Deep drawing allows the cold working of sheet metal, forming it into various three-dimensional shapes, primarily boxes, cups, or cylinders. MP uses specific deep-drawing moulds to achieve perfect cold working of the metal.Due to its remarkable versatility and ability to create complex and precise shapes, deep drawing is used by MP in various sectors.
Achieving high-quality metal drawing requires not only excellent technical execution but also the use of superior machinery and raw materials. The cold deformation process starts with the design and production of the mould - if the customer does not already have one.This design is developed in synergy with specialised partner companies. Deep drawing guarantees the production of complex accessories with precision and durability, enhancing the aesthetics of shapes and finishes.It also reduces costs by minimising waste and allows some parts to be produced as a single unit rather than assembled separately.
Deep drawing is well-suited for various materials, including stainless steel, aluminium, iron, copper, brass, titanium, and phosphor bronze. This process offers great versatility across different industrial sectors, making it an ideal choice for producing complex, high-precision components while ensuring efficiency, durability, and quality.
Stainless steel's ductility, resistance, and ability to maintain its shape make it ideal for the drawing process.
Aluminium is lightweight and has excellent thermal conductivity, making it perfect for deep drawing in applications where weight and thermal sensitivity are important.
Iron is robust, durable, and highly ductile, making it suitable for drawing structural and industrial components.
Copper's excellent properties, including electrical conductivity and corrosion resistance, make it versatile for multiple industrial applications.
MP collaborates with specialised companies to provide a service focused on designing and developing customised moulds suitable for metal drawing.This process demands meticulous attention to several key factors, including the geometry of the piece, the type of material being processed, and the applied pressure. The mould must ensure both precision and repeatability in forming, aiming to minimise surface defects and errors. Supported by a robust network of partners, MP optimises mould geometries and characteristics to ensure efficient and high-quality production.
