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bimpro123 · 6 days ago

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Industry Foundation Classes and Open BIM: What You Need to Know

IFC and OpenBIM: What You Need to Know?

In the modern AEC world, digital collaboration is essential. The process of designing, building, and maintaining structures involves numerous teams, software tools, and specialized workflows. IFC (Industry Foundation Classes) and OpenBIM are two core elements that enable these teams to work together, regardless of the software tools they use, without sacrificing the accuracy and integrity of the data.

These concepts are not just technical jargon—they are central to how the construction industry is evolving. Let’s dive deeper into what these terms mean, how they function, and why they are essential to the future of construction projects.

What is IFC (Industry Foundation Classes)?

IFC (Industry Foundation Classes) is a neutral and open file format developed by buildingSMART International for the exchange of data in a digital building model. It is used primarily within the BIM process to ensure that data can be shared across various software applications.

Why IFC Matters?

In simple terms, IFC acts as a bridge between different software applications. Architects, engineers, contractors, and others involved in a building project often use different software tools, but if those tools can’t talk to each other, collaboration becomes difficult. For example, a structural engineer may be using Autodesk Revit while the architect might prefer ArchiCAD. Historically, exchanging files between these platforms was challenging, often leading to data loss or errors.

That’s where IFC comes in. IFC is designed to maintain the data integrity of building models and ensure that critical information, like dimensions, materials, structural components, and even energy performance data, can be shared and understood by different software.

An important thing to note is that IFC is not just a CAD file. It’s a data-rich model format that holds information not only about the geometry of a building but also about its functional characteristics—like fire resistance, thermal performance, and cost estimations.

How IFC Works?

When an IFC file is created, it contains an abstract representation of a building’s physical components and the relationships between them. Unlike CAD files that are primarily visual, IFC files contain deep metadata—each element in the file is tagged with specific data. For example, an IFC file for a door could include its size, material, supplier, fire rating, and installation requirements.

IFC works by using classes and objects. Each class represents a building element, such as walls, windows, doors, etc., and each object within that class contains the detailed properties of that element. For instance, an object for a window may specify its size, material (e.g., aluminum frame), and any associated thermal or acoustic properties.

This level of detail is essential because it allows for much more than just a geometric representation. It enables teams to analyze and collaborate on the building’s performance, not just its shape.

What is OpenBIM?

OpenBIM is a philosophy, a movement within the AEC industry, advocating for the use of open standards like IFC to enable better collaboration. In the traditional world of proprietary BIM tools, each software vendor controls the formats their software uses. OpenBIM flips that model by promoting interoperability—the idea that software programs from different vendors should be able to communicate with each other seamlessly.

Key Principles of OpenBIM

Open Standards: OpenBIM relies on non-proprietary, universally accepted standards, with IFC being the most well-known example. Open standards ensure that data can be accessed, used, and understood by anyone, now and in the future.

Interoperability: One of the key goals of OpenBIM is to ensure that different software tools can work together seamlessly. Whether you’re using Revit, ArchiCAD, Tekla Structures, or any other BIM tool, OpenBIM makes it possible for everyone to work from the same set of information, regardless of their software preferences.

Collaboration: OpenBIM emphasizes open collaboration between all project stakeholders, such as architects, engineers, contractors, and owners. The key here is that no one is restricted by the software tools they use—everyone can work together on the same model, share data, and access updates in real time.

Long-term Access: OpenBIM ensures that the data is not locked into a specific software ecosystem. This is particularly important for long-term facility management and for projects that need to last for many decades, as it guarantees future generations will be able to access, update, and modify the model.

What are the benefits of IFC and OpenBIM?

IFC and OpenBIM bring a lot of important benefits to the construction and design industry, especially when it comes to working with different people and software. Here is the simple breakdown of their benefits:

Works Across Different Software

One of the biggest benefits of IFC and OpenBIM is that they allow different software to talk to each other. Architects might use ArchiCAD, engineers might use Revit, and contractors might prefer Tekla or Navisworks. Normally, these programs don’t work well together. But when they all export or import files using the IFC format, everyone can share and view the same model without needing to switch tools. This makes communication much smoother across the whole project team.

2. No More Being Stuck With One Software

IFC gives you freedom. In the past, once you started a project in one software, you were stuck with it. If you wanted to switch, you’d often lose data or have to redo your work. With IFC, that’s not the case. You can move your project from one tool to another without losing information. This means you’re not tied down to one brand or subscription—you can choose what works best for you and your team.

Makes Teamwork Easier

OpenBIM promotes better collaboration. When everyone can see the same model and work with the same information, it reduces confusion. Instead of passing files back and forth and hoping they line up, all team members can contribute to one shared digital model. This keeps everyone on the same page, which saves time and avoids costly misunderstandings later in the project.

Keeps Your Data Safe for the Future

IFC is an open and non-proprietary format, which means it’s not owned by any software company. This is great for long-term projects or future building upgrades. Even if the software you used becomes outdated or goes out of business, your IFC files will still be readable. This helps protect your work and keeps it usable for many years.

Helps Catch Mistakes Early

Using IFC and OpenBIM makes it easier to check the project model for errors before construction begins. Tools like Solibri or Navisworks or Revizto can read IFC files and run clash detection to find problems, such as pipes running into beams or walls overlapping. Fixing these issues during the design phase is much cheaper and faster than fixing them on site.

Saves Time and Money

When everyone is working with accurate and up-to-date information, it reduces the chances of rework and delays. You avoid doing things twice or making changes late in the process. This leads to faster decision-making, fewer errors, and more efficient construction. In short, OpenBIM helps your project run more smoothly and saves money in the long run.

Helps with Rules and Regulations

More and more governments and public projects are now requiring the use of IFC and OpenBIM. This is because open formats make it easier to review and manage project data. If your team is already using these standards, it becomes easier to qualify for public or international projects and follow local building regulations.

Makes Facility Management Easier

Once the building is finished, the IFC model can still be very useful. It can contain information about equipment, materials, room sizes, maintenance schedules, and more. Facility managers can use this model to operate and maintain the building more effectively. This saves money over time and keeps the building in better shape.

Increases Transparency

OpenBIM makes it clear who did what and when. Since all information is openly shared and recorded, it’s easier to track decisions and changes. This builds trust among project partners and helps avoid disputes. Everyone knows what’s happening and has access to the same information.

Keeps You Ready for the Future

Finally, adopting IFC and OpenBIM now helps you stay ahead in the industry. As technology continues to grow, the push for open standards will only increase. By using them today, you’re preparing your team to handle future projects, tools, and client expectations with confidence.

Challenges of Using IFC and OpenBIM

While OpenBIM and IFC offer a lot of great advantages, like better collaboration and freedom from software lock-in, they’re not without a few bumps in the road. Just like with any technology, there are some challenges you might run into when using them in real-life projects.

One of the common problems is software compatibility. Even though IFC is meant to be a universal format, not every software handles it the same way. Some programs might not fully support all parts of an IFC file, or they might display things incorrectly. For example, a wall created in one software might look different or lose some details when opened in another. This can lead to confusion, missing data, or even mistakes in the project if the information doesn’t come through the way it was intended.

Another issue is file size and performance. IFC files can get really big, especially on large and detailed projects. When you have a model with thousands of elements—walls, floors, furniture, MEP systems—it all adds up. These heavy files can slow things down, especially if the computer or the software isn’t built to handle such complex models smoothly. This might make navigation clunky or even crash the program sometimes, which can be frustrating during tight deadlines.

There’s also a bit of a learning curve involved. If your team is used to working only in one software like Revit or ArchiCAD, switching to OpenBIM workflows can feel unfamiliar at first. Understanding how IFC works, how to export and import files properly, and how to troubleshoot issues can take some time. It’s not overly complicated, but it does require a bit of training or hands-on experience to get comfortable with it—especially when dealing with advanced coordination or data-rich models.

Lastly, there’s the challenge of lack of standardization. Even though IFC is an open standard, there are actually different versions of it—like IFC2x3 or IFC4—and not every project team uses the same one. On top of that, some teams only use specific parts of IFC, depending on their needs. So, when two different teams exchange models, their versions or interpretations might not align perfectly. This can lead to inconsistencies or gaps in the data, which kind of defeats the purpose of having a shared format in the first place.

Who Should Use IFC and OpenBIM?

When it comes to working on building projects, a lot of different professionals are involved—architects, engineers, contractors, and facility managers. Each of them plays a big role at different stages of the project. But here’s the thing: they don’t always use the same software. That’s where IFC (Industry Foundation Classes) and OpenBIM come in. These tools are like a common language that helps everyone share information without worrying about which software they’re using.

Architects should definitely use IFC and OpenBIM. Why? Because it allows them to send their 3D design models to other team members without any headaches. Imagine you’re an architect using ArchiCAD, and your structural engineer is working in Revit. Normally, that might cause issues. But with IFC, you can both share and view the model clearly, without losing any of the details. It helps architects keep their design intent intact, no matter who’s looking at the file.

Now let’s talk about engineers—whether they’re structural, mechanical, electrical, or civil. Engineers often need to work closely with architects and coordinate with other teams. Using OpenBIM allows them to share their models, run clash detection, and do analysis, even if they’re using different tools. For example, a mechanical engineer can send a model with all the ducts and pipes, and a structural engineer can check it to make sure nothing clashes with beams or walls. That’s teamwork made easier.

Contractors and builders also benefit a lot from OpenBIM. During construction, they need access to detailed and accurate models to understand what needs to be built. With IFC files, they can see everything in one place, from materials to dimensions. It helps them plan better, avoid mistakes, and keep the project on track. They don’t have to worry about what software the model was made in—OpenBIM makes sure it works for them too.

Finally, facility managers and building owners have the longest relationship with the building. Even years after construction is done, they still need to maintain and update the building. With IFC, they can receive a digital twin of the building that doesn’t depend on a specific software. This means they can access all the building information—like room sizes, equipment, and maintenance schedules—without any compatibility issues. It gives them flexibility and long-term control over their property.

Conclusion

In today’s construction landscape, where collaboration, efficiency, and accuracy are paramount, IFC and OpenBIM are fundamental to ensuring the smooth execution of projects. By embracing these open standards, you’re ensuring that your team can work together more effectively, using the best tools for the job while maintaining data integrity across different platforms.

Incorporating IFC and adopting the OpenBIM approach into your workflow will not only future-proof your projects but also create a more transparent, efficient, and collaborative process from design through to facility management.

#IndustryFoundationClasses #IndustryFoundationClassesBIM #definitionofopenBIM #IndustryFoundationClassesRevit #IFCandOPENBIM

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magnasoft01 · 26 days ago

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Why OpenBIM is the Key to Seamless AEC Collaboration

In a construction ecosystem driven by data and digital tools, seamless collaboration is essential. Across borders and disciplines, the AEC industry is under pressure to deliver faster, smarter, and more sustainable results.

#open bim #bim modeling services

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netra-n8tra · 1 year ago

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openBIM® by Sonetra KETH

openBIM® is a collaborative approach and an ecosystem of open standards, protocols, and workflows that enable interoperability across different BIM software platforms, stakeholders, and disciplines in the Architecture, Engineering, and Construction (AEC) industry.

openBIM® represents an industry-wide movement towards interoperability and open standards that facilitate collaborative, data-rich BIM workflows across diverse software platforms and stakeholders, ultimately fostering a more integrated, flexible, and sustainable built environment ecosystem.

Core Principles of openBIM®

Interoperability: Seamless exchange of BIM data without proprietary restrictions.

Open Standards: Relying on internationally recognized, non-proprietary standards to facilitate data consistency and collaboration.

Open Data Exchange: Promoting a data-centric approach where model information can be shared, interpreted, and used across various tools.

Collaborative Ecosystem: Enabling multiple stakeholders using different applications to work collectively on a project.

Key Components of openBIM®

Standards and Protocols

Industry Foundation Classes (IFC): The core openBIM schema developed by buildingSMART® for rich, schema-based exchange of geometric and semantic data.

bSDD (buildingSMART Data Dictionary): A comprehensive repository of standardized data definitions to ensure semantic consistency.

CityGML, IFC-SPF: Additional standards for GIS, infrastructure, and other data formats.

IFC, BCF (BIM Collaboration Format): For model data exchange and issue tracking.

Tools and Software

Various BIM applications supporting openBIM standards, enabling import/export, viewing, validation, and collaboration while maintaining data integrity.

The interoperability is made possible through software certifications and compatibility testing, often coordinated by buildingSMART®.

Workflow & Data Management

Emphasizes a model-centric approach, where the central repository is an IFC model that can be accessed, modified, and referenced by multiple applications.

Promotes open data exchange rather than proprietary formats, reducing vendor lock-in and fostering innovation.

Advantages of openBIM®

Vendor Neutrality: No single vendor controls the data exchange standards.

Flexibility & Compatibility: Enables collaboration across various platforms (Revit, ArchiCAD, Vectorworks, Tekla, etc.).

Long-term Data Sustainability: Ensures that project data remains usable and understandable over time.

Enhanced Collaboration: Stakeholders can work concurrently, review, issue comments, and coordinate effectively.

RMIT University Vietnam (2015)

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buildingSMART International Technical Director Léon van Berlo who discusses the openBIM workflow

Sonetra KETH (កេត សុនេត្រា) •Architectural Manager, Project Manager, BIM Director •建築師經理, 專案經理, BIM總監 •Giám đốc kiến trúc, Giám đốc dựán, Giám đốc BIM •RMIT University Vietnam + Institute of Technology of Cambodia

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plinnthbim · 2 months ago

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The Future of Architectural BIM Services in the USA: What to Expect in 2025 and Beyond

As the world delves deeper into digital evolution, Architectural BIM Services in USA are achieving groundbreaking momentum. BIM, or Building Information Modeling has evolved beyond being a mere tech tool for design but instead is the core basis and groundwork for a more innovative and cohesive architectural framework that includes both engineering as well as construction . Therefore , what can be expected from this exponentially advancing domain in the year 2025 and many to follow ?

Evolution of BIM in Architecture: A Brief Overview

The evolution from basic 2D drawing to more smarter and better equipped 3D models , BIM has redefined architectural design operations for better . Primarily opted for its illustration capabilities ,BIM has now transformed into a pivotal means of modeling , blueprinting as well as synergy . In the last few years Architectural BIM Services in USA have evolved substantially , driven by both government directives and industry driven innovation .

State enforced policies , like mandates for BIM in community-based projects , have a swift integration , while corporate institutions have welcomed it with open arms to boost both efficiency and sustainability . Due to this , the discipline for Architectural Bim is henceforth more enhanced , dynamic and better equipped for further evolution .

Key Drivers Behind the Future Growth of Architectural BIM in the USA

There are multiple catalysts expanding horizons of Architectural BIM Services in USA :

The Need for Environmentally Conscious Infrastructure – With the growing prominence of green building practices and energy efficiency , BIM’s expertise in simulating and evaluating the impact on the environment is unmatched .

Advanced Architectural Concepts – As structures become more sophisticated , BIM’s accuracy and shared functionalities are imperative for a more detailed planning and execution.

Government Project Directive -Regulatory requirements of BIM at federal and state level Infrastructure campaigns continue to garner unprecedented incorporation .

Top Trends to Watch in Architectural BIM Services (2025 and Beyond)

a. Integration of AI & Machine Learning

The idea of Artificial Intelligence has begun to take shape as an essential function in BIM. From predictive design concepts to automated risk identification , AI intensifies both creativity and security . In 2025 , AI is anticipated to become an integral part of architectural BIM services in the USA, enhancing energy efficiency, streamlining construction sequencing, and improving cost estimation.

b. Cloud-Based BIM Collaboration Platforms

The shift to cloud has redifined joint effort . With platforms like Autodesk BIM 360 , architects , engineers and contractor are able to work up to the minute from anywhere . These functions are gradually turning into the foundation in Architectural BIM Services .

c. Adoption of Digital Twins

BIm is central to the digital twin technology – virtual models of real-world assets .These prototypes , integrated with live data , allow constant surveillance as well as cradle-to-grave management .

d. Enhanced Interoperability and OpenBIM Standards

Seamless operation across various platforms is now critical . OpenBIM standards facilitate seamless data exchange , reducing delays and enhancing project synchronisation . As numerous digital solutions enter the market , interoperability shall determine the standard for the same .

e. AR/VR and Immersive Design Visualization

Augmented and virtual reality are changing how involved parties interact through designs . End-users can experience 3D digital spaces in real time and provide early stage decisions accordingly , greatly cutting rework expenses down the line .

f. Sustainability-Driven BIM Workflows

BIM’s environmental analysis tools contribute to achieving certifications like LEED, WELL, and other sustainability standards. As ecologically considerate architecture grows popular , green oriented BIM modeling shall be a central component of project design .

4. Challenges That May Shape the Future of BIM Adoption

Despite its merits , BIM adoption still encounters obstacles :

Expertise Gaps – A substantial part of personnel is undertrained in BIM tools and technologies

Large Capital Outlay -The shift to BIM demands substantial monetary and time commitments that small firms may find difficult to fulfill .

Information Security Risks – With increasing cloud collaboration , securing property and data become pivotal .

5. How Architectural Firms Can Prepare for the Future

Adaptive foresight is elemental for architectural institutions to flourish .Such as

Continuous skill development in BIM tech solutions guarantees adaptability to shifting demands

Innovative organisations should transition to cloud-first technologies that cater to their needs

Teaming up with specialized Architectural BIM Services in the USA partners deliver a competitive advantage , expertise and creativity .

6. The Role of BIM in Shaping Smart Cities and Future Infrastructure

As cities integrate IoT , GIS and other intelligent tech solutions , BIM is central to the digital ecosystem. Grand-scale prototypes of BIM models are used by Urban developers and project architects to maximize land efficiency , supervise infrastructure development as well as anticipate future requirements. The unified action between BIM and smart city planning marks a transformative chapter in urban development.

At PlinnthBIM, we offer comprehensive Revit Architectural BIM Modeling services in USA designed to streamline your projects from conception to completion, ensuring accurate, intelligent models that improve collaboration, reduce errors, and enhance overall project efficiency.

#architechturalBIMservises #bim services #Architectural BIM Services in USA #AachitecturalBIMservicesinUSA #bim

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utwin-it · 3 months ago

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UTwin sfrutta la tecnologia BIM e Digital Twin per migliorare la gestione delle infrastrutture e delle strutture pubbliche. Basate su OpenBIM e Autodesk Forge, le nostre soluzioni consentono il monitoraggio in tempo reale, l'analisi predittiva e la manutenzione ottimizzata, garantendo efficienza, sostenibilità e una gestione delle risorse più intelligente. For more details please visit https://www.utwin.it/buildingowners-publicadministrations-infrastructureprojects

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digitalmore · 3 months ago

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#IFTTT #DigitalMore.co

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hackernewsrobot · 1 year ago

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BlenderBIM – add-on for beautiful, detailed, and data-rich OpenBIM with Blender

https://blenderbim.org/

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sonetra-keth · 10 years ago

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openBIM® by Sonetra KETH

RMIT University Vietnam (2015)

youtube

buildingSMART International Technical Director Léon van Berlo who discusses the openBIM workflow

Sonetra KETH (កេត សុនេត្រា) Architectural Manager/Project Manager/BIM Director RMIT University Vietnam + Institute of Technology of Cambodia<meta name=“monetag” content=“07e99e76c61091cfc8c3590b90f57e37”>

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log2 · 2 years ago

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『丸紅アークログマンスリートピックス』230927

「Arch-LOG」、住宅・建築関連の広範な団体と締結拡大！

～四十万未来研究所、ベネフィットラインと業務提携契約を締結～

＜今月のハイライト＞ ■一般社団法人四十万未来研究所、および株式会社ベネフィットラインと業務提携契約を締結　当社は新たに、一般社団法人四十万未来研究所、並びに株式会社ベネフィットラインと業務提携契約を締結しました。

一般社団法人四十万未来研究所との業務提携　四十万（しじま）未来研究所は、2055年の未来を見据え、そのとき世界で通用する日本人の育成を目的として、住文化・食文化・家族との関わりなど、日本の伝統を継承する日々の暮らしを研究していくことにより、新しいビジネスモデルの構築を目指しています。四十万代表理事の考える世界で通用する能力とは、考える力とコミュニケーション能力であり、頭のよい子のご家庭が実践している、3x（express,exchange,explore）に集約される日々の暮らしそのものであるということ。そしてその能力の50％は12歳までの家庭探求学習によって身につくということです。当研究所はそんな「頭のよい子が育つ家」をSmart Space Technology（SSTECH）空間工学により定量化し推奨・認定しています。　また、文部科学省の委託事業として「最先端技術を活用して建築業務プロセスの変革やサービス創出に貢献できる建築DX人材の育成」などにも取り組んでいます。　今後、当社��Arch-LOGを活用し、SSTECH空間工学理論の住宅業界への普及・促進並びにDX人材の育成事業におけるワークフローのDXの促進を目的として業務提携を締結いたしました。

＜一般社団法人四十万未来研究所　研究所概要＞代表者四十万靖（代表理事）所在地〒142-0054 東京都品川区西中延二丁目13番14号設　立 2014年8月1日 U R L https://shijima-mirai.or.jp/

株式会社ベネフィットラインとの業務提携　ベネフィットラインは、オフィスやホテル、レストランといった商業施設を中心にさまざまな空間づくりのプロフェッショナルとして、デザイン・設計 / 建築施工 / 内装監理をおこなっています。お客様から「ありがとう」と言ってもらえる価値ある商空間を提供することで、社員の精神的・経済的な幸せを最大限追求することを企業理念とし、そのために“品質、コスト、工期、安全（Quality, Cost, Delivery, Safety）”すべてをバランスよく、高いレベルで提供することを約束しています。　今後、Arch-LOGを活用し、ワークフローのDXを推進することを目的として業務提携を締結いたしました。

＜株式会社ベネフィットライン　会社概要＞代表者小原孝治（代表取締役）所在地〒150-0022 東京都渋谷区恵比寿南1丁目1番9号岩徳ビル5階設　立 2007年5月1日 U R L https://www.benefit-l.co.jp/

＜今月のトピックス＞ ■グラフィソフトジャパン株式会社主催セミナー「全国ロードショー (東京・北海道) 」にOPENBIMパートナーとして登壇　建築家のための業界初となるBIMソフトウェアArchicadを提供するGRAPHISOFT SEの日本法人であるグラフィソフトジャパン株式会社（以下：Graphisoft）では、「BIM導入支援」と「Archicadのメリット（魅力）」を訴求するため、Archicad/BIM活用で変わる設計ワークフローとユーザー事例を、「Graphisoft 全国ロードショー」と題して、全国の会場で紹介しています。このセミナーでは、Archicadを使用している講師のプレゼンテーションや事例の紹介、Graphisoftのカスタマーサクセスチームによるプレゼンテーションなどが行われています。　この度、同セミナーの東京会場（8/23）と北海道会場（9/8）においてOPENBIMパートナーとして当社取締役の香月創星が登壇。BIMと連携した「Arch-LOG」の効果的な活用方法についてプレゼンテーションを行いました。

　今後も当社は、「Arch-LOG」を活用した建設・建築業界のワークフローの改善に向けた取り組みを積極的に推進してまいります。

■「Arch-LOG」に、「株式会社福岡工業」「アイジー工業株式会社」「高千穂シラス株式会社」をはじめとする25社＊、約1,500点＊の建材が新たに登録されました。＊2023年8月29日～9月25日の登録数　今回新たに、貼ったり剥がしたりが自由にできる紙用接着剤『ペーパーセメント』をはじめ、さまざまな接着剤やオーダーフレームなどを製造する明治30年創業の老舗メーカー「株式会社福岡工業」や、豊かな発想力と確かな技術力を活かして真摯に取り組み、金属サイディングなどの建築用断熱外壁材・金属屋根材の研究開発・製造・販売を手がけるメーカー「アイジー工業株式会社」、化学物質に頼らず100%自然素材にこだわった「シラス壁(左官材)」の製造・販売・研究を手がけるメーカー「高千穂シラス株式会社」など、さまざまな建材メーカーの製品が加わりました。

プレスリリース【丸紅アークログ】230927「マンスリートピックス」

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