Tesla Panels’ Post

🚗🔋 𝐁𝐌𝐖 𝐂𝐨𝐦𝐩𝐥𝐞𝐭𝐞𝐬 𝐊𝐞𝐲 𝐌𝐢𝐥𝐞𝐬𝐭𝐨𝐧𝐞 𝐢𝐧 𝐍𝐞𝐰 𝐇𝐢𝐠𝐡-𝐕𝐨𝐥𝐭𝐚𝐠𝐞 𝐁𝐚𝐭𝐭𝐞𝐫𝐲 𝐏𝐥𝐚𝐧𝐭 𝐂𝐨𝐧𝐬𝐭𝐫𝐮𝐜𝐭𝐢𝐨𝐧 BMW has successfully installed all 1,066 pillars for its high-voltage battery assembly plant in Irlbach-Strasskirchen, Bavaria, just 16 weeks after starting construction. The facility, which will produce sixth-generation batteries for BMW’s upcoming Neue Klasse electric vehicles, is set to create 1,600 jobs and boost BMW’s e-mobility efforts. Despite weather challenges, the project is on schedule, with production expected to begin in 2026. Digital planning and collaboration have been crucial in speeding up global construction progress across multiple BMW sites. Key Points: 1,066 pillars installed in record time. 1,600 jobs to be created. Battery production for Neue Klasse EVs begins in 2026. Stay updated with the latest insights by visiting xpylon.com. https://lnkd.in/eEmRUeB7 #EnergyTransition #SustainableEnergy #EV #BatteryPlant

There is a global housing crisis: across the world, cities are challenged to build enough housing to keep up with an increasing population. Unfortunately, scaling up traditional building processes to meet this demand will have the knock on effect of increased pollution and construction waste. However, there are better ways to build. Meet Assembly OSM and the innovate work they are doing to reinvent how cities are built. We at CATIA are proud to see our most powerful design and engineering solutions put to use in order to tackle the housing crisis, reducing time to market and lowering their carbon footprint. To learn more about Assembly OSM, their mission, and how CATIA is helping support their innovative approach to construction, check out the latest interview on Freethink with Assembly OSM CEO Andrew Staniforth. It is an excellent glimpse into the future of building and a revolutionary company that is rethinking how to build in the 21st century. Watch the full interview here: https://lnkd.in/e5uS7jpV

In electric motors, size is everything. Axial flux motors pack serious power in a compact design, delivering up to 4 times the power density of traditional radial flux motors. This makes them ideal for industries prioritizing space and efficiency in their applications.   Curious how they work? Dive deeper into our latest blog: https://lnkd.in/gDFqeYSc

Arnold's #PermanentMagnet Rotors enable high-efficiency motor manufacturing because of their power-dense properties. Need assistance on a high-efficiency #ElectricMotor design? We've got you covered. https://bit.ly/3OfmNaP

🌊🚢 Engineering at Its Finest: The Falkirk Wheel in Action! 🚢🌊 Prepare to be amazed! The Falkirk Wheel is no ordinary structure—this rotating hydraulic boat lift connects the Forth and Clyde Canal with the Union Canal, overcoming a staggering 24-meter height difference—that’s the equivalent of an 8-story building! 🏗️ A true marvel of modern engineering, this iconic masterpiece combines functionality with breathtaking design, showcasing Scotland’s legendary engineering prowess in the 21st century. ⚙️✨ Watch the video to see this mechanical wonder in action and witness how innovation meets tradition. What are your thoughts on this awe-inspiring achievement? Let’s celebrate the brilliance of human ingenuity! 💡👏 📽️: Unknown All rights reserved to respective owner. DM for credits. Follow SmartConstruct News for all the latest updates #EngineeringMarvel #FalkirkWheel #ModernEngineering #InnovationInAction #ScotlandEngineering

Imagine a paint that could charge an electric vehicle (EV) simply by being exposed to sunlight. This groundbreaking innovation, known as solar paint, offers a new avenue for sustainable energy generation, with potential applications in automotive design, architecture, and product development. Mercedes-Benz is working on such a paint, demonstrating its commitment to advancing sustainable technology. Read more at https://lnkd.in/e8ZNYrkp #SolarPaint #RenewableEnergy #EVTechnology #GreenEnergy #SmartMaterials #AutomotiveDesign #MaterialScience #materialinspiration #materials #coatings #energytransition

Get ready to dive deep into the world of automotive engineering 🚗 Our new series, "Inside Vehicle Architecture," is coming to you on October 2nd. Join your hosts, Nikhil Reginald James and ᖇᗩᑌᒪ ᗩᖇᖇEᗪOᑎᗪO ᗰᗷᗩ - ᗩᑌTO, Eᐯ, ᗷᗩTTEᖇY, as they explore the intricacies of vehicle design. Discover the latest trends, innovations, and the minds behind the cars of tomorrow. 💡 Don't miss this opportunity to gain valuable insights into the automotive industry. Stay tuned for more updates! #AutomotiveEngineering #VehicleDesign #Innovation #InsideVehicleArchitecture

Revolutionizing Home Construction: The Investor's Advantage. Imagine hitting “print” on your laptop and activating a robot to build a livable home. This seemingly sci-fi scenario is happening now and could revolutionize the housing market. One major issue in the undersupplied housing market is human labor. Enter 3D printer robots, which use a specialized hose to funnel concrete in concentric patterns according to a programmed floor plan, creating the outer and inner shells of a new home. This process significantly reduces construction costs compared to traditional methods. With a housing market short by around 7 million homes, companies like Alquist 3D, Apis Cor, Icon, and CyBe Construction are changing how and how quickly homes are built. Because these 3D-printed homes are made of concrete, they are inherently resistant to hurricanes and earthquakes, meet international building codes, and are up to 30% cheaper to build than traditional homes. During construction, metal concrete reinforcement is added every 10th layer for added strength, similar to rebar. Unlike human labor, robots don’t tire, work continuously, and can build the outer structure of a 1,300-square-foot home in about 40 hours. It's no surprise that the 3D printing construction industry is projected to generate $40 billion in total revenues by 2027. A Streamlined Operation 3D-printed houses will have a significant impact on the affordable housing sector. Organizations like Habitat for Humanity are already using this technology to produce housing on a large scale. Other benefits include cleaner job sites with less waste and higher energy efficiency due to concrete construction. With a shortage of construction workers, 3D printing requires only one or two people to oversee operations. Using synthetic concrete from recycled glass and solar-paneled roofs, 3D-printed homes could be energy-neutral, producing as much energy as they use. National Homebuilders Are Embracing the Technology Building homes with this new technology challenges the conventional lumber-based housing methods used in the U.S. for the past century. Convincing the construction industry to adopt this revolutionary approach will take time. A key factor is gaining support from national homebuilders. For example, a new 3D housing community of 100 homes is being developed by Icon and national homebuilder Lennar in Austin, Texas, attracting significant attention. “In the future, I believe robots and drones will build entire neighborhoods, towns, and cities, and we’ll look back at Lennar’s Wolf Ranch community as the place where robotic construction at scale began,” Icon CEO Jason Ballard said in a statement. How 3D-Printed Homes Will Affect Real Estate Investing This all sounds promising, but what does it mean for real estate investors? Here are four key considerations.

The design of train wheels involves several physics principles to ensure stable and efficient rail travel. 1. Flanges for Lateral Stability: - Train wheels have a flange, which is a raised ridge on the inner edge of the wheel. This flange plays a crucial role in preventing lateral (side-to-side) movement of the train. - When the train encounters a curve, the outer wheel travels a longer distance than the inner wheel. The flange on the inner wheel makes contact with the inside of the rail, resisting the tendency of the train to move laterally. 2. Curvature and Self-Centering: - The shape of the train wheels is conical, with a slightly tapered profile. This design helps in self-centering the wheels on the track. - As the train moves along a straight track, the conical shape ensures that the wheels naturally align themselves. If the train experiences any lateral displacement, the conical shape encourages the wheels to return to the center of the track. 3. Guidance and Track Alignment: - The interaction between the flanges and the rail plays a crucial role in guiding the train along the track. - During turns, the flanges on the inside of the wheels make contact with the inside surface of the rail, helping to maintain proper alignment. This prevents the train from derailing and ensures that it follows the curvature of the track. 4. Reduced Friction and Wear: - The conical shape of the wheels also contributes to reducing friction between the wheel and the rail. - This design minimizes wear on both the wheels and the rails, enhancing the longevity of the railway infrastructure. 5. Weight Distribution: - The weight of the train is distributed over multiple wheels, ensuring that each wheel carries a proportionate load. This even distribution of weight helps in maintaining stability and prevents excessive wear on individual wheels. The combination of flanges, conical shape, and careful engineering principles allows trains to navigate tracks safely and efficiently, even through curves and varied terrains. Feel free to share your thoughts and /or reshare the post. 😊 Video credit and rights are reserved for the respective owner(s). #engineering #innovation #design

Design of train - Physics principles