TH31730B - Fire resistant pipe - Google Patents

Abstract

Fire resistant pipes and pipe fittings containing The structural walls of the pipe are made of fibers. Reinforced coiled strands are bonded to thermoset polymer resins selected from a group consisting of phenolic resins, siloxane-modified phenolic resins, Furan, resin and its mixtures in one look A high-resin refractory layer is applied to the surface of the structural wall of the pipe. The support will be able to handle a large amount of resin. The resin used to penetrate the supports is selected from the same group as the resin used to form the structural walls of the pipe. in good form The two resins can be used together and in good form. They are the same and help create a bond between the walls. The structure of the pipe and the refractory layer during hardening in the second form A number of layers of energy-absorbing material lie around the structural walls of the tube and are made of energy-absorbing materials. heat from the surrounding outer layer to create a heat insulating gas between A layer of fiber-reinforced resin is also formed around the absorbent layer. fireproof layer and material layer Absorbing energy is created to a thickness sufficient to insulate the structural walls from heat. incurred as a result of a fault when the outermost pipe wall is exposed to a 1,000 °C flame for five minutes, at least in dry conditions.

Claims (7)

1. Fire resistant pipe consisting of: - A structural wall consisting of A layer of coiled reinforcing fibers bonded together with a layer of ciloxane-phenolic resin, and a first-class fire-resistant layer. At least Over the structural wall Where the flame-retardant layer consists of an inner support, penetrating with zealoxane-phenolic resin, 2. Fire-resistant tubing, as stated in Clause 1, where the sealox- Resolution of phenolic resin, is selected to form the structural wall. And the fire-resistant class will be the same material. 3. Fire-resistant pipes, as stated in Clause 1, where the fire-resistant class Contains 75 percent resin by weight. 4. Fire-resistant tubes as described in Clause 1, where the fiber part used to create the fireproof wall is chosen from a group of glass, carbon and its mixtures. Fire, as stated in claim 1, where the fiber carrier used to create the fireproof layer is selected from the group consisting of Weave material with glass Weave material with glass rod 6. Fire-resistant tubing, as stated in claim 1, where the coiled reinforcing fibers consist of resin in the range from 10 to 40 percent by weight. As stated in claim 1, where the fire-resistant class will consist of races in the range from 75 to 95 percent by weight. 8. Fire-resistant pipe consisting of - structural walls. Consisting of a layer of coiled reinforced fibers bonded to phenolic resin; And - first class fireproof At least Over the structural wall where the fireproof layer will consist of The fiber-reinforced support is infiltrated with phenolic resin, where the fire-resistant layer is made up of at least three times the resin. In the form of coiled reinforcing fibers that make up Structural wall 9. Fire-resistant tubing as described in Clause 1, where zeloxane-modified phenolic resin will consist of - phenolic resol resins - silicone intervent. Media; And - a sufficient amount of catalyst to harden 1 0. Refractory tubes as described in Clause 9, where the zeloxane-modified phenolic resin will be prepared by Silicone use Internet media ranges from 0.5 to 35 percent by weight 1. 1. Fire resistant pipe, which consists of - structural walls. It consists of a layer of reinforced fibers that are coiled together and bonded to the resin. Selected from a group containing phenolic resins, xeloxane-modified phenolic resins, furan resins and their mixtures; - First class fireproof At least Over the structural wall, where the fireproof layer consists of a fiber-permeable, resin-infused support selected from the group. It contains phenolic resins, xeloxane modified phenolic resins, furan resins and their mixtures, and where the selected resin forms a fireproof layer. It will work as well as the resin chosen to create a fireproof wall. A number of energy-absorbing material layers are interlaced between the structural wall and the fire-resistant layer 1 2. Fire-resistant tubes as described in Clause 1, where the energy-absorbing layer is taken from polyethylene. 13 Fire-resistant tubing, which consists of - a layer of coiled reinforcing fibers bonded to a thermosetting polymeric xyloxane and - a first class fire-resistant layer. At least Overlap above a layer that curls into a loop consisting of Reinforced fibers with out of order direction And thermoset polymers of the same type as the coiled layer, where the polymer portion in the refractory layer is 75% by weight. 1. Fire resistant tubing, which consists of - a layer of coiled reinforcing fibers bonded to a selected thermoset polymer from the phenolic group. Cresins, xeloxane-modified phenolic resins, furan resins and their mixtures; And - first class fireproof At least Overlap on a looped layer that consists of irregularly directed reinforced fibers and polymers of the same type as the coiled layer where the polymer part. Of the fireproof class will be 75 percent by weight This is the least, and where the fire-resistant layer is thick enough to withstand a flame of 1,000 ° C for five minutes. At least In dry condition The structural walls do not deteriorate. 1 5. Fire-resistant tubing, which consists of - a layer of coiled reinforcing fibers bonded to a thermoset polymer chosen from the group. Contains phenolic resin, xeloxane-modified phenolic resin, furan resins and their mixtures; And - first class fireproof At least That overlap the layers that curl into a loop consisting of Reinforced fibers of irregular direction and polymers of the same type as the coiled layers, where the polymer part Of the fireproof class will be 75 percent by weight It is the least and where the thermoset polymers are zeloxane-modified phenolic resin, prepared by mixing the following parts together - Phenolic Resol or Phenolic Novolac Resin in very good proportions - Silicone Intermediate And - a sufficient amount of catalyst for the operation of the process. And produce results The incubation hardened 1 6. Refractory tubes as stated in Clause 15, where catalysts are chosen from the group. Contains organometalic compounds, amine compounds, acids, bases and their mixtures 1 7. Refractory tubes as described in Clause 16, where the catalyst is of mix Of catalyst Organometallic and Amine 1 8. Fire-resistant tubing as described in Clause 13, where the support used to form a fire-resistant layer. It is selected from a group of materials comprising glass fibers, nylon fibers, polyester fibers, carbon fibers and their mixtures. 90% by weight 2.0. Fire-resistant tubing, as stated in claim 19, where the coiled reinforcing fibers consist of resin in the range from 10 to 40 percent by weight 2. 1. Fire-resistant tubing, where Consists of - structural walls It consists of a layer of reinforced fibers that are coiled together and bonded to the resin. Selected from a group containing phenolic resins, xeloxane-modified phenolic resins, furan resins and their mixtures; - a layer of energy-absorbing material overlaps the structural wall Where the material absorbs energy Will be chosen from a group that includes Materials that can absorb energy By process Phase change at a temperature below the temperature that causes the structural walls to deteriorate; And - a layer of fiber-reinforced resin over the outer surface of the energy absorbing layer. Where the resin part is chosen from the same group as the resin used to form the structural wall 2. 2. Fire-resistant pipes as set out in Clause 21 which comprise of Clause 21; - A second sulphurization layer overlaps the outer surface of the fiber-reinforced resin layer. Where the energy-absorbing material is used to form a layer, the second amount of energy-absorbing material is chosen from the group that consists of Materials capable of absorbing energy by a phase shift at lower temperatures. The temperature at which the fiber-reinforced resin layer is the same or different from the energy-absorbing layer. That overlaps the structural walls Will sequester down; And - the second layer of fiber-reinforced resin is above the outer surface of the energy-absorbing layer 2. 3. Fire-resistant hoses as defined in Clause 21, where it is composed of a second layer of persimmon absorbent layer, intermediate between the first energy-absorbing material layer and the fiber-reinforced substrate layer. Where the energy absorbing material used to create a second energy absorbing material layer will Unlike the first layer of energy absorbing material 2 4. Fire-resistant pipes, as stated in Clause 21, where the energy absorbing material layer is made From polyethylene 2 5. Fire-resistant pipes, as stated in Clause 21, where the selected resin forms the walls. The structure is the same as the resin selected to form a layer of fiber reinforced resin 2. 6. Refractory tubing, as stated in Clause 25, where the resins are selected from a group containing phenolic resins and phenolic novolac resins 2. 7. Fire-resistant tubing as specified in Clause 25, where the resin will be zeloxane-modified phenolic resin prepared. By mixing the following parts - a large proportion of phenolic resol or phenolic novolac resins - silicone intermedia. In a minor proportion, and - a sufficient amount of catalyst to carry out the process and cause hardening.