Join us on a fascinating journey as we explore the groundbreaking manufacturing process behind Tesla’s Gigapress, the revolutionary injection molding technology that is transforming the production of large structural parts for electric vehicles. In this video, we accompany industry expert Sandy Munro as he visits the Idra factory in Italy, the sole manufacturer of Gigapress machines.
The injection molding process has long been a staple in the automotive industry, used for producing various components. However, the traditional method was not suitable for manufacturing large structural parts, which were predominantly made through the stamping of aluminum and steel sheets. Sensing the shift in demand with the rise of electric vehicles, Idra recognized an opportunity and embarked on a mission to develop massive injection presses capable of producing chassis and other substantial components.
The collaboration between Idra and Tesla began when Elon Musk became intrigued by the idea of using injection molding for manufacturing Tesla’s vehicles. The video takes us through the awe-inspiring process of the Gigapress, focusing on the production of parts for the Model Y. Standing at an impressive 748 inches long, 276 inches wide, and 236 inches high, weighing a staggering 430 tonnes, the Gigapress operates with incredible precision.
The manufacturing process starts with melting aluminum at temperatures exceeding 800°C (1472°F) in a furnace, which is then purified using an efficient silicon carbide filter. A soybean oil-based mixture is applied to the mold for easy removal, and a vacuum is created to ensure a perfect fit. The liquid aluminum is injected into the mold, conforming to its shape in less than a second. After separation, the newly formed part is cooled in a basin while technicians inspect and prepare the mold for reuse.
Idra’s engineering prowess comes to the forefront as they demonstrate their innovative hydraulic system. For the Gigapress, which requires tremendous force, they implemented a regenerative hydraulic system to counter cavitation issues, ensuring precise control over the injection speed. This design allows Idra to achieve exceptional efficiency, resulting in energy savings of over 50% compared to traditional methods.
Moving on to the remarkable 9,000-ton Gigapress, we learn that the force is not its actual weight but rather the pressure required to hold the mold parts together during the injection process. The video explains the high-speed version’s advantages in reducing cycle times and showcases the intricate mechanisms that secure the mold and guarantee the press’s structural integrity.
Idra’s engineers tackled the challenge of creating a turntable design for the Gigapress, opting for a hollow structure for enhanced strength and easier inspection. The use of a mechanical lever called the toggle ensures smooth rotation and constant lubrication of the metal bushes, maintaining optimal performance.
The video concludes with John, our guide at Idra, emphasizing their commitment to delivering injection molding machines within one year of ordering. He also reveals that Idra is not limited to collaborating with Tesla alone and has the capacity to triple their press production.
As we witness the manufacturing marvel of the Gigapress, we invite you to envision its potential impact on the automotive industry. Which carmakers will adopt this game-changing technology next? How will Tesla utilize the Gigapress for the production of the Cybertruck? And what other innovative applications could arise from these monumental machines? Join the discussion in the comments and stay tuned for more captivating videos like this.