Forging in processing, need to be heated deformation, so we for forging deformation degree should be how to choose, this is a problem that many friends care about. In the processing of forgings, the deformation degree of forgings refers to the forging according to the specific requirements of forming, so the change in shape. For example, the shape and size of forgings after punching will have a certain change, so we should strictly control the forging deformation process, so that the forging has the correct deformation process. When choosing the degree of deformation of forgings, we need to combine a concept, that is the forging ratio. Because in the deformation of forgings, generally the size of the height direction becomes smaller, and the radial size becomes larger. Forging ratio is a way of expressing the degree of metal deformation during forging. We can change the forging ratio to get different shapes of forgings. If the deformation of the metal as an example, then in the selection of forging deformation degree, need to consider the ratio of the cross-sectional area before and after the calculation. In different forging processes, the calculation method of forging ratio is not the same. If we want to make the size and shape of the forgings conform to our use, we should choose a good forging ratio, so as to make the deformation degree of the forgings in a reasonable range.
How to choose the degree of forging deformation
Forging in processing, need to be heated deformation, so we for forging deformation degree should be how to choose, this is a problem that many friends care about. In the processing of forgings, the deformation degree of forgings refers to the forging according to the specific requirements of forming, so the change in shape. For example, the shape and size of forgings after punching will have a certain change, so we should strictly control the forging deformation process, so that the forging has the correct deformation process. When choosing the degree of deformation of forgings, we need to combine a concept, that is the forging ratio. Because in the deformation of forgings, generally the size of the height direction becomes smaller, and the radial size becomes larger. Forging ratio is a way of expressing the degree of metal deformation during forging. We can change the forging ratio to get different shapes of forgings. If the deformation of the metal as an example, then in the selection of forging deformation degree, need to consider the ratio of the cross-sectional area before and after the calculation. In different forging processes, the calculation method of forging ratio is not the same. If we want to make the size and shape of the forgings conform to our use, we should choose a good forging ratio, so as to make the deformation degree of the forgings in a reasonable range.
Forging in processing, need to be heated deformation, so we for forging deformation degree should be how to choose, this is a problem that many friends care about. In the processing of forgings, the deformation degree of forgings refers to the forging according to the specific requirements of forming, so the change in shape. For example, the shape and size of forgings after punching will have a certain change, so we should strictly control the forging deformation process, so that the forging has the correct deformation process. When choosing the degree of deformation of forgings, we need to combine a concept, that is the forging ratio. Because in the deformation of forgings, generally the size of the height direction becomes smaller, and the radial size becomes larger. Forging ratio is a way of expressing the degree of metal deformation during forging. We can change the forging ratio to get different shapes of forgings. If the deformation of the metal as an example, then in the selection of forging deformation degree, need to consider the ratio of the cross-sectional area before and after the calculation. In different forging processes, the calculation method of forging ratio is not the same. If we want to make the size and shape of the forgings conform to our use, we should choose a good forging ratio, so as to make the deformation degree of the forgings in a reasonable range.
Forging in processing, need to be heated deformation, so we for forging deformation degree should be how to choose, this is a problem that many friends care about. In the processing of forgings, the deformation degree of forgings refers to the forging according to the specific requirements of forming, so the change in shape. For example, the shape and size of forgings after punching will have a certain change, so we should strictly control the forging deformation process, so that the forging has the correct deformation process. When choosing the degree of deformation of forgings, we need to combine a concept, that is the forging ratio. Because in the deformation of forgings, generally the size of the height direction becomes smaller, and the radial size becomes larger. Forging ratio is a way of expressing the degree of metal deformation during forging. We can change the forging ratio to get different shapes of forgings. If the deformation of the metal as an example, then in the selection of forging deformation degree, need to consider the ratio of the cross-sectional area before and after the calculation. In different forging processes, the calculation method of forging ratio is not the same. If we want to make the size and shape of the forgings conform to our use, we should choose a good forging ratio, so as to make the deformation degree of the forgings in a reasonable range.