Composights的动态

??Breaking News?? Have you heard about the E-Bus made with Glass Fibre Composites? Navrattan Group is set to revolutionize the electric vehicle (EV) market with the launch of its new E-Bus, crafted from high-quality glass fibre composite materials. This groundbreaking approach in bus manufacturing promises to significantly enhance efficiency and sustainability in public transportation. The use of advanced glass fibre composite technology is a key feature of the E-Bus, making it remarkably lightweight. This reduction in weight not only boosts the bus’s operational efficiency but also contributes to better fuel efficiency and reduced road wear, addressing common concerns in urban transportation. The lightweight construction of the E-Bus is a standout feature in the market. By incorporating these advanced composite materials, the bus achieves superior durability and resistance to typical wear and tear. This results in lower maintenance costs and a longer service life compared to conventional buses, offering a cost-effective solution for public transport systems. Follow Composights to catch all the latest buzz in composites!?? Source: Navrattan Group #ebus #EV #fiberglass #technology #composite #lightweight #composights

Silence is Power. Design is Freedom . . . #tech #innovation #frenchtech #greentech #electric #mobility #motorcycle #automotive #electricmotorcycle #madeinfrance #electriccars #motorcycle #mobilitysolutions #ev #transportation #electricvehicles #dabmotors #dirtbike #supermoto #scrambler #engineering #design #vehicule #sustainable #city

From my earliest days customizing motorcycles, my passion for lightness has been central. I even named my first custom and production bikes 'LM' for Light Motorcycles. Inspired by the simplicity and efficiency of dirtbikes, I've always admired the balance of lightweight frames, slim profiles, and powerful yet compact engines. These elements—like the large handlebars and nimble chassis—have not only influenced my designs but also shaped my approach to engineering and innovation in the EV industry. . . . #DABMotors #tech #innovation #greentech #electric #mobility #motorcycle #automotive #electricmotorcycle #madeinfrance #electriccars #mobilitysolutions #ev #transportation #electricvehicles #dirtbike #scrambler #engineering #design #sustainable #city

The electromobility revolution: how GFRP transversal blade springs are shaping the future Electromobility has undergone rapid development in recent years and is increasingly seen as the key to reducing the environmental impact of the transport sector. ?? ???? In this context, innovative technologies play a crucial role in making electric vehicles more efficient, safer and more sustainable. One of these pioneering technologies is GFRP transversal blade springs, the use of which is already shaping the electromobility of the future. Lightweight construction: GFRP transversal blade springs, made from glass fiber-reinforced plastic, have been used in the automotive industry for some time, but their potential for electric vehicles is particularly promising. One of the key advantages of these springs is their low weight combined with high strength, resulting in a significant reduction in vehicle weight. This is crucial as lighter vehicles have higher energy efficiency and therefore increase the range of electric cars. Durability: GFRP transversal blade springs are corrosion-resistant and durable, which contributes to an extended service life of vehicle components. This not only reduces maintenance and operating costs, but also reduces the environmental footprint of electric vehicles. Structure and space requirements: With practically unchanged driving behavior compared to conventional axle systems, the use of the wheel-guiding GFRP transversal blade spring enables a significantly more compact axle structure with a reduced number of chassis components. This is reflected in a gain in installation space, which enables the use of larger batteries, for example. Innovations such as GFRP transversal blade springs are key to the ongoing revolution in electromobility. Thanks to their many advantages, they help to increase the performance, efficiency and sustainability of electric vehicles. The future of mobility is green, innovative and shaped by technologies such as GFRP transversal blade springs - a future we can all look forward to. ?????? #mubeagroup #mubea #innovation #lightweight #leichtbau #Elektromobilit?t #Innovation #GFKQuerblattfedern #Sustainability #Zukunftsgestaltung ????

Believe in singularity, avoid conformity. . . . #DABMotors #tech #innovation #greentech #electric #mobility #motorcycle #automotive #electricmotorcycle #madeinfrance #electriccars #mobilitysolutions #ev #transportation #electricvehicles #dirtbike #scrambler #engineering #design #sustainable #city

Transitioning industrial and transport sectors to be more sustainable is a sizeable challenge, especially in #refrigeration and #airconditioning systems traditionally dependent on fossil fuels. When we designed the #Unicla eDrive, we set out to develop a compressor that not only improves efficiency and reliability but also integrates seamlessly with a range of mobile systems, adapts to different climatic conditions, and supports diverse refrigerants while being easy to maintain and service. Did we achieve our goal? You bet! ?? In fact, the eDrive has just won a globally recognised Good Design Award, celebrating innovation and impact in engineering design. This is the most prestigious design award to win in Australia and we share the win with our friends at ShapeLabs, Griffith University, Innovative Manufacturing CRC (IMCRC) and Red-Embedded Design who were instrumental in the design process. https://lnkd.in/gmRfKG5U #gooddesignawards2024 #engineeringdesign #electriccompressor #hvacr #innovation

CO2 is not the only harmful emission from #transports. As vehicles travel on roads, the friction generated by brake, tyre, and road, among others, lead to?Non-Exhaust Emissions (NEE). In the UE, NEE is predicted to be 94% of total PM10 emissions and 90% of PM2.5 by 2030, together with other harmful species, like microplastics. The #LifeNeeve project, with a ???????????? ???? ???????? ???????? ?? ?????????????? ??????????, has just started, aimed to achieve an accurate real-time monitoring of NEE for a better understanding of their impact as well as a significant reduction, through both technical and governance solutions. At #Paudire we have contributed to the creation of LIFE NEEVE, where we analyze its wider impacts and design strategies to overcome the barriers for the wide adoption in the automotive sector. A few days ago, in #Seville, we held the first meeting with all the partners. If you are a #company or #researcher with a project idea, do not hesitate to consult with our team. Universidad de Sevilla CHM Infraestructuras CIEMAT HORIBA Icer Brakes RDT Ingenieros RDT SIMULATION (Centro de Excelencia en simulación numérica de RDT Ingenieros) Universidad Miguel Hernández de Elche Swedish National Road and Transport Research Institute (VTI) Centro Tecnológico de la Construcción Region de Murcia IDiBE - UMH

IronLev: Magnetic Levitation for the Future What is IronLev? IronLev is a disruptive ferromagnetic levitation technology that allows vehicles to levitate in a stable and extremely safe way. Unlike traditional magnetic levitation (maglev) systems, IronLev doesn’t rely on electricity to keep vehicles afloat. Instead, it uses cost-effective ferromagnetic principles, making it an environmentally sustainable solution. How Does It Work? Frictionless Movement: IronLev enables vehicles to glide smoothly without any friction. Imagine trains floating effortlessly along tracks, eliminating wear and tear. Energy Efficiency: IronLev doesn’t require constant electrical power to maintain levitation. This efficiency translates to lower operational costs Safety First: IronLev ensures high levels of safety, making it suitable for various applications, from industrial elevators to futuristic transport systems. Real-World Applications: Transportation Revolution: IronLev is the core technology driving the maglev revolution. It can unlock huge opportunities for next-generation transportation systems. Industrial Elevators: IronLev’s stable levitation is ideal for moving heavy loads in factories and warehouses. Architectural Innovation: IronLev powers sliding doors with minimal friction and zero noise, enhancing design possibilities. LetExpo 2024: IronLev recently showcased the world’s first test of a magnetic levitation vehicle on existing railway tracks. A prototype vehicle weighing one ton achieved a self-limited speed of 70 km/h! ?? The Future Standard: IronLev aims to become the future standard for magnetic levitation, offering safety, performance, and sustainability. So, keep an eye on this game-changing technology—it’s propelling us toward a frictionless, electrifying future! ? Remember, innovation knows no bounds! ?? #technology #engineering #innovation #future #automotiveindustry #design

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Carbon Fiber: Revolutionizing Modern Materials Introduction Carbon fiber is a material that has transformed various industries with its remarkable properties. Known for its strength and lightness, carbon fiber is composed of thin strands of carbon atoms bonded together in a crystalline formation. These fibers, thinner than a human hair, are woven together to create a fabric, which can then be combined with a resin to produce a composite material that is incredibly strong and lightweight. Properties of Carbon Fiber 1. **High Strength-to-Weight Ratio:** One of the most significant advantages of carbon fiber is its high strength-to-weight ratio. It is stronger than steel but much lighter, making it an ideal material for applications where reducing weight is crucial without compromising strength. 2.Corrosion Resistance: Unlike metals, carbon fiber does not corrode, making it highly durable and resistant to environmental degradation. This property is particularly advantageous in industries like aerospace and marine, where exposure to harsh environments is common. 3.Fatigue Resistance: Carbon fiber exhibits excellent fatigue resistance, meaning it can withstand repeated loading and unloading cycles without significant degradation. This property is essential in applications like aircraft, where materials are subjected to constant stress. 4. Thermal Stability: Carbon fiber maintains its properties over a wide range of temperatures, making it suitable for use in extreme environments, from the cold of space to the heat of engines. 5. Electrical Conductivity: Carbon fiber can conduct electricity, which is a property that can be both advantageous and disadvantageous, depending on the application. This conductivity must be managed carefully in applications where it is not desired. Applications of Carbon Fiber 1. Aerospace and Aviation: Carbon fiber has become a staple in the aerospace industry due to its lightweight and strong nature. Aircraft components, such as wings, fuselages, and interiors, increasingly rely on carbon fiber composites to improve fuel efficiency and performance. 2. **Automotive Industry:** High-performance vehicles, including sports cars and Formula 1 race cars, use carbon fiber extensively to reduce weight and enhance speed and handling. As the automotive industry shifts toward electric vehicles, carbon fiber's lightweight nature is becoming even more critical for improving battery efficiency and vehicle range. Conclusion Carbon fiber is a game-changing material that combines strength, lightness, and durability in a way that few other materials can match. Its impact on industries from aerospace to automotive to sports is profound, and as technology advances, its use will likely expand even further. #snsinstitutions #snsdesignthinkers #designthinking