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市場調査レポート
商品コード
1622670
構造用シリコーングレージング市場:製品タイプ、エンドユーザー産業、用途、地域別、2024年~2031年Silicone Structural Glazing Market By Product Type, End-User Industry, Application, & Region for 2024-2031 |
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構造用シリコーングレージング市場:製品タイプ、エンドユーザー産業、用途、地域別、2024年~2031年 |
出版日: 2024年11月11日
発行: Verified Market Research
ページ情報: 英文 202 Pages
納期: 2~3営業日
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構造用シリコーングレージングに対する需要の高まりは、主にエネルギー効率の高いアーキテクチャと現代的な建築デザインが重視されるようになってきたことに起因しています。構造用シリコーングレージングは、機能的で美しく大きなガラスパネルの使用を可能にするため、建設業界で人気のある選択肢です。これらの方法は、金属フレームを使用することなく、シリコーンシーラントを使用してガラスパネルを建物の構造に結合させるもので、その結果、視覚的に魅力的で、優れた断熱性を提供する洗練された近代的なファサードを実現し、2024年には475億2,000万米ドルの売上高を超え、2031年には約502億5,000万米ドルの評価額に達します。
世界の都市化の動向と高層建築の建設が、構造用シリコーングレージングの需要を押し上げています。限られたスペースに多くの人や企業を収容できる高層で近代的な構造物は、急速に成長する都市で高い需要があります。構造用シリコーングレージングは、風、温度変化、地震活動などの環境圧力に対応できる強度と柔軟性を備えているため、高層ビルに最適であり、2024年から2031年までCAGR 7.81%で市場が成長します。
構造用シリコーングレージング市場定義/概要
構造用シリコーングレージングとは、従来の機械的ファスナーではなく、シリコーンシーラントを使用し、建築構造物にガラスを固定する新しい方法です。この方法は、ガラスパネルと建物のフレームの間に強力で柔軟なシリコーン接着剤を配置することを必要とします。シリコーンは接着剤として機能し、ガラスを固定し、防水シールを作り出します。
その適応性と耐久性から、現代のアーキテクチャや建築で一般的に利用されています。この技術では、シリコーンシーラントを使用してガラスパネルを建物のフレームに接着し、滑らかで視覚的に魅力的な外観を実現します。最も一般的な用途の一つは高層ビルで、大きなガラスパネルが自然光を最大限に取り入れながら、洗練された現代的な外観を提供するために設置されます。
構造用シリコーングレージングは、建物の設計や建設において多くの利点があるため、今後人気が高まる可能性が高いです。この技術は、シリコーンシーラントを使用してガラスを建物の構造フレームに接続し、美観と自然光の両方を向上させる広大で連続的なガラスファサードをもたらします。今後、エコロジカルでエネルギー効率の高い建物を目指す動きは、構造用シリコーングレージングの利用を促進すると思われます。
構造用シリコーングレージング産業は主にガラス技術の開発によって牽引されています。建物がより複雑化し、エネルギー効率が高くなるにつれて、高性能グレージングシステムに対する需要は劇的に増加しています。最新のガラス技術は断熱性、日射管理、防音性を高めており、構造用シリコーングレージングの用途に適しています。米国エネルギー省建築技術局によると、窓は建物の冷暖房エネルギー需要の30%を占めています。低放射率コーティングや二重窓、三重窓などのガラス技術の進歩により、エネルギー損失を最大50%削減することができます。
さらに、アメリカ国立標準技術研究所(NIST)は、最新のグレージングシステムは建物の総エネルギー使用量を10~40%削減できると述べています。この莫大な省エネルギーの可能性は建築家やビル設計者の興味を刺激し、洗練されたガラス技術と共にシリコン構造グレージングの使用を促しています。米国グリーンビルディング協会によると、これらの高度なグレージングシステムを使用した建物はLEED認証を取得する可能性が高く、新築プロジェクトでの使用を奨励しています。
高い初期投資コストは構造用シリコーングレージング市場拡大の大きな障壁となります。構造用シリコーングレージングには、シリコーンベースの接着剤やシーラントでガラスパネルを建築構造物に取り付けることが含まれ、耐久性、柔軟性、審美性などの利点を提供します。しかし、構造用シリコーングレージングに必要な技術や材料は高価です。初期投資には、高品質のシリコーンシーラント、特殊な設備、訓練を受けた労働力が必要です。これらのコストは、特に大規模なプロジェクトや新規設置の場合、大きなものになるかもしれません。多くの建設業やビルオーナーにとって、初期費用が高いということは、より伝統的で安価な代替案ではなく、構造用シリコーングレージングを選択することを妨げるかもしれません。
多額の初期投資は、中小企業や新規参入企業の参入機会を制限し、市場力学に影響を与えるかもしれないです。初期費用を負担できない企業は市場参入を阻まれ、競争が低下し、イノベーションが阻害される可能性があります。既存企業にとっては、高額な投資費用がプロジェクト費用の上昇を招き、それが顧客に転嫁されることで、構造用シリコーングレージングが他のグレージングより魅力的でなくなる可能性があります。顧客はより費用対効果の高い選択肢を好む可能性があるため、市場全体の成長を妨げる可能性があります。さらに、顧客や建設業者が資金繰りのために計画を遅らせたり、規模を縮小したりする可能性があるため、多額の開始価格による経済的負担が新規プロジェクトの実施速度に影響する可能性もあります。
The rising demand for silicone structural glazing is primarily driven by the growing emphasis on energy-efficient buildings and contemporary architectural designs. Silicone structural glazing is a popular choice in the construction industry because it enables the use of big, aesthetically beautiful glass panels that are also functional. These methods use silicone sealants to bind glass panels to a building's structure without the use of metal frames resulting in sleek, modern facades that are both visually appealing and provide outstanding insulation by enabling the market to surpass a revenue of USD 47.52 Billion valued in 2024 and reach a valuation of around USD 50.25 Billion by 2031.
The global trend of urbanization and the construction of high-rise structures is driving up demand for silicone structural glazing. Tall, modern structures that can accommodate more people and companies in a limited amount of space are in high demand in quickly growing cities. Silicone structural glass is perfect for high-rise buildings because it has the strength and flexibility to handle environmental pressures including wind, temperature variations, and seismic activity by enabling the market to grow at aCAGR of 7.81% from 2024 to 2031.
Silicone Structural Glazing Market: Definition/ Overview
Silicone structural glazing is a new method of fastening glass to building structures that employs silicone sealants rather than traditional mechanical fasteners. This method entails placing a strong, flexible silicone adhesive between the glass panels and the building's frame. The silicone functions as a bonding agent, securing the glass and producing a waterproof seal.
It is commonly utilized in modern architecture and construction due to its adaptability and durability. This technology uses silicone sealants to bond glass panels to building frames resulting in a smooth and visually attractive exterior. One of the most common applications is in high-rise buildings where big glass panels are put in to offer a sleek, contemporary appearance while maximizing natural light.
Silicone structural glazing is likely to gain popularity in the future because of its numerous benefits in building design and construction. This technology uses silicone sealants to connect glass to a building's structural frame, resulting in vast, continuous glass facades that improve both aesthetics and natural light. In the future, the push toward ecological and energy-efficient buildings will promote more use of silicone structural glass.
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The silicone structural glazing industry is being driven primarily by developments in glass technology. As buildings become more complex and energy-efficient, the demand for high-performance glazing systems has increased dramatically. Modern glass technologies have enhanced thermal insulation, solar management, and acoustic qualities making them suitable for silicone structural glazing applications. According to the Building Technologies Office of the United States Department of Energy, windows account for 30% of building heating and cooling energy demand. Glass technology advancements such as low-emissivity coatings and double or triple-pane designs can reduce energy loss by up to 50%.
Furthermore, the National Institute of Standards and Technology (NIST) states that modern glazing systems can reduce a building's total energy usage by 10-40%. This enormous energy-saving potential has irritated the interest of architects and building designers prompting the use of silicone structural glazing in conjunction with sophisticated glass technologies. According to the U.S. Green Building Council, buildings that use these sophisticated glazing systems are more likely to earn LEED certification which encourages their use in new construction projects.
High initial investment costs constitute a substantial barrier to the expansion of the silicone structural glazing market. Silicone structural glazing includes attaching glass panels to building structures with silicone-based adhesives and sealants which provides benefits such as durability, flexibility, and aesthetic appeal. However, the technology and materials needed for silicone structural glazing are costly. The initial investment comprises the expense of high-quality silicone sealants, specialized equipment, and trained labor. These costs might be significant, especially for larger projects or new installations. For many construction businesses and building owners, the high initial costs may prevent them from selecting silicone structural glazing over more traditional and less expensive alternatives.
The substantial initial investment might have an impact on market dynamics by limiting entrance chances for smaller firms or newcomers to the industry. Companies that cannot afford the initial fees may be barred from participating in the market decreasing competition and possibly impeding innovation. For established businesses, the high investment expenditures may result in higher project expenses which can be passed on to customers making silicone structural glazing less appealing than other glazing options. This could hinder the market's overall growth since customers may prefer more cost-effective alternatives. Furthermore, the economic strain of large beginning prices could influence the speed at which new projects are undertaken as clients and builders may delay or scale back their plans to manage financial
The dominant product type is two-part silicone structural glazing. This dominance stems principally from its broad use in building and architectural applications where exceptional strength and durability are required. Two-part silicone glazing systems include a basic silicone and a curing agent that are blended just before application. This mixture offers great adhesion to a variety of surfaces and forms a strong, flexible bond that can endure environmental stressors. Architects and builders like these systems because of their ease of use and proven reliability. Furthermore, two-part silicone solution's widespread availability and proven effectiveness in large-scale commercial and residential applications support their market domination.
Four-part silicone structural glazing is less common yet it provides unique benefits for certain applications. This type of glazing requires four components to be combined making it more complex and costly than two-part systems. However, four-part silicone compositions are highly valued for their outstanding flexibility, adhesion, and ability to handle complex structural requirements. They are frequently utilized in specialty applications that require high-performance qualities. Despite these advantages, the complexity and higher costs of four-part systems limit their general use in favor of the simpler and less expensive two-part choices.
Curtain walls are the most dominant application. Curtain walls are non-structural cladding systems that cover the exterior of buildings and are popular in modern design for both aesthetic and functional reasons. Silicone structural glazing plays an important part in curtain walls by creating a smooth, visually pleasing exterior while also providing strong structural support. This application dominates due to its widespread use in high-rise buildings, commercial areas, and modern residential constructions. Silicone glazing allows for clean, uninterrupted glass surfaces that increase architectural attractiveness while also contributing to overall energy efficiency by boosting insulation and minimizing heat loss.
While windows and doors, skylights, and other architectural components are important, they do not have the same impact as curtain walls. Silicone structural glazing improves the strength and energy efficiency of windows and doors but these uses are more specialized and limited in scope than curtain walls broad use. Skylights, which use silicone glazing for transparency and weather resistance are a specialist market that addresses certain architectural criteria.
The Asia Pacific Region is dominating the silicone structural glazing market. Rapid urbanization and industrialization are propelling the silicone structural glazing market in the Asia Pacific region owing to surging construction activity and rising demand for contemporary architectural solutions. This tendency is prevalent because the region's rising cities and industrial hubs are embracing innovative building technology to help them grow. According to the United Nations Department of Economic and Social Affairs, the Asia Pacific region is expected to experience major urbanization with urban populations increasing by 1.2 billion people by 2050. This increasing urbanization increases the demand for innovative construction materials such as silicone structural glazing which is valued for its durability, aesthetic appeal, and energy efficiency in high-rise buildings and modern infrastructures.
Industrialization in the Asia Pacific region helps to drive market growth. The World Bank states that Asia Pacific countries are investing extensively in infrastructure projects with significant increases in construction investment. For example, in 2023, China's infrastructure investment will be around USD 1.1 Trillion demonstrating the country's commitment to establishing new metropolitan areas and improving current ones. This spike in infrastructure projects increases demand for sophisticated construction materials such as silicone structural glazing which offers critical benefits such as improved insulation, weather resistance, and structural integrity.
Innovative technology is a key driver for the silicone structural glazing market in North America with the United States and Canada leading the way in terms of advanced building technology adoption. Rapid technical breakthroughs in construction materials and procedures are driving the expansion of the silicone structural glazing market, notably in the design of energy-efficient and visually beautiful building facades. The United States Department of Energy (DOE) has stressed the importance of novel building materials such as enhanced glazing systems in achieving energy-efficient and sustainable design. According to the DOE's "Building Technologies Office" report, the use of high-performance glazing systems can cut energy consumption in commercial buildings by up to 50% when compared to traditional systems.
The rapid expansion of green building requirements and regulations in North America has accelerated the use of novel glazing technology. For example, the United States Green Construction Council (USGBC) says that green construction projects in North America are increasingly incorporating sophisticated materials and technology to meet demanding LEED (Leadership in Energy and Environmental Design) requirements. According to the USGBC's "LEED Green Building Rating System," LEED-certified constructions can save 30-40% more energy than conventional buildings. As a result, demand for silicone structural glazing which promotes energy efficiency and sustainability is fast increasing.
The Silicone Structural Glazing Market is a dynamic and competitive space, characterized by a diverse range of players vying for market share. These players are on the run for solidifying their presence through the adoption of strategic plans such as collaborations, mergers, acquisitions, and political support. The organizations are focusing on innovating their product line to serve the vast population in diverse regions.
Some of the prominent players operating in the silicone structural glazing market include:
Bostik
Nippon Sheet Glass Co., Ltd.
Saint-Gobain
SIKA AG
Dow
YKK AP America, Inc.
Pecora Corporation
Guardian Industries Holdings
In November 2023, Saugaat, Inc. announced a collaboration with multinational company Elkem India, which manufactures silicon and carbon-based materials. Through this collaboration, the former hopes to alter the architectural landscape, transforming structures into symbols of sustainability and growth.
In February 2023, Sika AG expanded its global footprint significantly when it acquired PPG Industries' silicone structural glazing unit. This acquisition expands Sika's silicone-based product line while also improving its service capabilities in the building and construction industries. Sika AG's combination of PPG Industries' expertise and product line broadens its capabilities and strengthens its commitment to providing comprehensive structural glazing solutions.