CN1245840A - Radiation-resisting, radiation-resisting fire-proofing and radiation-resisting fire-proofing and water-proofing shell fabric and its production method - Google Patents
Radiation-resisting, radiation-resisting fire-proofing and radiation-resisting fire-proofing and water-proofing shell fabric and its production method Download PDFInfo
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Abstract
The present invention relates to a production method of radiation-resistant flame-retarding and water-proofing shell fabric. Said radiation-resistant shell fabric is formed from (wt%) 15-45% of ultra-low carbon stainless steel staple whose carbon content is 0.02-0.04% and 60-85% of textile material staple. Its production method includes the following steps: firstly, making the ultra-low carbon stainless steel into staple, then mixing the staple with the texitile material staple, uniformly stirring them, spinning and weaving to obtain the radiation resistant shell fabric, then making it undergo the processes of flame-retarding and water-proofing treatment so as to obtain the invented shell fabric.
Description
The present invention relates to a kind of radiation proof, radiation proof is fire-retardant and radiation proof fire-resistant waterproof lining and production method, it relate to a kind of with stainless steel short fiber and textile material staple fibre be mixed and made into can radiation proof, the lining and the production method of fire-retardant and waterproof.
What grow up along with the continual renovation of electronics new technology is all kinds of novel industry of feature with automation, Electronic Control, and huge impetus has been played in the economic construction and the scientific and technological progress of China.But the electromagnetic radiation that they produced has formed contaminated environment and has been detrimental to health.As the super-pressure power transmission and distribution of power system with send power transformation; The radio broadcasting of signal transmitting system, TV, wireless telecommunications; High-frequency quenching, high frequency in commercial Application are smelted plastic heat sealing etc.; Medical radio-frequency equipment, ultrasound medical instrument and various household electrical appliance etc. are all to environment space emission and the electromagnetic wave that leaks certain intensity.In order to realize the control to the electromagnetic radiation environment contaminant capacity, country issues " electromagnetic radiation environment management method ".
The harm of Electromagnetic Radiation on Environment and human body is proved by the countless fact.Human body is exposed in the strong-electromagnetic field can produce ill-effect.Male testical there is infringement, can causes the seriousness deterioration, also can produce youngster's in congenital malformation birth at high proportion; To being engaged in the women of electronic engineering work for a long time, easily suffer from breast cancer, pregnant woman's spontaneous abortion ratio is increased and menstrual disorder; To being engaged in machine room and computer work person, because of being subjected to chronic microwave irradiation, many people feel: mood is fidgety, sleep is bad, neck pain, fatigue and weak, also alopecia of somebody, falls that tooth, eyes are dry, eyesight descends, and severe patient can also cause cataract; When electromagnetic radiation dosage runs up to a certain degree, all to be subjected to bigger harm to the nervous centralis of human body, cardiovascular system, blood, digestive system, immunity function, marrow etc., cause cancer to produce easily.In order to prevent the harm of electromagnetic radiation, all it is studied both at home and abroad now, and proposed the way of administering human body: the one, device mask reduces electromagnetic energy and leaks, and prevents that operating environment from polluting; The 2nd, physical protection, the development screening clothing is avoided the injury of electromagnetic radiation to the operating personnel.The at present external protective clothing that uses, be basically with the fine silver filling the high performance nylon fabric, be equipped with special silver-colored slide fastener, have good RF energy decay characteristics, but its cost of manufacture is too high, about about 200 dollars of every cover.External also useful lead wire net is done interlayer and is made screening clothing, but this product also cost height, heaviness, be not suitable for use.China has developed the screening clothing that interweaves with copper wire and tussah silk the seventies, but since the cost height of this screening clothing also fail generally to use.Also the someone studied two-layer nonmetal between clamping wire netting or metal film, as CN1045678A disclosed " a kind of screening material against electromagnetic radiation ", the device mask that is easy to do of this material, and the screening clothing that is not easy to do.
It is low to the purpose of this invention is to provide a kind of cost, have good shielding properties and both can do radiation-proof fabric and the production method that screening clothing also can be done device mask.
Another object of the present invention provides the production method that a kind of production can radiation proof can play the lining of fire retardation again.
Another purpose of the present invention provides a kind of production can the fire-retardant production method that can grease proofingly refuse water surface material again of radiation proof.
Task of the present invention is achieved in that
This radiation-proof fabric is that super-low carbon stainless steel staple fibre and the textile material staple fibre of 0.02-0.04% formed by phosphorus content, and its percentage by weight is: super-low carbon stainless steel staple fibre 15-40%, textile material staple fibre 60-85%.
The size of above-mentioned super-low carbon stainless steel short fibre content is by the height decision of radiation-proof fabric shielding properties, and its relation is as follows:
The radiation-proof fabric stainless steel short fiber content that the shielding attenuation value reaches 30-40 decibel (dB) is 15%, the radiation-proof fabric stainless steel short fiber content that the shielding attenuation value reaches 40-50 decibel (dB) is 20%, the radiation-proof fabric stainless steel short fiber content that the shielding attenuation value reaches 50-60 decibel (dB) is 25%, the radiation-proof fabric stainless steel short fiber content that the shielding attenuation value reaches 60-70 decibel (dB) is 30%, the radiation-proof fabric stainless steel short fiber content that the shielding attenuation value reaches 70-80 decibel (dB) is 35%, and the radiation-proof fabric stainless steel short fiber content that the shielding attenuation value reaches 80-90 decibel (dB) is 40%.
Above-mentioned textile material staple fibre is that real silk, silk are washed, short washed, in people cotton, cotton textiles and the polyester-cotton blend staple fibre that is mixed with in 65/35 ratio any one.
The method of producing radiation-proof fabric is: the super-low carbon stainless steel that with phosphorus content is 0.02-0.04% earlier is processed into the stainless steel long fiber, be cut into stainless steel short fiber again, then by following percentage by weight: stainless steel short fiber 15-40%, textile material staple fibre 60-85% mix and stir, be spun into the yarn of different numbers, be made into radiation-proof fabric then.
The yarn of above-mentioned different numbers is 21,32,42 and 60 count yarns.
The production method of using radiation-proof fabric to make the fire-retardant lining of radiation proof is: earlier radiation-proof fabric is carried out margin to seam, succinct, destarch, dyeing, cleaning reduction, oven dry then; Be 2-3kg/cm at pressure then with padding machine
2In fire retardant hybrid working liquid, pad lining twice down, then under 130 ℃-140 ℃ temperature, dry; Is that 15-20m/min carry out bake pressure with the progress with setting machine under 170 ℃-180 ℃, with the Na of dye jigger at 80 ℃
2CO
3Alkali cleaning 10 roads in the water then clean 5 roads with dye jigger again in 50 ℃ warm water, wash 5 roads with dye jigger in cold water again, 130 ℃ of oven dry down; Be 2-3kg/cm with padding machine at pressure again
2In the solution of softener and eliminating smell agent, pad lining twice down, use setting machine at last 150 ℃ of following drying and shaping.
Above-mentioned fire retardant hybrid working liquid is made up of fire retardant, cross linking agent, bleeding agent, catalyst and water, its proportioning is: contain in per 100 kilograms of fire retardant hybrid working liquid 60~80 kilograms fire retardant, contain the 8-12 kilogram cross linking agent, contain the 0.1-0.2 kilogram bleeding agent, contain the catalyst of 2-4 kilogram, all the other are water.
The solution of above-mentioned softener and eliminating smell agent is made up of softener, eliminating smell agent and water, and its proportioning is: contain softener 2-5 kilogram in the solution of per 100 kilograms of softeners and eliminating smell agent, contain eliminating smell agent 3-6 kilogram, all the other are water.
Use the production method of radiation-proof fabric production radiation proof fire-resistant waterproof lining to be: earlier radiation-proof fabric to be carried out margin to seam, succinct again, destarch, dyeing, cleaning reduction, oven dry then; Be 2-3kg/cm at pressure then with padding machine
2In fire retardant hybrid working liquid, pad lining twice down, then under 130 ℃-140 ℃ temperature, dry; Is that 15-20m/min carry out bake pressure with the progress with setting machine under 170 ℃-180 ℃, with the Na of dye jigger at 80 ℃
2CO
3Alkali cleaning 10 roads in the water then clean 5 roads with dye jigger again in 50 ℃ warm water, wash 5 roads with dye jigger in cold water again, 130 ℃ of oven dry down; Be 2-3kg/cm with padding machine at pressure again
2In waterproof hybrid working liquid, pad lining twice down, use setting machine at last 150 ℃ of following drying and shaping.
Above-mentioned waterproof hybrid working liquid is made up of waterproofing agent, softener, cross linking agent, eliminating smell agent, catalyst and water, its proportioning is: contain in per 100 kilograms of waterproof hybrid working liquid the 50-60 kilogram waterproofing agent, contain the 2-5 kilogram softener, contain the 8-12 kilogram cross linking agent, contain the 3-6 kilogram eliminating smell agent, contain the catalyst of 2-4 kilogram, all the other are water.
Because the present invention adopted technique scheme, therefore compare advantage such as have that production cost is low, advantages of good shielding performance, purposes are wide, easy to use with background technology.It not only provides desirable protective clothing lining for the operating personnel in the special operation environment, and has produced huge economic benefit and social benefit.
With the radiation-proof fabric that the present invention produces, its shielding property sees the following form:
| Sequence number | Name of product | National standard | Shielding attenuation value (dB) |
| ????1 | ????F--15 | Do not have | ????30 |
| ????2 | ????F--20 | Do not have | ????45 |
| ????3 | ????F--25 | Do not have | ????60 |
| ????4 | ????F--30 | Do not have | ????70 |
| ????5 | ????F--35 | Do not have | ????80 |
| ????6 | ????F--40 | Do not have | ????90 |
The code name F of name of product represents radiation proof, the content of numeral stainless steel short fiber in the last table.
With the fire-retardant lining of radiation proof that the present invention produces, after tested, its fire resistance has reached the requirement of national standard (GB8965-98) set quota fully, and its test result is as follows:
| Sequence number | Test event | Standard (GB8965-98) requirement | Actual measurement before the washing | The actual measurement of washing back | Conclusion |
| ????1 | Apply flame (s) | ????12 | ????12 | ????12 | |
| ????2 | Char length (mm) | ????≤150 | ????115 | ????94 | Qualified |
| ????3 | After flame time (s) | ????≤5 | ????0 | ????0 | Qualified |
| ????4 | (s) glows the time | ????≤5 | ????1 | ????0.5 | Qualified |
| ????5 | Fusion, drippage | Do not have | Do not have | Do not have | Qualified |
With the radiation proof fire-resistant waterproof lining that the present invention produces, after tested, its grease proofing water repellency has reached the requirement of national standard (GB12799-91) set quota fully.Its test result is as follows:
| Sequence number | Test event | Standard (GB12799-91) requirement | Measured result | Conclusion |
| 1 | Oil-resistant characteristic (score value) | Before washing: 130 minutes | (washing 50 times) 140 | Qualified |
| Wash the back: 80 minutes | 90 | Qualified | ||
| 2 | Water repellency (progression) | Before washing: 5 | 5 | Qualified |
| Wash the back: 2 | 3 | Qualified | ||
| 3 | Tensile strength (N) | Warp-wise: 980 | 980 | Qualified |
| Broadwise: 490 | 507 | Qualified | ||
| 4 | Air permenbility (m 3/ m 2S) | 〉=6 * 10 -2m 3/ m 2s | 161 | Qualified |
| Conclusion | Detect identification through Ministry of Labour labour protection detection technique center: every barrier propterty all meets GB GB12799-91 requirement. | |||
The present invention will be further described below in conjunction with embodiment.
Embodiment 1:
Radiation-proof fabric in the present embodiment is that 0.02% super-low carbon stainless steel staple fibre and real silk staple fibre are formed by phosphorus content, and its percentage by weight is: the super-low carbon stainless steel staple fibre is 15%, and the real silk staple fibre is 85%.The lining shielding attenuation value of present embodiment can reach 30-40 decibel (dB).
The production method of this radiation-proof fabric is: at first be that 0.02% super-low carbon stainless steel is processed into the stainless steel long fiber with phosphorus content, be cut into stainless steel short fiber (with existing method processing) again, mix by above-mentioned percentage by weight with the real silk staple fibre then and stir, be spun into 60 yarn, being made into weight then is 200g/m
21/2 twill radiation-proof fabric.
Embodiment 2:
The radiation-proof fabric of present embodiment is 0.03% super-low carbon stainless steel staple fibre by phosphorus content and shortly washs staple fibre and forms that its percentage by weight is: the super-low carbon stainless steel staple fibre is 20%, lacks that to wash staple fibre be 80%.The lining shielding attenuation value of present embodiment can reach 40-50 decibel (dB).
The production method of this radiation-proof fabric is: at first be that 0.03% super-low carbon stainless steel is processed into long fiber with phosphorus content, cut into stainless steel short fiber again, mix by above-mentioned percentage by weight and stir with the short staple fibre of washing then, be spun into 42 yarn, being made into weight then is 250g/m
2Plain weave Antiradiation protection cloth lining.
Embodiment 3:
Radiation-proof fabric in the present embodiment is that 0.04% super-low carbon stainless steel staple fibre and people's cotton short fiber are formed by phosphorus content, and its percentage by weight is: the super-low carbon stainless steel staple fibre is 25%, and people's cotton short fiber is 75%.The lining shielding attenuation value of present embodiment can reach 50-60 decibel (dB).
The production method of this radiation-proof fabric is: at first be that 0.04% super-low carbon stainless steel is processed into long fiber with phosphorus content, cut into stainless steel short fiber again, mix by above-mentioned percentage by weight with people's cotton short fiber then and stir, be spun into 32 count yarns, being made into weight then is 300g/m
2Single face card radiation-proof fabric.
Embodiment 4:
Radiation-proof fabric in the present embodiment is that 0.025% super-low carbon stainless steel staple fibre and textile staple fibre are formed by phosphorus content, and its percentage by weight is: the super-low carbon stainless steel staple fibre is 30%, and textile staple fibre is 70%.The lining shielding attenuation value of present embodiment can reach 60-70 decibel (dB).
The production method of this radiation-proof fabric is: at first be that 0.025% super-low carbon stainless steel is processed into long fiber with phosphorus content, cut into stainless steel short fiber again, mix by above-mentioned percentage by weight with textile staple fibre then and stir, be spun into 21 count yarns, being made into weight is 350g/m
2The reversible khaki radiation-proof fabric.
Embodiment 5:
Radiation-proof fabric in the present embodiment is 0.035% super-low carbon stainless steel staple fibre by phosphorus content and forms in the polyester-cotton blend staple fibre that 65/35 ratio is mixed with, its percentage by weight is: the super-low carbon stainless steel staple fibre is 35%, and the polyester-cotton blend staple fibre that is mixed with in 65/35 ratio is 65%.The lining shielding attenuation value of present embodiment can reach 70-80 decibel (dB).
The production method of this radiation-proof fabric is: at first be that 0.035% super-low carbon stainless steel is processed into long fiber with phosphorus content, cut into stainless steel short fiber again, mix by above-mentioned percentage by weight with the polyester-cotton blend staple fibre that is mixed with in 65/35 ratio then and stir, be spun into 32 count yarns, being made into weight again is 400g/m
2The canvas radiation-proof fabric.
Embodiment 6:
Radiation-proof fabric in the present embodiment is that 0.03% super-low carbon stainless steel staple fibre and silk are washed staple fibre and formed by phosphorus content, and its percentage by weight is: the super-low carbon stainless steel staple fibre is 40%, and thread washing staple fibre is 60%.The lining shielding attenuation value of present embodiment can reach 80-90 decibel (dB).
The production method of this radiation-proof fabric is: at first be that 0.03% super-low carbon stainless steel is processed into long fiber with phosphorus content, cut into stainless steel short fiber again, wash staple fibre with silk then and mix by above-mentioned percentage by weight and stir, be spun into 42 count yarns, being made into weight again is 420g/m
2The reversible khaki radiation-proof fabric.
Embodiment 7:
The lining of present embodiment production is the fire-retardant lining of radiation proof.Its production method is: earlier the radiation-proof fabric that embodiment 5 is produced carries out margin to seam, succinct again, destarch, dyeing, cleaning reduction, oven dry then; Is 2kg/cm with padding machine at pressure
2In fire retardant hybrid working liquid, pad lining twice down, then 130 ℃ of oven dry down; Is that 15m/min carry out bake pressure with the progress with setting machine under 170 ℃, then is 4.5 Na at 80 ℃ pH value with dye jigger
2CO
3Alkali cleaning 10 roads in the water clean 5 roads with dye jigger in 50 ℃ warm water, wash 5 roads with dye jigger in cold water, then 130 ℃ of oven dry down; Be 2kg/cm at pressure then with padding machine
2In the solution of softener and eliminating smell agent, pad lining twice down, promptly produce the fire-retardant lining of radiation proof with setting machine 150 ℃ of following drying and shaping at last.
Above-mentioned fire retardant hybrid working liquid is made up of fire retardant (Switzerland's vapour crust---the SY-PG6 that Jia Ji company produces), cross linking agent (the A resin that Shangyang, Beijing company produces), bleeding agent (the Shanghai textile research is produced), catalyst (organic salt) and water, its proportioning is: contain 60 kilograms of fire retardants in per 100 kilograms of fire retardant hybrid working liquid, contain 8 kilograms of cross linking agents, contain 0.1 kilogram of bleeding agent, contain 2 kilograms of catalyst, all the other are water.
The solution of above-mentioned softener and eliminating smell agent is made up of softener, eliminating smell agent and water, and its proportioning is: contain 3 kilograms of softeners (SR that Shangyang, Beijing company produces) in the solution of per 100 kilograms of softeners and eliminating smell agent, contain 3 kilograms of eliminating smell agents, all the other are water.
Embodiment 8:
The lining of present embodiment production is the fire-retardant lining of radiation proof.Identical among its production stage and the embodiment 7.Wherein: radiation-proof fabric is selected the lining among the embodiment 3 for use, and the pressure of padding machine is 3kg/cm
2, bake out temperature is 140 ℃, setting machine is that 20m/min carries out bake pressure with the progress under 180 ℃.
Fire retardant hybrid working liquid is made up of fire retardant (Switzerland's vapour crust---the SY-PG7 that Jia Ji company produces), cross linking agent (the B resin that Shangyang, Beijing company produces), bleeding agent (the Shanghai textile research is produced), catalyst (organic salt) and water, its proportioning is: contain 80 kilograms of fire retardants in per 100 kilograms of fire retardant hybrid working liquid, contain 12 kilograms of cross linking agents, contain 0.2 kilogram of bleeding agent, contain 4 kilograms of catalyst, all the other are water.
Identical among the composition of the solution of softener and eliminating smell agent and the embodiment 7, its proportioning is: contain 5 kilograms of softeners in the solution of per 100 kilograms of softeners and eliminating smell agent, contain 6 kilograms of eliminating smell agents, all the other are water.
Embodiment 9:
The lining of present embodiment production is the fire-retardant lining of radiation proof.Identical among its production stage and the embodiment 7.Wherein: radiation-proof fabric is selected the lining among the embodiment 4 for use, and the pressure of padding machine is 2.5kg/cm
2, bake out temperature is 135 ℃, setting machine is that 18m/min carries out bake pressure with the progress under 175 ℃.
Fire retardant hybrid working liquid is made up of fire retardant (CT that the Shanghai textile research is produced), cross linking agent (the trimerization azanol that the extraordinary fabric in Anshan research institute produces), bleeding agent (the Shanghai textile research is produced), catalyst (organic salt) and water, its proportioning is: contain 70 kilograms of fire retardants in per 100 kilograms of fire retardant hybrid working liquid, contain 8 kilograms of cross linking agents, contain 0.15 kilogram of bleeding agent, contain 2 kilograms of catalyst, all the other are water.
The solution of softener and eliminating smell agent is made up of softener (the fast FG that reaches the production of fire-retardant company in Zhengzhou), eliminating smell agent and water, and its proportioning is: contain 2 kilograms of softeners in the solution of per 100 kilograms of softeners and eliminating smell agent, contain 4.5 kilograms of eliminating smell agents, all the other are water.
Embodiment 10:
The lining of present embodiment production is the fire-retardant lining of radiation proof.Identical among its production stage and the embodiment 7.
Fire retardant hybrid working liquid is made up of fire retardant (the fast FR102 that reaches the production of fire-retardant company in Zhengzhou), cross linking agent (the B resin that Shangyang, Beijing company produces), bleeding agent (with embodiment 7), catalyst (organic salt) and water, its proportioning is: contain 60 kilograms of fire retardants in per 100 kilograms of fire retardant hybrid working liquid, contain 10 kilograms of cross linking agents, contain 0.18 kilogram of bleeding agent, contain 3 kilograms of catalyst, all the other are water.
Identical among the solution of softener and eliminating smell agent and the embodiment 8.
Embodiment 11:
The lining of present embodiment production is a radiation proof fire-resistant waterproof lining.Its production stage is identical with the production stage of the fire-retardant lining of production radiation proof among the embodiment 7-10.Just the molten waterproof hybrid working liquid that is replaced with of the liquid of softener and eliminating smell agent is promptly produced radiation proof fire-resistant waterproof lining.
Waterproof hybrid working liquid in the present embodiment is made up of waterproofing agent (AG480 that SUMITOMO CHEMICAL commercial firm produces), softener (SR that Shangyang, Beijing company produces), cross linking agent (the A resin that Shangyang, Beijing company produces), eliminating smell agent (CW that Shangyang, Beijing company produces), catalyst (organic salt) and water, its proportioning is: contain 55 kilograms of waterproofing agents in per 100 kilograms of waterproof hybrid working liquid, contain 3.5 kilograms of softeners, contain 10 kilograms of cross linking agents, contain 6 kilograms of eliminating smell agents, contain 3 kilograms of catalyst, all the other are water.
Embodiment 12:
The lining of present embodiment production is a radiation proof fire-resistant waterproof lining, and its production stage is identical with embodiment 11.
Wherein the proportioning of waterproof hybrid working liquid is: contain 60 kilograms of waterproofing agents in per 100 kilograms of waterproof hybrid working liquid, contain 5 kilograms of softeners, contain 12 kilograms of cross linking agents, contain 5 kilograms of eliminating smell agents, contain 4 kilograms of catalyst, all the other are water.
Embodiment 13:
The lining of present embodiment production is a radiation proof fire-resistant waterproof lining, and its production stage is identical with embodiment 11.
Wherein the proportioning of waterproof hybrid working liquid is: contain 50 kilograms of waterproofing agents in per 100 kilograms of waterproof hybrid working liquid, contain 2 kilograms of softeners, contain 8 kilograms of cross linking agents, contain 3 kilograms of eliminating smell agents, contain 2 kilograms of catalyst, all the other are water.
Claims (10)
1, a kind of radiation-proof fabric is characterized in that: it is that super-low carbon stainless steel staple fibre and the textile material staple fibre of 0.02-0.04% formed by phosphorus content, and its percentage by weight is: super-low carbon stainless steel staple fibre 15-40%, textile material staple fibre 60-85%.
2, a kind of radiation-proof fabric according to claim 1 is characterized in that: the size of described super-low carbon stainless steel short fibre content is by the height decision of radiation-proof fabric shielding properties, and its relation is as follows:
The radiation-proof fabric stainless steel short fiber content that the shielding attenuation value reaches 30-40 decibel (dB) is 15%, the radiation-proof fabric stainless steel short fiber content that the shielding attenuation value reaches 40-50 decibel (dB) is 20%, the radiation-proof fabric stainless steel short fiber content that the shielding attenuation value reaches 50~60 decibels (dB) is 25%, the radiation-proof fabric stainless steel short fiber content that the shielding attenuation value reaches 60-70 decibel (dB) is 30%, the radiation-proof fabric stainless steel short fiber content that the shielding attenuation value reaches 70-80 decibel (dB) is 35%, and the radiation-proof fabric stainless steel short fiber content that the shielding attenuation value reaches 80~90 decibels (dB) is 40%.
3, a kind of radiation-proof fabric according to claim 1 is characterized in that: described textile material staple fibre is that real silk, silk are washed, short washed, in people cotton, cotton textiles and the polyester-cotton blend staple fibre that is mixed with in 65/35 ratio any one.
4, a kind of method of lining of production claim 1, it is characterized in that: the super-low carbon stainless steel that with phosphorus content is 0.02-0.04% earlier is processed into the stainless steel long fiber, be cut into stainless steel short fiber again, then by following percentage by weight: stainless steel short fiber 15-40%, textile material staple fibre 60-85% mix and stir, be spun into the yarn of different numbers, be made into radiation-proof fabric then.
5, production method according to claim 4 is characterized in that: the yarn of described different numbers is 21,32,42 and 60 count yarns.
6, a kind of lining that uses claim 1 production method of making the fire-retardant lining of radiation proof is characterized in that: earlier radiation-proof fabric is carried out margin to seam, succinct, destarch, dyeing, cleaning reduction, oven dry then; Be 2-3kg/cm at pressure then with padding machine
2In fire retardant hybrid working liquid, pad lining twice down, then under 130 ℃-140 ℃ temperature, dry; Is that 15-20m/min carry out bake pressure with the progress with setting machine under 170 ℃-180 ℃, with the Na of dye jigger at 80 ℃
2CO
3Alkali cleaning 10 roads in the water then clean 5 roads with dye jigger again in 50 ℃ warm water, wash 5 roads with dye jigger in cold water again, 130 ℃ of oven dry down; Be 2-3kg/cm with padding machine at pressure again
2In the solution of softener and eliminating smell agent, pad lining twice down, use setting machine at last 150 ℃ of following drying and shaping.
7, the production method of the fire-retardant lining of making radiation proof according to claim 6, it is characterized in that: described fire retardant hybrid working liquid is made up of fire retardant, cross linking agent, bleeding agent, catalyst and water, its proportioning is: contain in per 100 kilograms of fire retardant hybrid working liquid the 60-80 kilogram fire retardant, contain the 8-12 kilogram cross linking agent, contain the 0.1-0.2 kilogram bleeding agent, contain the catalyst of 2-4 kilogram, all the other are water.
8, the production method of the fire-retardant lining of making radiation proof according to claim 6, it is characterized in that: the solution of described softener and eliminating smell agent is made up of softener, eliminating smell agent and water, its proportioning is: contain softener 2-5 kilogram in the solution of per 100 kilograms of softeners and eliminating smell agent, contain eliminating smell agent 3-6 kilogram, all the other are water.
9, a kind of production method of using the radiation-proof fabric production radiation proof fire-resistant waterproof lining of claim 1, it is characterized in that: earlier radiation-proof fabric is carried out margin to seam, succinct again, destarch, dyeing, cleaning reduction, oven dry then: be 2-3kg/cm at pressure then with padding machine
2In fire retardant hybrid working liquid, pad lining twice down, then under 130 ℃-140 ℃ temperature, dry; Is that 15-20m/min carry out bake pressure with the progress with setting machine under 170 ℃-180 ℃, with the Na of dye jigger at 80 ℃
2CO
3Alkali cleaning 10 roads in the water then clean 5 roads with dye jigger again in 50 ℃ warm water, wash 5 roads with dye jigger in cold water again, 130 ℃ of oven dry down; Be 2-3kg/cm with padding machine at pressure again
2In waterproof hybrid working liquid, pad lining twice down, use setting machine at last 150 ℃ of following drying and shaping.
10, the production method of production radiation proof fire-resistant waterproof lining according to claim 9, it is characterized in that: described waterproof hybrid working liquid is made up of waterproofing agent, softener, cross linking agent, eliminating smell agent, catalyst and water, its proportioning is: contain in per 100 kilograms of waterproof hybrid working liquid the 50-60 kilogram waterproofing agent, contain the 2-5 kilogram softener, contain the 8-12 kilogram cross linking agent, contain the 3-6 kilogram eliminating smell agent, contain the catalyst of 2-4 kilogram, all the other are water.
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN99118290A CN1078274C (en) | 1999-09-14 | 1999-09-14 | Radiation-resisting, radiation-resisting fire-proofing and radiation-resisting fire-proofing and water-proofing shell fabric and its production method |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN99118290A CN1078274C (en) | 1999-09-14 | 1999-09-14 | Radiation-resisting, radiation-resisting fire-proofing and radiation-resisting fire-proofing and water-proofing shell fabric and its production method |
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| CN1245840A true CN1245840A (en) | 2000-03-01 |
| CN1078274C CN1078274C (en) | 2002-01-23 |
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| CN99118290A Expired - Fee Related CN1078274C (en) | 1999-09-14 | 1999-09-14 | Radiation-resisting, radiation-resisting fire-proofing and radiation-resisting fire-proofing and water-proofing shell fabric and its production method |
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| CN104389097A (en) * | 2014-11-13 | 2015-03-04 | 关捷 | Soft radiation-proof fabric and processing technology thereof |
| CN104928825A (en) * | 2015-05-26 | 2015-09-23 | 江苏高科物流科技股份有限公司 | Anti-radiation fabric, anti-radiation and acid-proof fabric and production method |
| CN109156935A (en) * | 2018-08-09 | 2019-01-08 | 道晟拉链科技(太仓)有限公司 | A kind of heat-resistant fireproof zipper |
| CN112144296A (en) * | 2020-09-29 | 2020-12-29 | 浙江彩蝶实业股份有限公司 | Anti-wrinkle flame-retardant waterproof multifunctional fabric process |
Family Cites Families (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| EP0383059B1 (en) * | 1989-02-15 | 1992-12-09 | Finex Handels-Gmbh | Textile fabric shielding electromagnetic radiation, and clothing made thereof |
| YU47476B (en) * | 1989-02-15 | 1995-10-03 | Institut Za Primenjenu Fiziku | PROTECTIVE SHIRT FOR PASMAKER CARRIER |
| CN1083133A (en) * | 1992-08-25 | 1994-03-02 | 王成信 | The fabric of antistatic and electromagnetic radiation shielding |
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1999
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Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN1718889B (en) * | 2004-07-09 | 2010-06-09 | 上海利昂高科技有限公司 | Shielded electromagnetic wave fabric and its manufacturing method |
| CN102220695A (en) * | 2011-04-26 | 2011-10-19 | 南通金仕达超微阻燃材料有限公司 | Method for manufacturing flame retardant and antistatic self-cleaning fabric preventing wide frequency electromagnetism |
| CN102220695B (en) * | 2011-04-26 | 2012-10-31 | 南通金仕达超微阻燃材料有限公司 | Method for manufacturing flame retardant and antistatic self-cleaning fabric preventing wide frequency electromagnetism |
| CN104389097A (en) * | 2014-11-13 | 2015-03-04 | 关捷 | Soft radiation-proof fabric and processing technology thereof |
| CN104928825A (en) * | 2015-05-26 | 2015-09-23 | 江苏高科物流科技股份有限公司 | Anti-radiation fabric, anti-radiation and acid-proof fabric and production method |
| CN109156935A (en) * | 2018-08-09 | 2019-01-08 | 道晟拉链科技(太仓)有限公司 | A kind of heat-resistant fireproof zipper |
| CN112144296A (en) * | 2020-09-29 | 2020-12-29 | 浙江彩蝶实业股份有限公司 | Anti-wrinkle flame-retardant waterproof multifunctional fabric process |
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|---|---|
| CN1078274C (en) | 2002-01-23 |
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