И. А. Сосновский scite author profile

И. А. Сосновский

3Publications

3Citation Statements Received

0Citation Statements Given

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Affiliations

The Joint Institute of Mechanical Engineering, National Academy of Sciences of Belarus

Publications

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Thermal parameters for centrifugal induction sintering of powder coatings

Gafo

Сосновский

2009

Powder Metall Met Ceram

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An engineering method for thermal analysis of centrifugal induction sintering is developed. The method allows for the geometrical, thermal, and electrophysical parameters of parts and powder layer and the joint effect of convective and radiant heat transfer on the outer surface of parts. Formulas are derived to determine the temperature distribution over a part from the temperature on the outer surface needed for powder layer sintering. A system to monitor and control temperature in centrifugal induction sintering is developed.

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Thermal parameters of centrifugal induction deposition of powder coatings

Сосновский

Gafo

2011

J Eng Phys Thermophy

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An engineering method of calculation of the thermal parameters of centrifugal induction sintering of a powder onto the surface of a workpiece with allowance for the geometric, thermophysical, and electrophysical parameters of the workpiece and the powder layer and for the convective and radiative heating of the exterior surface of the workpiece has been developed. A system for control of the temperature of the workpiece in the process of centrifugal induction sintering of the powder coating onto it has been developed.Introduction. One of the most efficient methods of deposition of powder coatings on workpieces is centrifugal induction sintering (CIS) of a powder onto their surface [1]. This method makes it possible to deposit coatings onto interior, exterior, and end surfaces of the workpiece.A schematic diagram of a device for deposition of a powder coating on an interior surface of the workpiece by the CIS method is given in Fig. 1. In accordance with this method, a dose of powder material is placed into the internal cavity of the workpiece, which is covered with lids on the ends through nonstick gaskets. The workpiece is fixed on a centrifugal unit, is positioned in relation to the inductor, is brought into rotation around its own axis, and is heated by the inductor of the high-frequency-current generator (HFCG). As the workpiece reaches a temperature of 0.7-0.95 T melt controlled by an optical pyrometer, its isothermal heating stops and it cools down to 700-900 K. Thereafer the rotation of the workpiece stops; it is removed from the centrifugal unit and cools down to room temperature in a static condition. The coating deposited on the workpiece in this way is treated with the aim of giving it a certain size.The existing methods of solving thermal problems in induction sintering of powder coatings onto workpieces' surfaces [2-4] do not take into account the presence of radiative heat transfer between these surfaces, which substantially reduces the accuracy of calculations. Operational methods and the finite-interval method used for solving such problems are not suitable for engineering practice, since they include extremely cumbersome mathematical calculations that require the use of computer facilities.The purpose of this investigation is to develop methods for determination of thermal parameters of CIS of powder coatings onto workpieces' surfaces, and also means of control over the temperature of this process.Main Assumptions. The most important stage of the CIS process, which determines the physicomechanical and operational characteristics of obtained two-layer coatings of hollow products, is isothermal seasoning of these coatings at the temperature of powder-material sintering. The main technical problem at this stage is to maintain an assigned average temperature of the powder layer (sintering temperature) during a certain time interval (sintering time). At the same time, the thermal conditions at the previous stages of heating do not have a significant effect on the kinetics of the process of sintering o...

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Standard method for work-hardening piston rod threads of large piston compressors

Сосновский¹,

Gusev²,

Novikov³

et al. 1973

Chem Petrol Eng

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