Dmitry Lobanov scite author profile

One of the prevalent ways of machining is milling, however to obtain the high fiberglass composite surface quality is difficult because of its layered structure, high strength and low thermal conductivity characteristics. This leads to the need for milling technology which provides high-quality surface. Our experiments for milling of the fiberglass composite show that the surface roughness, as one of the quality criteria, to a large depends on cutting conditions, tool material and wear of the cutting edge determined by the bevel rear tool wear. To ensure of the surface quality of the composite material during milling recommended that the bevel rear tool wear does not exceed 0.35 mm, cutting conditions were the following limits: feed speed, 0.15 – 0.17 mm/cog, depth of the cut, 0.3 – 0.6 mm, cutting speed, 45 – 48 m/s and the cutting part of the tool is made of high strength tool materials such as hard metal VK3M.

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Rationalization of Polymer Composite Materials Processing by Improving Production Efficiency

Yanyushkin

Rychkov

Lobanov

2016

Procedia Engineering

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The features of steel surface hardening with high energy heating by high frequency currents and shower cooling

Ivancivsky

Skeeba

Батаев

et al. 2016

IOP Conf. Ser.: Mater. Sci. Eng.

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Abstract. The paper examines the process of surface hardening of steel 45 with the help of high energy heating by high frequency currents with simultaneous shower water cooling. We theoretically justified and experimentally proved a possibility of liquid phase forming in the course of heating not on the surface, but in the depth of the surface layer. IntroductionSurface hardening of steel workpieces with concentrated energy sources is characterized by high rates of heating (tens of thousands of degrees a second) [1 -7]. Under these conditions the heating of steel is carried out up to the melting temperature for the completion of the austenitizing process. While using the surface sources of heating (laser or plasma) the maximum values of temperatures are definitely observed on the surface of material proper [8,9]. But for three-dimensional energy sources (electron beam, high frequency currents) this fact is not obvious. It is explained, first of all, by the physical nature of a three-dimensional source, i.e. by the law of energy distribution throughout the depth of a heated layer. A possibility of melted metal micro-volumes to form in the depth of material at heating with an electron beam in the atmosphere is shown in paper [10]. Ledeburite structure typical for the heat treatment of cast irons was registered in these areas during surface hardening of hypereutectoid steel.At heating of steels in air medium by a concentrated electron beam the emitted energy distribution in material is similar to that of high energy heating by high frequency currents (HEH HFC) [11]. In this case during the surface hardening with HEH HFC one can also expect a possibility of liquid phase local volumes emergence in the depth of material.The objective of this research is to determine the most heat-stressed layer during high energy heating of steel workpieces by high frequency currents with simultaneous shower cooling.

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Research of Influence Electric Conditions Combined ElectroDiamond Processing by on Specific Consumption of Wheel*

Lobanov

Arkhipov

Yanyushkin

et al. 2016

IOP Conf. Ser.: Mater. Sci. Eng.

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Dmitry Lobanov

Integrated Processing: Quality Assurance Procedure of the Surface Layer of Machine Parts during the Manufacturing Step "Diamond Smoothing"

Surface Quality of the Fiberglass Composite Material after Milling

Rationalization of Polymer Composite Materials Processing by Improving Production Efficiency

The features of steel surface hardening with high energy heating by high frequency currents and shower cooling

Research of Influence Electric Conditions Combined ElectroDiamond Processing by on Specific Consumption of Wheel*

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