers in Aluminum Solar Shading Systems Market 3.5 Mergers, Acquisitions, Expansion Plans. Get Discount on this report @ [click here]

#Aluminum Solar Shading Systems Market #Aluminum Solar Shading Systems #amr

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mandarworld · 4 years ago

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Smart Glass Market by Manufacturers, Type and Application, Regions, Segmentation and Forecast to 2023

Smart Glass Global Market – Overview

Global Smart Glass Market is expected to grow at CAGR of ~18% and expected to generate revenue of US ~$8 billion by the end of forecast period.

Smart Glass market is expected to grow at 18% CAGR (2016-2022). These are the key factors that have acted as driver for the Smart Glass market However, the high upfront cost, difficult installation. Lack of awareness about the usability and benefits among consumer are some of the factor which is hindering the growth of Smart glass Market. Smart Glass Market Research Report 2018 - Global Industry analysis by Key Companies, Type, Application, Market Share, Growth Rate, and Key Country forecast to 2023. Smart Glass Industry depth analysis is done for North America, Europe, APAC and Rest of the World. Smart Glass market growing at rapid pace over the forecast period of 2018 to 2022

Get Free Sample of Smart Glass Global Market Report @https://www.marketresearchfuture.com/sample_request/1830

Global Smart Glass Market is growing enormously due to the increasing demand of smart glasses in various sector such as architecture and construction sector, automobile and aviation among others. The smart glass also offer key benefits such as less maintenance, high durability, enhanced operation efficiency, blocking the UV rays, reduced heating, air-conditioning and lighting cost are some of the major factors which are helping the market to grow. The Government policies around the globe and initiative such as eco-friendly and green buildings are also helping market of smart glass to grow.

Europe has some of the major key players such as Schott AG, and SmartGlass International, Ltd. among other are manufacturing wide range of intelligent glass products due to its significant usage in various industries and is expected to generate the largest revenue in the global market followed by North America and Asia-pacific.

Key Players

The prominent players in the market of Smart Glass are- Active Glass Technologies PLC (U.K.), Asahi Glass Company, Ltd. (Japan), Corning,Inc.(U.S.), Saint-Gobain S.A(France), Schott AG(Germany), SmartGlass International, Ltd.(Ireland),Research Frontiers, Inc.(U.S.), Raven brick LLC(U.S.), Pleotint LLC(U.S.), PPG Industries, Inc.(U.S.), DuPont(U.S.), Nippon Sheet Glass Co., Ltd.(Japan), LTI Smart Glass Inc.(U.S.),Polytronix, Inc.(U.S.), Hitachi Chemical Co., Ltd(Japan), GlasNovations, Ltd. (U.K.), Scienstry, Inc. (U.S.), SPD Control Systems Corporation (U.S.) among others.

Smart Glass Global Market - Segmentation

The Smart Glass market can be segmented in to 3 key dynamics for the convenience of the report and enhanced understanding;

Segmentation by Technology : Suspended particle devices, thermochromics Devices, Liquid crystal devices and Electrochromic devices.

Segmentation by Verticals : Architecture, Transportation, Power generation plant, consumer electronics, automotive, aviation among others.

Segmentation by Regions: Geographical Regions - North America, Europe, Asia Pacific and Rest of The World.

Industry News:

June 2018 – Rokid, Chinese artificial intelligence and smart hardware company, unveiled three new hardware innovations products, which are the Rokid Me Portable Smart Speaker, the Kamino18 AI Voice Dedicated Chip, and the new Rokid AR Glass. The Rokid Glass offers object recognition and improves efficiency at dissipating heat. Rokid Glass designed to supports Wi-Fi positioning that enables smart detection and indoor position navigation.

June 2018 – Plessey Semiconductors, a developer of optoelectronic technology solutions, entered into partnership with Vuzix, a specialist in the development of technologies for smart glasses to develop technologies for a new generation of AR smart glasses.

June 2018 – Toshiba entered into partnership with Ubimax, the global market leader for enterprise wearable computing solutions, to launch dynaEdge DE-100 and AR100 Viewer Assisted Reality smart glass solution. This glass solution is designed to provide industry workflow which enable the workers to achieve high performance in their tasks.

Smart Glass Global Market - Competitive Analysis

The market of Smart Glass appears to be highly competitive. To maintain the market position and to drive the market growth, various dynamic and diversified international organizations, domestic organizations and as well as new entrants form a competitive landscape. Market leaders are innovating continuously and increasingly seeking market expansion through various strategic mergers and acquisitions, innovation, increasing investments in research and development and cost-effective product portfolio.

Access Report Details @https://www.marketresearchfuture.com/reports/smart-glass-market-1830

Regional Analysis

Europe is dominating the market of Smart Glass due to high popularity of smart glass as building material and huge investment in this region by major key players such as Saint-Gobain SA and Smart Glass International, Ltd. North America is also showing healthy growth due to supportive government policies for energy efficient products and presence of key industry player such as LTI Smart Glass Inc. (U.S.), Polytronix, Inc. (U.S.) whereas In Asia-Pacific ,the market of smart glass has expanded due to increasing demand for energy efficiency, heat and light control, automated shading among others resulting in popularity of smart glass thus generating more revenue which will help to increasing the market .

Table Of Contents

1 Market Introduction

1.1 Introduction

1.2 Scope Of Study

1.2.1 Research Objective

1.2.2 Assumptions

1.2.3 Limitations

1.3 Market Structure:

1.3.1 Global Smart Glass Market: By Technology

1.3.2 Global Smart Glass Market: By Verticals

2 Research Methodology

2.1 Research Type

2.2 Primary Research

2.3 Secondary Research

2.4 Forecast Model

2.4.1 Market Data Collection, Analysis & Forecast

2.4.2 Market Size Estimation

2.4.3 Market Crackdown & Data Triangulation

3 Global Smart Glass Market: Overview

3.1 Introduction

3.1.1 Definition

3.1.2 Market Segmentation Of Smart Glass Market

List Of Tables

Table 1 Global Smart Glass Market, By Technology

Table 2 Global Smart Glass Market, By Verticals

Table 4 Global Smart Glass Market, By Regions

List Of Figures

Figure 1 Research Type

Figure 2 Global Smart Glass Market: By Technology (%)

Figure 3 Global Smart Glass Market: By Verticals (%)

About Market Research Future:

At Market Research Future (MRFR), we enable our customers to unravel the complexity of various industries through our Cooked Research Report (CRR), Half-Cooked Research Reports (HCRR), Raw Research Reports (3R), Continuous-Feed Research (CFR), and Market Research & Consulting Services.

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#Smart Glass Market

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