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🏗️ What if the future of high-rise living isn't just about building taller, but building smarter?
From new materials to AI-driven design, a powerful trifecta of innovation is redefining residential towers. This isn't just about skyscrapers reaching new heights—it's about creating safer, more sustainable, and more efficient living spaces.
We dug into a few key papers and drew from our own six years of experience to tell the story of the quiet workhorse behind it all: reinforced concrete. Then, we used AI to turn it into a quick video that gets right to the point.
Ready to see how it works?
Shout out to the Google#notebooklm team!
#VerticalLiving#StructuralEngineering#MaterialScience#AIinConstruction#SustainableBuilding#ReinforcedConcrete#UrbanDevelopment#Innovation#ConstructionTech
If you look at any city skyline, all those incredible towers of glass and steel that seem to just scrape the clouds, they're all held U by a kind of secret hero. It's a material that's so common, so every day we barely even notice it. And yet it's the literal foundation of our modern world. That hero is reinforced concrete. And once you understand, it's simple genius, You really start to understand the modern city itself. O yeah. Ever wonder what's actually holding up a skyscraper? It sounds like a simple question, right? But the answer isn't just one thing. It's really a story about a brilliant partnership between two different materials that when they came together, they literally changed the world. You see, the magic isn't just in the concrete. Not really. It's all about its hidden partner, the one thing that turns it from just a boring man made rock into a true super material. And here's the deal. On one hand, you have concrete. It's an absolute beast. When you try to squeeze it, it's got incredible compressive strength, but it has a huge weakness. Try to pull it apart and it just cracks. Its tensile strength is actually less than 10% of its compressive strength. And then you have steel. Steel is the polar opposite. It is fantastic at resisting being pulled and stretched. So you put them together, you've got a match made in engineering heaven. This perfect partnership has a name. It's called composite action. You embed steel bars rebar inside the concrete. The steel takes all the pulling forces and the concrete handles all the squeezing. But the synergy is even cooler than that. They also happen to expand and contract with temperature changes at almost the exact same rate, which is crucial for preventing cracks. Oh, and the concrete forms this natural fire resistant shield that protects the steel from heat and rust. It's just this perfect self-contained. System O Once we had this new super material, what did we do? Well, obviously we started building U way U. But as we started racing for the sky, engineers discovered there was a new and much more powerful force they had to deal with. And here's the twist. For these super tall towers, the biggest challenge isn't gravity. You'd think it would be, right? Nope. It's the wind. The immense sideways forces from wind or even from earthquakes, they quickly become the real problem you have to solve. I mean, holding the building up is the easy part. Stopping 1000 foot tall tower from swaying like a tree in a hurricane. Now that's the challenge. And to solve that problem, engineers developed some incredibly clever structural systems. You know, you start with shear walls for mid rise buildings. They work great. As you go higher, you get a dual system which combines walls and frames. Then for the really tall ones, the Super talls, you get the tube system which basically turns the whole building into a stiff hollow tube. And for those super skinny pencil towers you see now, that's the core and Outrigger system. It connects the strong central core to the outer columns and just drastically cuts down on sway. Every single one of these is a direct answer to the challenge of building higher and higher. But the innovation didn't just stop with the big structural designs. The race is on right now to make the material itself better, to make it smarter, lighter and a lot more sustainable. O For example, there's this really cool technique called post tensioning. You run these high strength steel tendons through the concrete after it's cured and then you stretch them, you put them in tension. This actively squeezes the concrete and makes it incredibly strong and that lets you build much thinner floor slaps. Now this is where it gets cool because this creates an amazing domino effect. Lighter floors mean the whole building ways less, which means you need smaller columns and a smaller foundation to hold it all up. 1 smart idea creates this cascade of savings and material, time and money through the whole project. And of course, we're also trying to tackle concretes massive environmental footprint. So we're seeing all these green concretes OU some use industrial waste products like flyash, others incorporate recycled plastic. And get this, there's even futuristic self healing concrete that uses bacteria to automatically repair its own cracks. How wild is that? Some are even being designed to literally suck CO2 right out of the atmosphere as they cure. OK, so this whole push for more efficiency, more sustainability, it's now getting a massive boost from a really powerful new tool, artificial intelligence. And here's why this matters so, so much. Cement, which is the key ingredient in concrete, just the production of that one material is responsible for U to 8% of global CO2 emissions. That's a staggering number. It's a huge problem, and AI is starting to offer some pretty powerful solutions. O let's look at a company called Structure Pal. They're one of the leaders here. What they've done is they've built an AI engine that can analyze millions of different design possibilities, way more than a human could ever look at, to find the absolute most efficient way to build something using the least amount of material possible without ever compromising safety. And the results are, well, they're pretty incredible. On average, the AI is able to reduce the total volume of concrete needed by 15%. And that reduction in material translates directly to a massive 30% cut in the projects overall CO2 emissions. And here's the kicker. It does all of this while cutting the design time in half. This is where its sustainability becomes a no brainer. It's not just better for the planet, it's faster and it's cheaper. It's a win, win, win. O we have a super material. We have these brilliant structural systems. We have AI designing things for us. It seems almost perfect, right? We've got it all figured out. But there's one final twist to this story, because the greatest threat to all these incredible structures, it isn't what you think it is. O what is it with all this amazing science? What's the biggest threat? Is it corrosion? Is it earthquakes? Extreme weather? What's the single biggest point of failure? The answer, surprisingly, is us human error. A whopping 45% of long term failures come from errors made way back in the initial design. Another 39% come from mistakes made during construction. The material itself is only responsible for about 16% of the problems, so the take away here is crystal clear. You can have the most advanced materials in the entire world, but a building's long term performance depends less on the material itself and way more on a meticulous, well executed process. It all comes down to the quality of the blueprint and the quality of the build. And that leaves us with a really fascinating final thought, doesn't it? We've sent over a century perfecting this incredible material, but if it's real weakness is us, it's human error, Then maybe the most important blueprint we need to design next isn't for another building at all, but for a better way of building itself.
🌍 𝗗𝗲𝘀𝗶𝗴𝗻𝗶𝗻𝗴 𝘄𝗶𝘁𝗵 𝗡𝗮𝘁𝘂𝗿𝗲, 𝗗𝗮𝘁𝗮, 𝗮𝗻𝗱 𝗣𝘂𝗿𝗽𝗼𝘀𝗲: 𝗔 𝗡𝗲𝘄 𝗣𝗮𝗿𝗮𝗱𝗶𝗴𝗺 𝗳𝗼𝗿 𝗨𝗿𝗯𝗮𝗻 𝗙𝘂𝘁𝘂𝗿𝗲𝘀
In a world grappling with climate urgency, resource scarcity, and rapid urbanization, architecture can no longer afford to be static, ornamental, or extractive. It must evolve—into something adaptive, regenerative, and deeply intelligent.
Lately, I’ve been immersed in the convergence of three transformative design philosophies:
🔬 𝗕𝗶𝗼𝗺𝗶𝗺𝗶𝗰𝗿𝘆: Not just imitation, but integration. What if our buildings could regulate temperature like a cactus, harvest water like a beetle, or self-repair-like skin? Nature has already solved many of the problems we face—we just need to listen.
📐 𝗣𝗮𝗿𝗮𝗺𝗲𝘁𝗿𝗶𝗰 𝗗𝗲𝘀𝗶𝗴𝗻: Beyond aesthetics, Parametrics offer a language of logic and responsiveness. By encoding environmental data, human behavior, and material constraints into algorithms, we can generate forms that are not only beautiful—but performative and context-aware.
🏙️ 𝗦𝘂𝘀𝘁𝗮𝗶𝗻𝗮𝗯𝗹𝗲 𝗨𝗿𝗯𝗮𝗻𝗶𝘀𝗺: Cities must become ecosystems. That means designing for circularity, equity, and resilience. It’s about walkable communities, green infrastructure, and buildings that give back more than they take.
Together, these approaches challenge us to rethink the very DNA of our built environment—from isolated objects to living systems.
💡 I’m curious:
• How are you integrating nature, computation, or sustainability into your design process?
• What projects or provocations have shifted your thinking lately?
Let’s connect and co-create a future where architecture is not just built—but grown, coded, and cultivated.
#Biomimicry#ParametricDesign#SustainableUrbanism#UrbanResilience#DesignFutures#ArchitectureInnovation#AECTransformation#LinkedInCommunity
🏛 Learn Mindspace: Learn Architecture
✨ Catchy Hooklines (Point-Wise):
1️⃣ Architecture is the science of turning dreams into spaces.
2️⃣ Every design starts with imagination, but ends with purpose.
3️⃣ Good architecture inspires — great architecture transforms.
4️⃣ Learning architecture means learning to shape the way we live.
📚 What We Learned (Topic Insights):
✅ The role of space planning in creating functional comfort.
✅ How natural light & ventilation enhance well-being.
✅ Why sustainability & eco-design are no longer optional.
✅ The impact of materials, textures & colors on mood.
✅ Architecture as a blend of art, engineering & culture.
🚀 Follow 👉 Mindspace: Learn Architecture
for daily lessons, creative inspiration, and design insights.
#LearnMindspace#LearnArchitecture#DesignThinking#ArchitectureLovers#SustainableDesign
🏛 The Future of Architecture: From Structures to Living Systems
The architecture industry is undergoing a transformation more profound than any seen in the last century.
It’s no longer just about designing buildings — it’s about crafting sustainable, adaptive ecosystems that respond to human needs, environmental realities, and technological possibilities.
Key shifts shaping the next decade:
Regenerative Design 🌱 – Going beyond “net-zero” to create buildings that give back to the environment.
Digital Twin & AI Integration 🤖 – Real-time simulations optimizing energy, safety, and user experience.
Material Innovation 🧱 – From self-healing concrete to bio-based composites redefining durability and aesthetics.
Human-Centered Urbanism 🌆 – Cities designed for walkability, inclusivity, and emotional well-being.
The line between architecture, technology, and ecology is dissolving.
In this new era, the most successful projects will be those that merge function, beauty, and purpose — creating spaces that not only house life but enhance it.
💡 Question for you: Which trend do you think will have the biggest impact on architecture by 2035?
#Architecture#UrbanDesign#Sustainability#Innovation#FutureTrends
From Seashell to Concert Hall
Made with DreamMachine by Luma AIhttps://lnkd.in/gPsFy5th
Design inspiration can begin with the smallest fragments of nature. A seashell spiral becomes a geometry of curves.
That geometry evolves into familiar forms.
And form unfolds into a luminous concert hall on the waterfront.
Techniques applied in this transformation:
• Image to Video – Converting natural patterns into architectural form
• Video as Storytelling – Unfolding the narrative of space and evolution
• Layered Visualizations – Building immersive, cinematic perspectives step by step
• Atmospheric Design – Blending proportion, light, and material into a final form
From fragment to future, this process shows how nature can guide the built environment.
Here be creatives, designers and architects.
What else can we transform into architecture?
🏛 Learn Mindspace: Learn Architecture
✨ Engagement Hooklines (Catchy Points):
1️⃣ Architecture is where art meets science.
2️⃣ Every sketch can become a living space.
3️⃣ Design isn’t just visual — it’s about how people experience it.
4️⃣ The future of cities begins with a blueprint today.
📚 What We Learned (Topic – Architecture Fundamentals):
✅ The core principles of form, function, and balance in design.
✅ How light, space, and structure influence human interaction.
✅ The role of materials and textures in creating atmosphere.
✅ Why sustainable design is the future of architecture.
✅ How architecture tells stories of culture and innovation.
🚀 Follow 👉 Mindspace: Learn Architecture
for more insights, inspiration, and practical knowledge in the world of design.
#LearnMindspace#LearnArchitecture#DesignThinking#Sustainability#ArchitectureInspiration
🏛 Learn Mindspace: Learn Architecture
✨ Catchy Hooklines (Point-Wise):
1️⃣ Architecture is not just building — it’s creating experiences.
2️⃣ Every design is a vision turned into reality.
3️⃣ Great architecture blends imagination with functionality.
4️⃣ Learning architecture is learning to shape human lives.
📚 What We Learned (Topic Takeaways):
✅ The importance of form & function in every structure.
✅ How natural light & ventilation influence living quality.
✅ Why sustainability is the backbone of modern design.
✅ The impact of materials, textures & colors on emotions.
✅ Architecture as a fusion of art, culture & engineering.
🚀 Follow 👉 Mindspace: Learn Architecture
for more insights, inspiration, and daily learning in design & architecture.
#LearnMindspace#LearnArchitecture#ArchitectureDesign#SustainableDesign#Creativity
🏛 Learn Mindspace: Learn Architecture
✨ Catchy Hooklines (Point-Wise):
1️⃣ Architecture is the art of shaping human experience.
2️⃣ Every design is a dialogue between space and purpose.
3️⃣ Great architecture balances creativity with functionality.
4️⃣ Learning architecture is learning to design the future.
📚 What We Learned (Key Insights):
✅ The importance of space planning for comfort and efficiency.
✅ How light and ventilation transform livability.
✅ The value of sustainability in modern architecture.
✅ How materials, textures, and colors shape emotions.
✅ Architecture as a blend of art, science, and culture.
🚀 Follow 👉 Mindspace: Learn Architecture
for more knowledge, inspiration, and design learning every day.
#LearnMindspace#LearnArchitecture#ArchitectureDesign#Sustainability#DesignThinking
Head of Innovation at Minrav Group
2wWell presented, makes the option to choose technology very obvious