59results about How to "Improve carburizing effect" patented technology

The invention belongs to ferrous metallurgy field. It mainly relates to steel smelting carbon containing ball, especially electric furnace using scrap steel making or cast steel carburetion. The compound carbon containing ball chemical compositions (wt%)are containing material 40-80%, metal oxide 10-42%, rare earth oxide 5-30%, bonding agent 2-10%, reinforcing agent 1-5%, expansion agent 1-5%, and steel products processing smear metal 1-4%. Its intensity is high; mono ball compressive strength can reach more than 5Mpa. It can be add into the molten steel to increase carbon, reduce inclusion, removing harmful gas, purify grain boundary, and refine grain to improve steel toughness.

The invention discloses a micro powder graphite carburant, a preparation method and a use method thereof, aiming at improving quality of carburant and solving the environment pollution caused by graphite tailing. The carburant in the invention contains 80-99% of micro powder graphite and balance of agglomerant, the micro powder graphite is graphite tailing, and the agglomerant is composed of starch and carboxymethylcellulose or sodium carboxymethylcellulose. The preparation method comprises batching, stirring, pelleting and drying. When the carburant is used in electric furnace above 5 tons, carburant and metal furnace materials are added to the lower part in the electric furnace along with batch materials. Compared with the prior art, the invention has the characteristics of high carbon, low sulphur, low phosphorus, low water content, high chemical activity and high carbon absorptivity, larger surface area is soaked in molten steel when in use, carbon absorptivity reaches above 96%, carbon content in smelt steel is obviously increased, steel melting cost is effectively reduced, and the environment pollution problem caused by graphite tailing is solved well.

The invention discloses a low-pressure vacuum carburizing process. The low-pressure vacuum carburizing process comprises a temperature rising stage, a carburizing stage, a diffusing stage and a precooling stage. The temperature rising stage comprises the steps that a workpiece is vacuumized, and the vacuum degree is controlled within 1 Pa-20 Pa; and after vacuumizing is completed, heating is started, and the carburizing temperature ranges from 800 DEG C to 1050 DEG C. The carburizing stage comprises the steps that after the temperature of the workpiece reaches the set temperature of the process, acetylene gas is introduced into a furnace to maintain the carburizing gas partial pressure, which is named as a carburizing gas inflation pulse stage; after the carburizing gas inflation pulse stage is kept for a set time, vacuumizing is started, a certain time is kept under vacuum, which is named as a vacuumizing diffusion stage, and the carburizing gas inflation pulse stage and the vacuumizing diffusion stage are combined to serve as a carburizing pulse period; the whole carburizing stage is composed of a plurality of carburizing pulse periods; and when the carburized layer depth reaches the carburized layer depth set by the process, the carburizing pulse is stopped. The low-pressure vacuum carburizing process can effectively control the surface carbon content and the carburized layer depth of the workpiece, and the optimal carburizing effect of the workpiece is achieved.

The invention discloses a manufacturing method for an automobile transmission gear, and relates to the field of manufacturing of automobile parts. The method comprises the following steps: (1) blank forging, (2) spheroidizing annealing, (3) turning machining, (4) hobbing, (5) gear shaving, (6) carburization, (7) quenching and tempering and (8) grinding machining. According to the method, spheroidizing annealing treatment is adopted, so that the cutting performance of the gear is improved, a structure with spheroidized or granular carbide uniformly distributed on a ferrite substrate is obtained for preparation for subsequent heat treatment; a gas carburization method is adopted, and volatile kerosene is used as a carburizer, so that carburization effects are effectively improved, the thickness of a carburized layer is increased, the surface of the gear is hard and wear-proof, and high toughness of the core of the gear is maintained; quenching and tempering heat treatment is adopted after carburization, so that the carburization effects are further consolidated, and the mechanical performance of the gear is improved.

This invention relates to a recarburizer used in steelmaking process, especially relates to alloy recarburizer. Manganese and iron content is increased and specific gravity is increased so recarburization effect is improved. Technique plan is that manganese carbon alloy recarburizer is made by metal alloy powder and carbon material and binding agent. Metal alloy powder can be manganese iron powder or compound of manganese iron powder and iron powder. Carbon material is selected from coke, pitch coke, petroleum coke, carbon powder, coal dust and graphite. This product contains C 20~47%, Mn 35.01~55%, binding agent, silicasol 0.5~2%, it is mainlt used in liquid steel recarburization during steelmaking process.

The invention provides a full-fiber energy-saving type carrier roller type mesh-belt furnace, which comprises a furnace body. A preheating system is arranged at one end of the furnace body, and is connected with a feeding table; a conveying system is arranged on the feeding table, and stretches into the furnace body from one end of the feeding table through the preheating system; a material is fedfrom the feeding table, is conveyed to the preheating system through the conveying system, and enters the furnace body after being preheated; a plurality of booster fans, circulating fans and heatingelements are arranged on the top part of the furnace body and stretch into the furnace body; and a waste gas exhaust device is arranged at one end, far away from the feeding table, of the furnace body. According to the full-fiber energy-saving type carrier roller type mesh-belt furnace provided by the invention, a heat treatment effect can be improved, the production processing cost is reduced, the furnace is simple and convenient to maintain, and the failure rate is reduced.

The invention discloses a method for obtaining a high particle size carburant through a by-product of a graphitization furnace. The method comprises the following steps: crushing, screening, stock binloading, mixing, preparation before charging, charging, graphitization, collecting carburant crude products, preliminary sieving, sieving and recycling; on the premise that the product quality of a negative electrode material is not affected, the same heat preservation effect is achieved by adding certain volume ratio of calcined coke with the particle size being (2-6)mm into a graphitization furnace heat preservation material, and a calcined coke by-product with increased particle size can be obtained. The carburant meeting the requirements of steelmaking carburants and having a recarburization effect can be obtained through the simple sieving of the by-product, moreover, a sieved small particle size carburant fine powder can be recycled, the production cost is greatly reduced, the production process is simple, and the yield is high. Through the method, a single carburant processing process is not required, so that exhaust emission is reduced, and the method is beneficial to environmental protection.

The invention discloses a soil quality improving method via arbuscular mycorrhizal fungi and scented flowers to solve problems of soil fertility decrease and crop output reduction due to low soil organic carbon content of the loess plateau. The method comprises steps of first, expanding propagation of arbuscular mycorrhizal fungi, second, composting rose dregs; third, sieving field soil and performing high-temperature disinfecting to acquire sterile soil, and adding mineral substances to the soil to sterile soil according to a 1.5%-2% of mass proportion, and inoculating the expanded-propagation arbuscular mycorrhizal fungi to the sterile soil according to a proportion of 0.05 to 0.1%. Compared with a traditional rose dreg utilization, direct use of crude rose dregs is avoided and the rose dregs are composted and decomposed first, then arbuscular mycorrhizal fungi are inoculated during returning application; rose dreg minerlization in the soil is accelerated; and further the rose dreg utilization rate is improved.

The invention discloses a cast steel material with added rare earth elements for an automobile axle. The cast steel material is prepared from, by weight, 95-98 parts of waste steel (the content of iron is not smaller than 98%), 2-3 parts of Z18 pig iron, 0.4-0.45 part of crystalline silicon, 0.3-0.35 part of carbon, 0.02-0.024 part of scandium, 0.03-0.04 part of yttrium, 1.5-1.7 parts of manganese, 2-2.3 parts of chromium, 0.03-0.04 part of antimony, 0.8-0.86 part of calcium silicide, 0.3-0.34 part of yellow phosphorus slag, 0.6-0.7 part of nano-graphite powder, 0.43-0.48 part of a hot melt adhesive and smaller than or equal to 0.01 part of impurities. By means of the cast steel material, due to the fact that the rare earth elements such as scandium and yttrium are used, grains can be refined, the material organization can be more compact, and wear resistance of the material is improved; and due to scientific and reasonable matching design and producing and processing technologies, the prepared cast steel material has the good comprehensive performance, and the cast steel material is very suitable for producing an automobile axle part.

The invention discloses an abrasion-resistant composite material for automobile brake pads. The abrasion-resistant composite material for automobile brake pads is prepared from, by weight, 95-98 parts of aluminum, 0.03-0.05 part of cobalt, 3-3.5 parts of iron, 0.3-0.4 part of zinc, 1.2-2 parts of copper sulphide, 0.3-0.4 part of molybdenum, 0.1-0.2 part of nickel, 0.24-0.3 part of magnesium, 0.06-0.1 part of hexadecyl trimethyl ammonium bromide, 3-5 parts of graphene oxide, 5-8 parts of zirconium hydride, 0.88-1 part of hexachloroethane, 0.2-0.3 part of titanium dioxide, 0.24-0.3 part of sodium carboxymethylcellulose, 0.55-0.8 part of tungsten disulfide, 0.6-0.8 part of carbide slag, 0.01 or less of impurities and a proper amount of deionized water. The prepared alloy material has good strength, corrosion resistance, abrasion resistance, high-temperature stability and thermal stability, and is durable and high in safety when applied to automobile brake pads.

The invention discloses a half axle gear inner spline carburizing and quenching method and carburizing and quenching equipment. The half axle gear inner spline carburizing and quenching method comprises the steps that a half axle gear is in cup joint with a compensation sleeve and is placed in an interior low-pressure quenching furnace, then, the inner spline is heated to 900 DEG C, the position of the inner spline is inflated with dimethylmethane, and the process is continuously conducted for 240 min; then, the temperature of the inner spline is reduced to 840 DEG C, and continuous inflationof the dimethylmethane is conducted for 45 min; heating and inflation of the dimethylmethane are stopped, inflation of high-pressure and high-purity nitrogen is conducted instead, the process is continuously conducted for 20 min, and finally the half axle gear is taken out of the quenching furnace and cooled to the room temperature; the carburizing and quenching equipment comprises the quenching furnace, a hollow containing column is arranged in the quenching furnace, and the bottom of the quenching furnace is connected with an air suction pipe; the side face of the containing column is connected with a first branch pipe and a second branch pipe through an air inlet pipe in the tangential direction; and the top end of the quenching furnace is connected with a telescopic cylinder, and a resistance type heating coil is fixed to the bottom of the telescopic cylinder through a motor. By means of the half axle gear inner spline carburizing and quenching method and the carburizing and quenching equipment, the carburization effect at the inner spline position can be improved, and the advantage of small inner spline deformation is achieved.

The invention discloses a corrosion-resistant cast steel material for auto parts, which is made of the following raw materials in parts by weight: steel scrap (iron content not less than 98%) 95-98, Z18 pig iron 2-3, crystalline silicon 0.7-0.75, Carbon 0.3-0.35, niobium 0.04-0.05, titanium 0.4-0.5, manganese 1.2-1.3, chromium 0.04-0.05, calcium silicide 0.8-0.86, gelatin 0.2-0.23, lime powder 0.2-0.24, calcium fluoride 0.3-0.4, heavy Crystal 0.5-0.55, impurity ≤ 0.01. The invention can improve the intergranular corrosion and improve the corrosion resistance of the cast steel material by rationally configuring the ratio of element components and the production process, and adding elements such as titanium and niobium; The auto parts produced are corrosion-resistant, low-temperature resistant, and have a long service life.

The invention provides an efficient recarburization accelerant. The efficient recarburization accelerant is characterized in that the efficient recarburization accelerant is composed of metal powder,a carbon material and a binding agent. The binding agent is composed of an organic binder body and an inorganic binder body. The inorganic binder body is at least one of orthosilicic acid, silicate and clay. The organic binder body comprises the following components of, by weight, 10-16 parts of sodium carboxymethylcellulose, 10-16 parts of cellulose acetate butyrate, 0.5-3 parts of starch, 1-3 parts of poval, 2-5 parts of borax and 3-6 parts of paraffin. The efficient recarburization accelerant is wide in application, can be used for recarburization in the smelting process of carbon steel, plain carbon steel, alloy steel, special steel, gray pig iron, nodular cast iron and the like, synergistic effects occur among the components, the absorption rate of recarburization can be sharply improved, the particle sizes are even, the quality is stable, using is convenient, no flying dust is generated, safety and environmental protection are achieved, and the recarburization effect is excellent.