909results about How to "Play a lubricating role" patented technology

This invention relates to a preparation technology for producing special products with plastic substances characterizing in mixing an adhesive agent, strengthened fibers, a regulator for friction performance and inorganic fillers in good match to process the surfaces of them with an anti-high temperature coupler to be hot-pressed to a format to get a high performance car brake plate of environmental protection, which replaces that made of asbestos fiber and overcomes the shortcoming of declining at high temperature of the asbestos car brake plates.

An anticorrosion and antiwear ceramic paint is prepared from epoxy resin (28.5-35 wt.portions), dibutyl phthalate (3.75-6), mixed solvent of xyrene and n-butyl ester (20-24), gas-phase SiO2 (0.5-1) and ceramic powder (38-45) which contains TiO2 (3-6.3), Al2O3 (11.7-20) and Si3N4 (16-20.45). The weight ratio of main component to slidifying agent is (14.5-17):1. It can be directly applied to the surfaces of metal, glass fibre, plastic, or concrete with the advantages of high antiwear performance and adhesion, and thin and compact coated layer.

The invention discloses a heat-conductive silicone grease composition being high in heat conductivity and low in viscosity and freeness degree, and a preparation method of the silicone grease composition. The heat-conductive silicone grease composition includes organo-polysiloxane, heat conductive filler and other additives. By selecting the heat conductive fillers in multiple dimensions (one-dimension, two-dimension and three-dimension) and multiple scales (micron, submicron and nanometer) and in special ranges, synergistic effect among the multi-dimension and multi-scale fillers is achieved,thus achieving compact stack of the fillers in a local network structure. The heat-conductive silicone grease not only is improved in heat-conductivity but also has good flowability, low viscosity and low freeness degree.

The invention provides environmentally-friendly efficient atomization cutting oil, which comprises the following components in percentage by weight: 20 to 40 percent of synthetic ester, 60 to 80 percent of vegetable oil, 0 to 3 percent of antioxidant, 0 to 2 percent of anti-rusting agent, 0 to 5 percent of extreme pressure abrasion-resistant agent and 0 to 1 percent of metal passivator. The synthetic ester and the vegetable oil are matched and used base oil, so the cutting oil has the advantages of good lubricating property and biodegradability, resource recycle, no toxicity and the like, has low toxin and low harm to the human body and the ecological environment, meets the requirements of related environmental indexes, has good low-temperature performance and oxidation stability and strong universality, is suitable for metal cutting and processing of most materials, is particularly special cutting oil for modern advanced semi-dry and trace lubrication processing and development, and is mainly used for oil mist lubrication; and the gas and liquid two-phase oil mist can play a role in lubricating, take away a large amount of heat, reduce the consumption of cutting fluid, lower the cost and reduce the discharge of waste solution, and is favorable for environmental protection.

The invention relates to foam liquid for drilling, in particular to strong inhibition type anti-collapse foam liquid for drilling, which is characterized by being prepared with the following components in parts by weight: 0.09-0.11 part of foam stabilizer, 0.36-0.44 part of foaming agent, 2.34-2.86 parts of anti-collapse agent, 2.7-3.3 parts of fluid loss additive and 94.51-93.29 parts of water. When complex situations such as formation water occur to gas drilling, the foam liquid of the invention can effectively improve the rock carrying capacity and the water carrying capacity and simultaneously protect the stability of the upper well wall. Laboratory studies shown that the foam liquid has high foaming capacity, the foaming capacity is more than or equal to 500 percent, the half-life is moderate, and the foam liquid can be easily controlled and is conducive to drilling engineering construction.

The invention relates to a preparation method of injection molding grade UHMWPE (Ultra-High Molecular Weight Polyethylene). The preparation method comprises the following steps: adding a certain amount of solvent oil in a dispersion medium, and polymerizing, thus obtaining UHMWPE containing the solvent oil; extruding through a screw extruder after mixing a flow modifier, a function additive processed by a coupling agent, an antioxidant and the UHMWPE containing the solvent oil at high speed, thus obtaining the injection molding grade UHMWPE. Compared with the prior art, the injection molding grade UHMWPE prepared by the method has good liquidity and good mechanical performance, can be machined and formed on a common injection molding and extrusion device, the machining efficiency is increased, and the injection molding grade UHMWPE can be widely applied to many fields of spaceflight, military industry, automobiles, high-speed rails, rail transit, spinner accessories and the like.

The invention belongs to the technical field of high-molecular composite materials, and relates to a long glassfiber reinforced nylon composite material and a preparation method thereof. The composite material is prepared from the following components in parts by weight: 100 parts of nylon, 2 to 10 parts of compatilizer, 0.1 to 0.5 part of antioxidant, 0.2 to 1.0 part of lubricant and 10 to 40 parts of glassfibers. Compared with the short glassfiber reinforcement mode, according to the composite material provided by the invention, abrasions among short glassfibers, a screw rod and a feed cylinder are decreased during a double-screw extruding process, namely, the minimum fiber retained in an injection-molding product is large in length, so that the glassfiber reinforced nylon composite material with excellent performance is prepared. Thus, the applications of the glassfiber reinforced nylon composite material in the fields of automobiles, electric appliances, machinery, military industry and the like are enlarged.

The invention discloses perfluor high-temperature lubricating grease, which consists of base oil, thickening agent and additive, wherein the base oil is one or more of perfluor polyether oil, perfluor ester oil and perfluor hydrocarbon oil; the thickening agent is one or more of polytetrafluoroethylene, perfluor ethylene propylene copolymer, fluorocarbon wax, carbon black, silicon dioxide, titanium dioxide, molybdenum disulfide, rare earth fluoride, nano graphite, graphite fluoride and resin fluoride; and the additive is one or more of phosphorus cyanide, sodium dicaprate, sodium dicaprylate and antimony trioxide. The lubricating grease can be used for lubricating for a long term at the temperature of above 300 DEG C, and can also be used for lubricating in severe environments such as high pressure, high vacuum, high load, strong acid and base and strong corrosion.

The invention discloses a microcrystalline glass ceramic binding agent, a preparing method thereof, an SG grinding wheel and a preparing method thereof. The binding agent is prepared from, by weight percentage, 40% to 65% of SiO2, 6% to 20% of Al2O3, 5% to 18% of Na2O, 0.5% to 5% of CaO, 3% to 10% of K2O, 8% to 35% of B2O3, 0.5% to 2% of MgO and 2% to 6% of TiO2. The microcrystalline glass ceramic binding agent is formed by reasonably selecting the raw materials, the scientific ratio is adopted, the binding agent has the beneficial effects of being low in thermal expansion coefficient and crystallization temperature and high in strength accordingly, the microcrystalline glass ceramic binding agent is suitable for being used as a binding agent of the SG grinding wheel, the firing temperature of the SG grinding wheel is greatly reduced, and the firing time of the SG grinding wheel is greatly shortened; and meanwhile the work efficiency and the machining accuracy of the SG grinding wheel are improved, grinding heat is reduced, and the service life of the grinding wheel is prolonged.

The invention discloses a disassembling method of a wind turbine generator system main bearing with a shaft sleeve. The disassembling method is mainly used for disassembling the main bearing from a main shaft. The disassembling method comprises the following steps: A. cooling the main shaft; B. heating a bearing inner race of the main bearing, and C. dissembling the main bearing from the tail end of the main shaft using match of a bearing tensioner and the main bearing under the effect of external force. A certain temperature difference is formed between the main shaft and the bearing inner race of the main bearing by cooling the main shaft and heating the bearing inner race of the main bearing, magnitude of interference of assembling of the main shaft is offset using the expansion caused by heat and contraction caused by cold theory, and the main bearing can be disassembled from the main shaft safely and quickly using the bearing tensioner. Integrality of disassembling of the main bearing is guaranteed, damages to the main shaft by using the bearing tensioner to disassemble the main bearing directly can be avoided, and recycle of the main shaft saves large cost for an enterprise. The disassembling method of the wind turbine generator system main bearing with the shaft sleeve is simple in operation procedures at the same time, and an ideal disassembling method of the wind turbine generator system main bearing with the shaft sleeve is achieved.

The invention discloses a tea tree essential oil antimicrobial gel for treating a vaginal disease in gynecology. Every 1000 parts by weight of gel contains the following raw material components: 1 to 100 parts of tea tree essential oil, 0.5 to 20 parts of emulsifier, 1 to 50 parts of biological adhesive material and the balance of modified components and purified water. The tea tree essential oil is added into the high-molecular biological adhesive material to carry out solubilizer screening, so that the obtained tea tree essential oil gel has good biocompatibility, and is small in irritation and has no delayed type hypersensitivity in an actual application process. The clinical test proves that after the prepared tea tree essential oil gel is squeezed into the vagina of a female by virtue of a gel applicator, the tea tree essential oil contained in the prepared tea tree essential oil gel can be used for effectively inhibiting staphylococcus aureus, escherichia coli and candida albicans in the vagina and the cervix uteri, and rapidly relieving itching, removing peculiar smells and performing restoration and regeneration; and by virtue of a buffering ability of the tea tree essential oil gel, the weak acidity of normal physiology of the vagina can be maintained, and the moisture content of the vagina is supplemented at the same time so as to exert a lubricating function.

The invention belongs to the technical field of metal material surface processing and relates to a production method for a ship fastener complex coating. A zinc impregnation coating, a zinc-aluminum coating and an epoxy coating are arranged on the fastener surface from internal to external and zinc impregnation, washing, zinc-aluminum coating liquid dip-coating, zinc-aluminum coating solidification, epoxy coating liquid dip-coating and epoxy coating solidification are performed on the faster after sequentially being performed on oil removing and rust removing to form into a protective layer. The production method for the ship fastener complex coating has the advantages of being simple in production technology and reasonable in principle. The complex coating has the advantages of being good in corrosion resistance, being capable of effectively solving the problem that the faster is corroded in the seawater environment and being environmentally friendly.

The invention discloses a robot for all-bearing defect detection of a large-capacity flat-bottom container bottom plate and a detection method. The robot comprises a robot body, wherein a walking device and a detection device are arranged under the robot body, and the detection device is arranged at one end of the robot body; the walking device consists of four independent Mecanum wheel mechanisms which are arranged on the robot body; the detection device mainly consists of an ultrasonic probe and an ultrasonic probe adjusting mechanism, and the ultrasonic probe is connected with an ultrasonic generator; the ultrasonic probe adjusting mechanism comprises a first adjusting mechanism and a second adjusting mechanism; the first adjusting mechanism is used for driving the ultrasonic probe to move left and right along the horizontal direction; the second adjusting mechanism is used for adjusting the height of the ultrasonic probe, so that the ultrasonic probe is attached with the surface of the to-be-detected container bottom plate to be detected. The robot has the advantages that the all-bearing defect position detection can be performed on the detected container, the missed detection due to low feedback signal intensity caused by inverticality between ultrasonic direction and defect direction is avoided, and the detection accuracy is improved.

The invention discloses an anti-crack expanding agent which comprises the following ingredients by weight: 35%-40% of calcium oxide clinker, 15%-20% of gypsum, 30%-35% of dickite, 5%-10% of coal ash and 2%-5% of wollastonite powder, wherein the sum of the weight ratios is 100%. The invention further discloses a preparation method of the anti-crack expanding agent. Compared with the prior art, the anti-crack expanding agent disclosed by the invention has the advantages of being capable of effectively preventing concrete from cracking so as to improve compactness.

The invention discloses a method for preparing organic silicon modified plant oil. The method comprises the following steps of: by taking colza oil as a raw material, preparing a colza oil alcohol orderly through methanol ester exchange, peracetic acid epoxidation and acetic acid ring opening; and then reacting organic silicon with the hydroxyl in the colza oil alcohol, thereby obtaining the organic silicon modified plant oil. The organic silicon modified plant oil produced by the method has good lubrication effect; and in addition, the oxidation stability of the organic silicon modified plant oil is also greatly improved.

A double-layer fuel injector used for diesel oil and DME mainly consists of a fuel injector needle valve, a fuel injector needle valve body, a fuel injector body, a DME oil outlet one-way valve, a DME oil inlet one-way valve and a pressure boosting piston, etc. The pressure boosting piston, the DME oil outlet one-way valve and the DME oil inlet one-way valve are arranged inside the fuel injector. The DME oil outlet one-way valve is communicated with a DME spray hole through a DME groove in the fuel injector needle valve body and a DME channel in the fuel injector needle valve body. A diesel oil inlet is communicated with the oil groove of a fuel injector through the diesel oil inlet of the fuel injector body, a rotating groove in the fuel injector needle valve body and the diesel oil channel in the fuel injector needle valve body. A diesel oil spray hole at the lower part of the fuel injector needle valve body is interleaved and arranged with the DME spray hole and the two have the same spray hole included angle. The present invention provides a double-layer fuel injector used for diesel oil and DME, wherein the original diesel engine fuel injection system can be used as a diesel fuel injection system and a DME drive system at the same time, and the two fuels are injected separately into the engine cylinders through the injector.

The invention discloses a preparation method of a Ti3SiC2/SiC functionally gradient material, comprising the steps of mixing Ti3SiC2 powder and SiC powder in a die layer by layer in a gradient way, then preparing a blank, performing vacuum hot-pressing sintering on the blank to obtain a green body, and sequentially performing dipping densification and pyrolysis treatment on the green body; the SiC powder comprises micron beta-SiC powder and nanometer beta-SiC powder; the vacuum hot-pressing sintering temperature is 1600-1700 DEG C, and is kept for 3-5h, and the maximum pressure is 25MPa; the dipping densification comprises performing dipping densification on gradient layers containing 60-100 vol. percent of SiC in the green body subjected to the hot-pressing sintering in polycarbosilane liquid. The Ti3SiC2/SiC functionally gradient material prepared by the method is high in compactness, contains multiple gradient layers along the thickness direction from Ti3SiC2 to SiC (designing can be performed as required), the structure is uniform and compact in each gradient layer, interfaces among the gradient layers are moderately combined, the mechanical strength is high, the breaking tenacity is good, under high temperature, the oxidation resistance and the thermal shock resistance are good, and the Ti3SiC2/SiC functionally gradient material having 11 gradient layers and the thickness of 8-15mm can be prepared.

The invention discloses a concrete gel material which comprises cement and silica solution. The invention further discloses a high-performance concrete for tunnel prepared through the concrete gel material provided by the invention. The high-performance concrete is suitable to be applied to injecting concrete, moulding concrete and others. Through the adoption of the concrete gel material or the high-performance concrete for the tunnel provided by the invention for injecting the concrete, the rebound ratio can be effectively reduced and even reduced to 4.1% to the minimum; and the concrete gel material or the high-performance concrete is good in working performance; the obtained concrete finished product is high in early strength, and good in freezing resistance; the waterproof performance and the wearable performance are improved; the quantity of used cement can be reduced; the carbon emission can be reduced; and good economic benefit and environment-friendly benefit are brought.

The invention belongs to the technical field of impregnating compounds, and discloses a glass fiber impregnating compound and a preparation method and application thereof. The impregnating compound comprises a film-forming agent, a coupling agent, a lubricant, a wetting agent and a pH regulator, wherein the film-forming agent comprises two bisphenol A type epoxy resin emulsions with different epoxy equivalents. Compared with usage of an epoxy resin emulsion with a single epoxy equivalent as a film-forming agent, the film-forming agent disclosed by the invention has the advantages that the film-forming agent can ensure sufficient coating force of the epoxy resin emulsions on the surfaces of yarns and allow the yarns to have better softness; even if the yarns are stored for a long time, theyarns still have low stiffness, which is beneficial for subsequent processing and mechanical strength of a composite material; and meanwhile, the yarns have better damp-heat resistance and still havea good strength retention rate in a high-temperature and high-humidity environment due to matched use of the film-forming agent and the coupling agent.

The invention discloses a method for manufacturing a dispersion strengthening copper-based oil bearing, and belongs to the field of dispersion strengthening materials. According to the method, copper powder, aluminum powder, tin powder, graphite powder and nanometer yttrium oxide powder are mixed according to a certain proportion and placed into a frequency conversion high-energy vibration ball mill for high-energy ball milling after dispersing agents are added, then powder obtained through ball milling is pressed on a pressing machine to form a bearing base body blank, the formed blank is sintered and then immersed in oil, and finally the dispersion strengthening copper-based oil bearing can be obtained through full shaping of a die. By the adoption of the method, the abrasive resistance and lubricating performance of the manufactured dispersion strengthening copper-based oil bearing are better than those of a common copper-based oil bearing.

An environment-friendly brake pad adopting copper-free microcrystalline friction materials is made from components including acrylic pulp, mullite ceramic fibers, brucite fibers, nano tin powder, zinc sulfide, brown aluminum oxide, antimony sulfide, cellulosic fibers, iron black, calcium carbonate whiskers, calcium sulfate whiskers, potassium titanate, crystalline flake graphite, calcined petroleum coke, flake aluminum powder, nitrile rubber powder, phenolic resin, nanometer manganese hydroxide and molybdenum disulfide. Through reasonable collocation of the multiple components, advantages of the various components given full play to the friction materials can be guaranteed. By the reasonable collocation of the new fiber materials, the defect of respect performance can be made up, and high performance can be produced due to mutual influenced action. The environment-friendly brake pad is good in resistance to high-temperature recession, long in service life, good in wear-resisting performance, stable in friction coefficient and environment friendly.