Patents
Literature
Hiro is an intelligent assistant for R&D personnel, combined with Patent DNA, to facilitate innovative research.
Hiro

244results about How to "Low smoke" patented technology

Fiber optic cable and method of manufacture

A fiber-optic cable for applications subject to extreme temperatures and high crushing and bending forces incorporating a loose fluoropolymer buffer material, a aramid / fiberglass strength member, and a fluoropolymer outer jacket compromising low smoke, low toxicity, and low flammability when exposed to flame.
Owner:CARLISLE INTERCONNECT TECH

Ethylene propylene rubber cable insulating material for ship and ocean use and manufacturing method thereof

The invention discloses an ethylene propylene rubber cable insulating material for ship and ocean use and a manufacturing method thereof. The insulating material comprises by weight: 11 parts of ethylene propylene rubber 2470; 9 parts of ethylene propylene rubber 4044; 1.0-1.5 parts of high pressure polyethylene; 0.5-1.0 part of dicumyl peroxide; 0.3-0.4 part of triallyl isocyanurate; 0.5-0.8 part of 2-mercaptobenzimidazole; 1-1.5 parts of titanium dioxide; 1.0-1.5 parts of paraffin oil; 1.0-1.5 parts of zinc oxide; 0.6-1.0 part of microcrystalline wax; 0.2-0.5 part of stearic acid; 1-2 partsof white carbon black; 10-15 parts of superfine talc powder; and 12-16 parts of modified calcined argil. The method consists of the steps of: conducting uniform banbury mixing to ethylene propylene rubber and high pressure polyethylene; then adding titanium dioxide and the like in order for uniform mixing; carrying out triangle bag packaging with an open mill for 7 times, then filtering rubber, and putting the filtered rubber in a banbury mixer and adding an antioxidant for mixing well; finally conducting triangle bag packaging in an open mill for 5 times and extruding rubber sheets. The insulating material has the advantages of low smoke, free of halogen, flame retardation, high mechanical strength and high insulation resistance.
Owner:嘉兴顾翔制冷设备有限公司

Energy-saving insulated flame-retardant water-proof corrosion-proof functional coating and preparation method thereof

The invention discloses an energy-saving insulated flame-retardant water-proof corrosion-proof functional coating and a preparation method thereof. The functional coating is prepared from the following raw materials: an aqueous polyurethane dispersion, a flame retardant, a flame-retardant antismoke agent, a hollow glass bead, a wetting dispersant, an anti-settling agent, a thickening agent, water, a leveling agent and a de-foaming agent, has the functions of heat preservation, flame retarding, water prevention and corrosion resistance and the like, is unlikely to become yellow when in use, is safe and reliable, is excellent in performance, is good in compatibility with pigment dyestuff, is unlikely to damage the coated surface, is easy to modify, is nontoxic, is safe to use, does not pollute environment and is suitable for the fields of inner and outer wall coating, pipeline coating, wood furniture coating, decoration coating, chemical corrosion-proof coating and the like.
Owner:江苏瑞丰科技实业有限公司

Needle, flake-shaped nano single crystal mg-al hydrotalcite Mg8Al2(OH)16CO3 4H2O preparation method

The invention discloses a process for preparing acicular, flake nano single crystal magnesia-alumina hydrotalcite Mg6Al2(OH)16C.4H2O, and the prepared Mg6Al2(OH)16CO3.4H2O is used as a flame retardant of power electronic devices. Acicular components comprise 0.06-1.41 mol/L crystal magnesium chloride, 0.02-0.47 mol/L aluminum salt, 0.3-4.5 mol/L sodium hydroxide and 0.094-1.368 mol/L sodium carbonate, and flake components are added with modifier basing on the above components. The invention has the process steps that the crystal magnesium chloride and the sodium hydroxide are firstly dissolved in deionized water and heated and stirred, and then the aluminum salt and sodium carbonate are added into the solution, the deionized water and the sodium hydroxide are added every 20 minutes during reaction, the time of reaction is 0.5-2 hours, and the solution is cooled until room temperature and is washed, filtered and dried. The crystal morphology of the prepared acicular nano single crystal magnesia-alumina hydrotalcite is that the diameter is 10-20 nanometer, the length is 60-130 nanometer, the diameter is 25-80 nanometer, and the length is 200-500 nanometer. The crystal morphology of the flake nano single crystal magnesia-alumina hydrotalcite is that the thickness is 10-20 nanometer, the diameter is 50-100 nanometer, the thickness is 20-30 nanometer, and the diameter is 60-200 nanometer. The process for preparation of the invention has short period and simple process, is prepared at atmospheric pressure, and is suitable for industrial production.
Owner:XIDIAN UNIV

Protective sealing door for underground refuge chamber

The invention discloses a protective sealing door for an underground refuge chamber. The protective sealing door comprises a door frame and a door plate, wherein the door plate is arranged on the door frame through a rotation shaft; a locking mechanism for locking the door plate on the door frame is arranged on the door plate, a plurality of first reinforcing ribs for reinforcing the strength of the door plate are arranged in the door plate; heat-insulating materials, namely aerogel heat-insulating felts are filled among the reinforcing ribs; at least two annular sealing rings, namely flame-resisting sealing rings are arranged at the joint of the door plate and the door frame; and the periphery of the door plate is locked by the locking mechanism. According to the protective sealing door, the aerogel heat-insulating felts which can bear the temperature of 1,400 DEG C to the maximum are filled in the door plate, so that the door plate can resist high temperature generated during explosion, and the high temperature is insulated out of the refuge chamber; at least two sealing rings which are made of flame-resisting, anti-static, high temperature-resisting and oil-resisting materials are arranged on the contact surface of the door plate and the door frame, so that the protective sealing door has a good sealing effect.
Owner:CCTEG CHINA COAL RES INST

Flame-retardant high-temperature vulcanized silicone rubber strips for doors and windows of buildings and preparation method thereof

The invention discloses flame-retardant high-temperature vulcanized silicone rubber strips for doors and windows of buildings and a preparation method thereof. The method comprises the following steps: adding methyl vinyl silicone rubber, an inorganic flame retardant, fillers and a structural control agent into a kneading machine, dehydrating the mixture at the temperature of between 100 and 180 DEG C and the vacuum degree of between -0.06 and -0.10 MPa for 0.5 to 4 hours, and then cooling the mixture to produce compound rubber; thinning and milling masterbatch rubber, a vulcanizing agent and the compound rubber for 3 to 5 times at room temperature on a mill; cutting thinned compound rubber sheet into rubber strips with the width of between 4 and 6 centimeters and feeding the rubber strips to a screw extruder to extrude the rubber strips; and vulcanizing and forming the rubber strips through a high-temperature drying channel and finally performing a secondary vulcanization in a drying box to produce the flame-retardant high-temperature vulcanized silicone rubber strips for the doors and the windows of the buildings. The flame-retardant high-temperature vulcanized silicone rubber strips for the doors and the windows of the buildings overcome the defects of low hardness and difficult installation of common silicone rubber strips, have high flame-retardant performance and wide range of use temperature, and can be used under bad weather conditions.
Owner:浙江凌志新材料有限公司

Castable double base solid rocket propellant containing ballistic modifier pasted in an inert polymer

Castable propellant formulations are provided including reduced toxicity ballistic modifiers that do not adversely increase the sensitivity of the propellant to shock detonation. Failure to adequately control the propellant burn rate often results in unacceptable performance of the propellant. Carbon can act as an effective ballistic, but not to the extent of metal compounds. It has been found that pasting a ballistic modifier, including ballistic modifiers containing lead, in an inert polymer modifies the burn rate of propellants while allowing the use of a reduced amount of modifier to achieve the same desired burn rate modification as the prior art, and therefore creating reduced shortcomings associated with the ballistic modifiers. Accordingly, the use of from about 1% to about 6% burn rate modifier wherein the burn rate modifier includes a ballistic modifier pasted in an inert polymer is taught as an effective burn rate modifier in a propellant, in order to provide reduced toxicity means for modifying the propellant burn rate without increasing the sensitivity of the propellant to shock detonation.
Owner:AEROJET ROCKETDYNE INC

Halogen free phosphorous-nitrogen synergic antiflaming water-soluble polyurethane fabric coating agent and preparation method thereof

The invention relates to halogen free phosphorous-nitrogen synergic antiflaming water-soluble polyurethane fabric coating agent and a preparation method thereof, belonging to the technical field of light industry. The coating agent comprises diisocyanate, non-antiflaming polyalcohol, reactive type phosphorous-nitrogen series polyalcohol, hydrophilic chain extender and neutralizing agent. The diisocyanate, non-antiflaming polyalcohol, reactive type phosphorous-nitrogen series polyalcohol and hydrophilic chain extender are added into a kettle, and reaction is carried out, thus obtaining prepolymer; then the prepolymer is added into aqueous solution containing neutralizing agent, emulsification neutralization is carried out in high speed emulsification equipment, and then rotary evaporation is carried out to remove solvent, thus obtaining target product. The invention has the characteristics of environmental protection, no toxicity, low smoke, phosphorous-nitrogen synergic antiflaming and obvious antiflaming effect; the antiflaming water-soluble polyurethane fabric coating agent is adopted for finishing fabric, coating is transparent and unsticky, handfeel of fabric is not influenced, and soaping resistance can be realized, thus passing level B1 in GB/T5455-1997 textile-burning behaviour-vertical method.
Owner:BEIJING INSTITUTE OF TECHNOLOGYGY

Steel structure fireproof paint by taking expanded and vitrified small ball as base material

The invention provides a preparation method of a steel structure fireproof paint by taking expanded and vitrified small ball as a base material, which is characterized in that on the basis of a traditional organic inorganic clad steel structure fireproof paint, and expanded and vitrified small ball and phenolic resin are used for obtaining the steel structure fireproof paint with excellent performance. According to the invention, expanded and vitrified small ball in the inorganic component replace a traditional lightweight aggregate, thereby the paint has the advantages of low density, high strength, stable physical and chemical performance, and has excellent performances of aging resistance and weatherability, heat insulation, fire resistance, sound insulation and insulation; phenolic resins can replace a traditional film forming agent in the organic component, no fire retardant is applied, so that the coating has the advantages of difficult combustion, good heat stability, low smoke, low toxicity, high mechanical strength, and strong anti-corrosion capability and weather resistance. The paint overcomes the disadvantages of poor flame resistance and toxic flue gas release due to thermal decomposition of the common organic resin.
Owner:BEIJING BUILDING TECH DEV

Transparent halogen-free low smoke antiflaming polycarbonate composite material and preparation method thereof

The invention discloses a transparent halogen-free low smoke antiflaming polycarbonate composite material and a preparation method thereof. The polycarbonate composite material comprises the following components in parts by weight: 900-980 parts of polycarbonate resin, 5-50 parts of polysiloxane fire retardant, 1-10 parts of sulfonate fire retardant, and 5-50 parts of additive. The preparation method comprises the following steps of mixing the polycarbonate resin, polysiloxane fire retardant, sulfonate fire retardant and additive in a highly mixing machine, then pelletizing through twin screw extrusion, drying and injection molding so as to obtain the transparent halogen-free low smoke antiflaming polycarbonate composite material. On one hand, the hazard that bromine antiflaming polycarbonate material generates carcinogen such as 4-bromo-dibenzdioxan and 4-bromo-dibenzofuran is avoided; on the other hand, the transparent halogen-free low smoke antiflaming polycarbonate composite material has excellent antiflaming performance, reaches the US standard of UL94V-0, also has high grade of transparency and excellent mechanical property, thermal property, low temperature performance and low smoke performance, and remarkably improves the processibility of the material.
Owner:SHANGHAI CHANGWEI JINCI ENG PLASTIC

High-temperature resistant wear-resistant irradiation cross-linked regenerated-polyolefin/nano-magnesium-hydroxide halogen-free flame-retardant environmental-friendly cable material with high electric properties and production method of the cable material

The invention provides a high-temperature resistant wear-resistant irradiation cross-linked regenerated-polyolefin/nano-magnesium-hydroxide halogen-free flame-retardant environmental-friendly cable material with high electric properties. The cable material is used for products comprising power cables, mine cables, marine cables, electric equipment lines, locomotive and vehicle cables, and the like. The cable material is produced from following raw materials by weight: 30-40 parts of a regenerated polyolefin, 40-50 parts of a compatilizer, 15-20 parts of an ethylene-propylene-diene monomer (EPDM), 120-150 parts of a nano flame retardant, 3-5 parts of an antismoke agent, 3-3.5 parts of a sensitizer, 1-2 parts of a coupling agent, 1.0-1.5 parts of an antioxidant, 1.5-2 parts of a lubricant and 0.8-2.5 parts of a colorant. According to the cable material and the production method, waste and old plastics are used as the raw materials and an irradiation cross-linking technology and an nano new material are employed, and therefore the cable material has good comprehensive performances comprising high-temperature resistance, wear resistance, high electric properties, oil resistance, high strength, less smoke, no halogen, high flame retardance, good fluidity, etc., and the environmental performance of the cable material meets the requirements of electric wires and cables.
Owner:河南久通电缆有限公司 +1

Low smoke, low toxicity fiber optic cable

A low smoke, low toxicity fiber optic cable that provides an intermediate surface that facilitates bonding to optical connectors such as LC connectors, is provided. In a preferred embodiment, the inventive cable exhibits improved dimensional stability by minimizing or eliminating shrinkage stress on the optic fiber core.
Owner:JUDD WIRE

Flame-retardant glycol containing phenyl phosphate-based symmetrical structure and preparation method thereof

The invention discloses reaction-type flame-retardant glycol containing a phenyl phosphate-based symmetrical structure and a preparation method thereof. The preparation method is characterized by comprising the following steps: reacting phenyl dichlorophosphate with dihydric alcohol in a tetrahydrofuran or ethyl acetate solution in the presence of triethylamine, placing the tetrahydrofuran or ethyl acetate solution of dihydric alcohol and triethylamine into an ice-water bath, stirring and dropwise adding the tetrahydrofuran or ethyl acetate solution of phenyl dichlorophosphate; and filtering a precipitate and then removing the solvent in the filtrate to obtain the product with a structural general formula specified in the description, wherein n is an integer ranging from 2 to 6. According to the preparation method disclosed by the invention, micromolecular dihydric alcohol is introduced in the phenyl dichlorophosphate group in a manner of chemical bonding, so that the obtained dihydric alcohol molecular structure contains both the phenyl dichlorophosphate group and two hydroxyl groups with symmetrical structures and same reaction activity, and can partially or completely replace the micromolecular dihydric alcohol without a flame-retardant characteristic, so that the prepared polymer material has a flame-retardant characteristic; the raw materials in the preparation method disclosed by the invention are easily available, synthesis and post-treatment processes are simple, the cost is low, and the yield can achieve more than 90%.
Owner:UNIV OF SCI & TECH OF CHINA

Preparation method of halogen-free, flame-retardant, low-smoke and low-toxin hot melt phenolic prepreg

ActiveCN107383763AUniform textureResin content is stableEpoxyFiber
The invention relates to a preparation method of halogen-free, flame-retardant, low-smoke and low-toxin hot melt phenolic prepreg. The solid content and the viscosity-temperature flow characteristic of phenolic resin are controlled with a reasonable synthesis process; solid phenolic resin and liquid epoxy resin are mixed uniformly according to formula design, and a resin system suitable for preparation of prepreg with a hot melt process is obtained; the gelation time of the resin is controlled to range from 140 s to 250 s, a hot melt resin adhesive film is prepared from the hot melt phenolic resin system, the coating temperature is controlled to range from 40 DEG C to 65 DEG C, the hot melt phenolic resin adhesive film and unidirectional fiber or fiber fabric are composited under heating and pressurizing conditions, and the hot melt prepreg is prepared. The hot prepreg with uniform texture and stable resin content can be obtained through resin synthesis, formula design and process design, and the hot melt prepreg and the composite have the characteristics of low smoke, no halogen, low smog toxin and flame retardancy and can meet requirements for use performance of interior trimming and structural composites for high-seed railways, aircrafts, steamships and other transportation tools.
Owner:AEROSPACE RES INST OF MATERIAL & PROCESSING TECH +1
Who we serve
  • R&D Engineer
  • R&D Manager
  • IP Professional
Why Eureka
  • Industry Leading Data Capabilities
  • Powerful AI technology
  • Patent DNA Extraction
Social media
Try Eureka
PatSnap group products