An upcoming Gameboy-style RPG! The Secret of Varonis features old-school combat mechanics and visuals faithful to the gaming heyday of 1989. If you're nostalgic for retro games, or just looking for a good, challenging RPG, this game is probably a good fit.
We'll be updating the devlog until our expected release in early 2023.
Customize your party to take on the secret city and the many trials beyond!
Interested in the project? Subscribe with your email and we'll mail you with any major announcements. We also update the devlog and twitter on a regular basis.
When shopping for EV accessories—roof boxes, skid plates, or replacement bumpers—look for the FRP Electromobiletech Verified mark. It guarantees your upgrade won’t compromise your family’s safety or your battery’s integrity.
If you are a composite manufacturer or EV part supplier, the verification process involves:
Typical turnaround: 8–12 weeks. Cost: Varies by part complexity (€5,000–€25,000).
Abstract The global shift toward electric vehicles (EVs) presents unique engineering challenges, primarily range anxiety and battery weight. Fiber Reinforced Polymer (FRP) composites have emerged as a critical solution for lightweighting EV structures. This paper reviews the application of FRP in electric vehicles, focusing on weight reduction, structural safety, and specific components such as battery enclosures and chassis.
1. Introduction Electromobiles rely on heavy battery packs to store energy. Unlike internal combustion engine (ICE) vehicles, where weight reduction improves fuel economy, in EVs, weight reduction directly increases the vehicle's range—a primary consumer concern. FRP, particularly Carbon Fiber Reinforced Polymer (CFRP) and Glass Fiber Reinforced Polymer (GFRP), offers high strength-to-weight ratios compared to traditional steel or aluminum. frp electromobiletech verified
2. Key Applications of FRP in EVs
3. Challenges
4. Conclusion FRP materials are essential for the next generation of electromobiles. By reducing the "parasitic weight" of the vehicle structure, FRP allows for smaller, cheaper battery systems while maintaining range targets. Future research focuses on reducing material costs and improving the circular economy of composite recycling.
Recent industry reports have exposed disturbing trends: When shopping for EV accessories—roof boxes, skid plates,
The FRP Electromobiletech Verified system directly addresses these risks. For insurance companies, specifying verified components can reduce liability premiums. For fleet managers, it means fewer unexpected breakdowns. For individual owners, it provides peace of mind that a replacement part won't become a fire hazard.
If you need a specific PDF or DOI to cite for a university assignment or research, here are three verified papers from reputable journals on this exact topic:
1. Lightweighting Electric Vehicles with Composites
2. Battery Enclosures
3. Lifecycle Assessment
Verified research (e.g., Chalmers University of Technology, 2022) demonstrates multifunctional FRP that acts as both structural chassis and battery electrode. Carbon fibers serve as negative electrode current collectors, storing energy while bearing load—a verified pathway to "massless energy storage."
The EV aftermarket and Tier 2 supplier space have seen an explosion of uncertified FRP parts. These components often look identical to certified parts but fail catastrophically under real-world conditions. Common issues include:
FRP Electromobiletech Verified solves this by introducing a rigorous, multi-stage validation protocol specifically designed for electric drivetrains. Typical turnaround: 8–12 weeks
EVs face road salts, coolants, and humidity. Verified parts are submerged in 5% NaCl solution at 50°C for 1,000 hours, showing less than 1% mass gain and no delamination.
Only products that pass all five pillars earn the FRP Electromobiletech Verified badge.