Development of a 40% weight reduction technology for vehicle roof box structures using a new magnesium alloy with high corrosion resistance.
Project Title Vehicle roof box structure made of a new magnesium alloy with high corrosion resistance. 40% weight loss technology development Total Execution Period 2020.06.01 ~ 2022.12.31 Total Project Cost ₩1,665,420,000 Development Goal Roof box parts are replaced with a new magnesium alloy to reduce the weight of the internal structure by 40% and the […]
Creating an electric truck/bus vehicle application technology and operating environment with a variable rolling chassis.
Project Title Creating an electric truck/bus vehicle application technology and operating environment with a variable rolling chassis. Total Execution Period 2020.05.01 ~ 2022.12.31 Total Project Cost ₩7,361,400,000 Development Goal Development of a common platform for variable small electric buses/trucks that can be used in a versatile modular form, such as small buses for public transportation […]
Project Title Development of hybrid wet compression molding-based trunk lid mass production technology Total Execution Period 2017.10.01. ~ 2022.06.30 Total Project Cost ₩5,363,200,000 Development Goal To meet the demand for lightweight automobiles, we developed integrated trunk lid part technology using a high-speed molding fusion process of WCM (Wet Compression Molding) and C-SMC (Sheet Molding Compound). […]
Development of multi-material integration technology for a 40% weight reduction in the front body of an automobile compared to standard steel
Project Title Development of multi-material integration technology for a 40% weight reduction in the front body of an automobile compared to standard steel Total Execution Period 2016.07.01 ~ 2021.06.30 Total Project Cost ₩10,005,340,000 Development Goal To meet the demand for lightweight automobiles, the development of multi-material front body integration technology using ultra-high strength steel, aluminum […]
Through the use of CFRP multi-materials, a 25% weight reduction technology for the SUV front seat back frame has been developed.
Project Title Through the use of CFRP multi-materials, a 25% weight reduction technology for the SUV front seat back frame has been developed. Total Execution Period 2018.04.01 ~ 2020.12.31 Total Project Cost ₩2,793,531,000 Development Goal Development of a 25% lighter front seat back frame using a multi-material CFRP composite Development Content □ Production of a […]
Project Title Small electric vehicle battery pack structure development using lightweight composite materials Total Execution Period 2018.04.01 ~ 2020.12.31 Total Project Cost ₩2,783,100,000 Development Goal As the eco-friendly automobile market grows, it is critical to reduce body weight to improve energy efficiency. To address this, the development of a platform manufacturing technology for common micro-electric […]
Project Title Fiber-reinforced composite floor cover development for a micro electric vehicle design platform Total Execution Period 2018.10.01 ~ 2020.12.31 Total Project Cost ₩2,208,350,000 Development Goal Development of a fiber-reinforced composite floor cover with electromagnetic wave shielding performance for micro electric vehicles Development Content □ Design of a common platform for micro electric vehicles □ […]
Project Title Project to promote and demonstrate the micro electric vehicle industry Total Execution Period 2018.03.01 ~ 2020.02.28 Total Project Cost ₩1,950,000,000 Development Goal Creating a common platform for micro electric vehicles and lightweight parts that are tailored to the changes in the automobile industry during the fourth industrial revolution. Development Content □ Design of […]
Project Title CAE Technology Convergence Project to Improve Mold Industry Competitiveness Total Execution Period 2017.04.01 ~ 2019.12.31 Total Project Cost ₩2,141,460,000 Development Goal Convergence of press/forging/high frequency heat treatment technologies results in the development of a lightweight, high-strength, nut-integrated door hinge bracket. Development Content □ Development of multi-stage cold forming and forging technology using boron […]
Project Title Lightweight electric limousine seat frame development for improved convenience and safety Total Execution Period 2017.11.01 ~ 2019.10.31 Total Project Cost ₩723,400,000 Development Goal Electric limousine seat with 3-point seat belt for added convenience and safety. Lightweight frame development and manual 2-seater lightweight frame Development Content □ Lightweight design and structural analysis of a […]