Abstract
Object of research. The article investigates the cutting forces when grinding martensitic-aging steels with highly porous grinding wheels.
 The problem to be solved is the regularities of the change in the magnitude of the cutting forces when grinding maraging steels with highly porous CBN wheels.
 Main scientific results. The studies were performed on martensiticaging steel H8K18M14. As a result of the experiments, it was found that when grinding wheels made of materials such as electrocorundum, CBN (borazon) and diamond, a significant role is played by the values of the cutting force, which increase during processing.
 During the experiment it was found out: the cutting forces Py and Pz in the width of the allowable modes, which are most often used in circular and flat grinding, can reach the following values: with the structure of the wheel 26 come to values from 2.714N to 30.721 and with the structure of the wheel 40 come to values from 2.49N to 28.185N.
 Reducing the grain size of the wheel, let’s obtain the effect of increasing the energy costs of the grinding process, by increasing the magnitude of the cutting forces.
 If to compare the cutting forces that occur when grinding different wheels, it is possible to note the following: in comparison with electrocorundum wheels when using wheels with KNB cutting forces are reduced by 20-25 %, and when grinding with diamond wheels, the effect of cutting forces is reduced by 25 - 30 %. When grinding with highly porous wheels, the cutting force is 15-20 % higher than when grinding with wheels of normal porosity.
 The area of practical use of research results-grinding technology for maraging steels.
 Innovative technological product – relationship between processing modes and the magnitude of cutting forces when grinding maraging steels.
 Scope of application of an innovative technological product-mechanical engineering technology
Highlights
The results of experimental research As a result of experimental studies it was found that when grinding martensitic-aging steel circles of diamond, electrocorundum and cubic boron nitride (CBN) cutting forces in the structure of the circle 26 come to values from 2.7 N to 30.7 N, and in the structure of the circle 40 come to values from 2.49 N to 28.2 N
For grinding wheels made of electrocorundum, diamond and CBN, changing their grain size from 25 to 8, it is possible to see an increase in the amount of cutting forces from 2–2.5 times, respectively
If to compare the cutting forces that occur when grinding with different wheels, it is possible to note the following: in comparison with electrocorundum wheels when using CBN circles, the cutting forces are reduced by 20–25 %, and when grinding with diamond wheels, the effect of cutting forces is reduced by 25–30 %
Summary
Martensitic-aging steels are ultra-high-strength steel alloys, a special class of low-carbon steel, which demonstrate excellent strength and toughness compared to most other steels, but have the same ductility. Their strengthening is achieved by using elements that differ favorably from carbon: nickel, cobalt and molybdenum. These elements cause the dispersion hardening of the martensitic iron-nickel matrix during aging, the name of steels. Such steels can be used in machine building, aircraft construction, space technology. They go to the manufacture of rocket engine housings, aircraft chassis parts, stamped assemblies and fasteners
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