Do you want to know about the transformation of metal into shape? Have you ever though about how a piece of flat metar is turned into a piece of high joint structure like a case door or airplane wing? We will now take a closer look at hydraulic metal sheet bending machine and find out why is it very important in the engineering field.
A special procedure known as metal sheet pressing reshapes metal sheets by using pressure. Using this technique, we can create certain shapes and designs as required in different products. To create these objects we use powerful machines called hydraulic or mechanical presses. In addition to these machines, we also need a special tool called a die to help develop the desired shape.
The process of pressing metal sheets is not as easy as it sounds, it is a very technical work. However, it always comes down to every little detail in this piece of work to create the exact thing that what do we deserved. At STON, we bring with us our team of experienced engineers and workers from all walks of life who spare no effort to ensure every product manufactured to perfection.
Metal sheet pressing is among the most important engineering processes. It is integral to the production of many different products we see and use on a daily basis. These items consist of automotive parts, components of aircrafts, building construction materials, and common household products. It is an efficient, low-cost method which can be scaled to produce small- or high-volume products.
The first operation in the metal sheet pressing procedure is design. The STON team clarifies design details with the client.restore2The STON team confirms the design with the client. Based on the product specifications, once the design is approved, our team works to make the tools and dies tailored made. These toolings and dies are critical, as they allow us to create the specific shapes and sizes called for in the design.
Once the tools & dies are ready, metal sheets are fed into the press. Then strong pressure is applied by the press to the sheets, forcing them into the shape of the dies. Once the metal sheets have been stamped out into the intended shapes, our specialists need to remove the shaping dies and adjust them, as required, to get the size and shape just right.
The technologies we embrace — at STON we invest in the latest machinery, stamped metal sheets at STON are fast and precise. STON can achieve a multitude of shapes and sizes by taking advantage of various tools and dies. We have the ability to adjust our services based on the requirements of the clients irrespective of the project size.
STON puts a strong emphasis on R&D investment and is always at the forefront of the technology of the industry. We have an R&D team of more than 20 people. We invest 30% of our revenue each year to develop new products, as well as upgrading existing ones. Through our collaboration with research and universities, we continue to expand our technological capabilities so that we can quickly respond to market changes and customer needs.
STON is a world-class CNC machinery firm and certified management enterprise. It was the first company in the world to receive the ISO 9001-2000 international certification for quality management systems. The company has also been granted the titles of Shandong SRDI Enterprise, and Shandong Gazelle Enterprise. The company is the holder of more than 100 patents. Our products, backed by over 80 countries are recognized for their precision, reliability and exceptional craftsmanship. They are the standards in the market.
STON uses multiple quality control methods throughout the production process. These include inspections of materials and testing in the process along with final product inspection. STON ensures that each piece of equipment is tested to international standards and is in compliance with them.
If there is failure, our techs will arrive on the scene quickly to repair it remotely by telephone or video. If the problem must be repaired on site then we will be on the location of the customer in the shortest amount of time.
