RU2194057C2 - Method of manufacturing frictional product - Google Patents

Abstract

FIELD: frictional materials. SUBSTANCE: invention relates to means for manufacturing abrasive- and friction- destination products. Method of manufacturing frictional product is distinguished by that, when forming blank from mixture of stapled carbon fiber and pitch powder, filaments are precipitated on filter element and their orientation is changed by velocity of compressed gas stream and by creating negative pressure gradient on filter element. EFFECT: increased reliability of frictional product manufactured according to simplified technology. 1 dwg

Description

 The invention relates to chemistry and metallurgy, to means for the manufacture of abrasive and friction products.

 Known methods for manufacturing a friction product by mixing the fiber with a binder polymer material, forming the workpiece of the product from the mixture by volume compaction of the mixture and molding the product by pressing the workpiece with chemical-thermal action in the mode of polymerization of the binder material (see, for example, SU 1114340, C 08 J 5/14, 1984).

 A disadvantage of the known manufacturing methods is the formation of a friction surface with an unstable coefficient of friction during thermal exposure during operation.

 A more perfect and closest analogue of the claimed is a method of manufacturing a friction product, comprising mechanically mixing a stapled carbon fiber with a pitch powder by a turbulent flow of the carrier agent, subsequent deposition of the mixture on the filter element by the action of the flow of the transporting agent with the formation of a press bag having a structure with the orientation of the placement of fiber filaments over the entire volume in at least two mutually perpendicular planes, forming the workpiece I by means of volumetric compaction of the press bag at a temperature below the softening temperature of the pitch, molding the product by pressing the blank with simultaneous pressure and heat at a temperature higher than the softening temperature of the pitch and stabilizing and hardening the heat treatment of the product (RU 2002763, 08 J 5/14, 1993 .).

 However, this method is inefficient, because the formation of a structure with a different orientation of the fibers requires the use of fabric from the corresponding fiber, which significantly complicates the manufacturing technology and reduces the reliability of the product due to structural disruption in the intermediate phases.

 The technical result achieved by the claimed method is to simplify the technology and manufacturing time, as well as increase the reliability of the friction product, which is especially important for friction units with high dynamic loads.

 The specified technical result is achieved by a method of manufacturing a friction product, including mechanical mixing of a stapled carbon fiber with a pitch powder by a turbulent flow of the carrier agent, subsequent deposition of the mixture on the filtering element by the action of the flow of the transporting agent with the formation of a press bag having a structure with the orientation of the placement of fiber filaments throughout the volume in at least two mutually perpendicular planes, molding the workpiece by volume compression of the press bag at a temperature below the softening temperature of the pitch, molding the product by pressing the blank with simultaneous pressure and heat at a temperature higher than the softening temperature of the pitch and stabilizing the heat treatment of the product due to the fact that compressed gas is used as the transporting agent, with the orientation of the placement the fibers are changed by changing the flow rate of the compressed gas and creating a negative gradient of the pressure drop across the filter element.

 The implementation of the proposed method is illustrated by the example of the installation, a diagram of which is presented in the drawing.

 Stamped onto segments of the required length carbon fiber (for example, graphitized polyacrylonitrile fiber, TU48-20-23-83) in the required quantity for the manufacture of one friction product is loaded into the fiber dispenser 1. At the same time, pitch powder is loaded into the hopper 2 of the feeder (for example, coal tar pitch according to GOST 10200-83).

 In the process of the installation, the fiber from the dispenser 1 with the help of compressed gas (for example, air) is issued uniformly in time and flow through a pipe 3 enters the mixing chamber 4. In the mixing chamber 4 by turbulent flow, the fiber is separated into individual filaments and the fiber is mixed with pitch powder entering the chamber 4 from the hopper 2. The resulting mixture is deposited by the action of a compressed gas stream on a filter element (not shown) in the molding chamber 5. Controlled change in the flow rate compressed gas changes the speed of fiber filament soaring and, as a result, the orientation of the location of the fiber filaments at the time of deposition. At the same time, a negative pressure gradient is created on the filter element by means of a suction fan 6, which facilitates the penetration (introduction) of fiber filaments into the bulk structure formed by fiber filaments with pitch powder that have already settled on the filter element.

 As a result of the described process, a press bag is formed on the filter element having a structure saturated with pitch powder and with the orientation of the placement of fiber filaments throughout the volume in at least two mutually perpendicular planes.

 At the end of the formation of the press bag, the workpiece is molded by volumetric compaction of the press bag to a predetermined strain at a temperature below the softening of the pitch, at which counter-introduction into the workpiece array occurs above and below the filaments oriented mainly in the vertical direction. Thus obtained preform has the strength necessary for subsequent transformation without disturbing the structure and grinding of fiber filaments.

To obtain a friction product, the workpiece is heated to a temperature above the softening temperature of the pitch (160 ... 200 ^o C), pressed to the specified size with a holding time of 5 minutes per 1 mm of the product thickness, and to stabilize the structure and give it the properties of a solid body with the necessary friction parameters are subjected to stabilizing heat treatment (for example, in the mode of carbonization and graphitization).

Claims (1)

 A method of manufacturing a friction product, comprising mechanically mixing a stapled carbon fiber transport agent with a pitch powder by a turbulent flow of the pitch, subsequent deposition of the mixture on the filter element by the action of the transporting agent flow to form a press bag having a structure with the orientation of the placement of fiber filaments throughout the volume in at least two mutually perpendicular planes, forming the product blank by volumetric compaction of the press bag at a temperature of the same softening temperature of the pitch, molding the product by pressing the workpiece with simultaneous pressure and heat at a temperature higher than the softening temperature of the pitch and stabilizing heat treatment of the product, characterized in that compressed gas is used as a transporting agent, while the orientation of the fiber is changed by changing the flow velocity of the compressed gas and creating a negative gradient of the pressure drop across the filter element.