Ionad Nuachta

Gaibhniú agus réitigh


I gcomparáid le teilgin, is féidir le miotail a mhicreastruchtúr agus a airíonna meicniúla a fheabhsú tar éisbrionnú. After hot working deformation of the casting structure, the original coarse dendrites and columnar grains are transformed into fine-grained and uniform-sized equiaxed recrystallized structures due to the deformation and recrystallization of the metal, which causes the original segregation, The compaction and welding of loosening, porosity, slag inclusion, etc., the organization becomes tighter, improving the plasticity and mechanical properties of the metal. The mechanical properties of castings are lower than those of brionnús of the same material. In addition, the brionnú process can ensure the continuity of the metal fiber structure, keep the fiber structure of the brionnú consistent with the shape of the brionnú, agus tá an líne sreafa miotail críochnaithe, rud a fhéadfaidh a chinntiú go bhfuil airíonna meicniúla maithe agus saol seirbhíse fada ag na codanna. Faigheann beachtas básbrionnú and cold extrusion The brionnús produced by hot extrusion and other processes are all unmatched by castings. The brionnús are metal objects that are pressed and shaped by plastic deformation to the required shape or suitable compression force. This power is typically achieved through the use of hammers or pressure. The casting process builds an exquisite granular structure and improves the physical properties of the metal. In the actual use of components, a correct design can make the particle flow in the direction of the main pressure. Castings are metal shaped objects obtained by various casting methods, that is, smelted liquid metal is poured into pre-prepared casting molds by pouring, injection, suction or other casting methods, and after cooling, the sand is dropped, cleaned and after Processing, etc., to obtain objects with a certain shape, size and performance.

We use cookies to offer you a better browsing experience, analyze site traffic and personalize content. By using this site, you agree to our use of cookies. Privacy Policy
Reject Accept