TH45321A - How to produce stacked rings - Google Patents

Abstract

The cylindrical DC60 is prepared by bonding the opposite ends of the plated steel plate. Thin hard coatings The first homogenizing process affects round, cylindrical, and round cylinders are cut into a number of rings, with each ring having a specified width. After the ring has been rolled Process The second time is done on the ring that has already been rolled. And then the length surrounding the circle Of each ring will be modified The rings are then put through curing and nitrites, and then arranged. Together into a stacked ring First homogenization and processes Make a second homogeneous solution Will be done by using the same heating furnace in At the same atmosphere and at the same temperature range, a round cylinder is prepared by bonding opposite ends of the plated steel plate. Thin hard coatings The first homogenizing process affects round, cylindrical, and round cylinders are cut into a number of rings, with each ring having a specified width. After the ring has been rolled Process The second time is done on the ring that has already been rolled. And then the length surrounding the circle Of each ring will be modified The rings are then put through curing and nitrites, and then arranged. Together into a stacked ring First homogenization and processes Make a second homogeneous solution Will be done by using the same heating furnace in Same atmosphere and in the same temperature range

Claims (6)

1.How to produce stacked rings Where there are steps of Round cylinder preparation By welding the opposite ends of the steel sheet. Thin hard coating Performing the first homogenization process Connect the round cylinder after that shear it into a number of rings. With each ring having a specified width Rolling such rings A second homogenization process was performed per such ring. That has been rolled After that, it is to adjust the circle length of each such ring. And create nitrite to rings and stacking rings, which has undergone a curing process And create the said nitrite into a superimposed ring Where such first homogenization And dilution One such second meat Being performed simultaneously At the same time By using a single heating furnace, the homogenization process was performed in a temperature range from about 760-850 C and in a nitrogen atmosphere containing 1-10% hydrogen and a freezing point range. From -7 to 0 ํ or a nitrogen atmosphere containing 1-30% hydrogen and a freezing point range from -70 to -40 ํ, the hardened steel plate is re-crystallized at approximately 760 ° F. C 2. The method described in claim 1, where the aforementioned second homogenization process will affect the ring. In such a way that the ring after the process Make a second homogeneous solution In such an atmosphere During these temperatures it has a circular shape. 3. Methods set out in claim 2, where the homogenization process The second such Will affect the aforementioned ring That by bringing the edges around each ring to Placed on the floor of such heating furnace 4. Methods specified in claim 3, where the aforementioned second homogenization process will have an effect on that ring. By taking the edge around each ring to Placed on a metal grid Placed on the surface of the said heating surface 5.The method specified in claim 1, where such a heating surface consists of an input point in order to supply the atmosphere with a nitrogen atmosphere. And take a round cylinder that Welded, then bolted or rolled rings into a nitrogen atmosphere. And point one to give Hot to a cylindrical, round, or ring up to such a temperature range. And a second point to make the cylinder or ring in the said temperature range at the specified time The third point is for Cools the cylindrical or ring and ejection point in order to change the nitrogen atmosphere. With atmosphere and to bring out the cylindrical, round or ring body By the process of making substances The aforementioned first homogenization and a second homogenization process. It is performed by a continuous inlet which cylindrical, round or ringed into the said input point. Conveying cylindrical, circular or continuous rings through one such point. The aforementioned second and the third aforementioned points and the ejection of the cylinder, round or ring from the said ejection point. 6.Methods set out in claim 1, where such first homogenization and such second homogenization Is performed simultaneously for the same time, that time is the time it takes for the reagent process. Second single thawing of the ring Due to the second homogenization process As such, it takes more time than first homogenizing.