• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Disclosed is a flame retardant polyamide composition having desirable mechanical, electrical and processing properties, and therefore, being useful for producing parts of electric and electronic devices and appliances. The composition comprises a polyamide resin matrix and 1 to 40%, based on the weight of the polyamide matrix, of a flame-retarding agent in the form of fine particles dispersed in the matrix. The composition is characterized in that the flame-retarding agent consists of at least one member selected from: (A) crystals of addition salts of cyanuric acid or isocyanuric acid with melamine, and; (B) mixed crystals of addition salts of cyanuric acid or isocyanuric acid with a mixture of melamine and acetoguanamine in an amount by mole not larger than that of the melamine.
    公开号:SU727151A3
    申请号:SU782587399
    申请日:1978-03-03
    公开日:1980-04-05
    发明作者:Иида Хироси
    申请人:Торэй Индастриз,Инк (Фирма);
    IPC主号:
    专利说明:

    (54) FIRE-RESISTANT POLYMER COMPOSITION
    t
    The invention relates to flame retardant polyamide compositions, it can be used for the manufacture of parts and devices used in the electrical and electronic industries.
    A flame retardant polymer composition containing polyamide resin and flame retardant additive 1 is known.
    Known flame retardant polymer KOCHPOSITION has a relatively high flammability and the ability to fade from the inside to the outer part of the product, forming on the surface of the product whitish plaque.
    The purpose of the invention is to reduce the flammability and improve the quality of the outer surface of the product.
    This goal is achieved in that the flame retardant polymer composition 1 as a flame retardant additive contains compounds selected from the group: salt of cyanuric or isocyanuric acid and melamine, or salt of cyanuric or isocyanuric acid and a mixture of melamine and acetoguanamine at a molar ratio of melamine and acetoguanamine 10-19 , 9:: 0.1-10, respectively, in the following ratio of components, parts by weight
    Polyamide resin100
    Fire retardant additive 3-30.
    The flame retardant polymer composition contains a polyamide resin selected from the group of a polyamide resin based on -a 1 -inocaproic acid, or polyhexamethylene adipinamide, or a copolymer of polyamide resin based on -amino-caproic acid and polyhexamethylene adipinamide.
    The flame retardant polymer composition may additionally contain blocked phenol compounds selected from the group: octalecyl-3- (3, 5-di-tert-butyl-4-hydroxyphenyl) propionate, or 1,6-hexanediol-bis-3- (3, 5-di-tert-butyl-4-hydroxyphenol) propionate, or N, K-hexamethylene-bis- (J, 5-di-tert-butyl-4-oxyhydrocinnamate.
    In the composition according to the invention, the flame retardant additive should be evenly dispersed to the smallest particles in the mass of the polyaccess binder material. Preferably, the size of the original smallest particles of this additive is in the range of 0.1 to 20 microns, and the prepared polyamide composition contains no more than L-10 secondary particles of an additive larger than 50 microns for every milligram of polyamide composition. . To ensure uniform dispersion of the flame retardant additive in the polyamide resin while at the same time preventing the formation of large-sized secondary particles, its finely divided particles of the additive are mixed with finely divided particles of the polyamide resin with a size of 100-200 microns. The mixture obtained is mixed in a mixer, a single-axis screw-type machine or in a two-axis extruder P1;) And the melting temperature is higher than the melting point of the polymeric resin. In another case, a mixture of polyamide resin with fine particles of the additive is fed to a single or double axial screw machine with the expectation that its feed rate does not exceed the required speed to fill the internal cavity of the screw machine; melting and mixing are carried out directly in the worm machine . Fine particles of flame retardant additives can be uniformly dispersed in the continuous phase of the polyamide binder c. using an auxiliary dispersing agent, which has an effective action to prevent aggregates of primary particles of a fire-resistant additive. The polyamide composition of the invention may contain, in addition to the flame retardant additive And dispersing agent, other additives that do not adversely affect the uniformity of the dispersion of flame retardant additive. These may include coloring substances such as titanium dioxide and carbon black soot; fillers, for example, a lovier fiber stack; plasticizer; antioxidant; substances that absorb ultraviolet radiation; lubricants, such as salts of stearic acid, formed by metals; antistatic agents, and agents that serve as heat stabilizers. Thermal stabilizers can be selected from among compounds containing copper that are effective for thermally stabilizing conventional polyamide resins, for example, iodide, sulfate, acetate, and copper stearate. These copper compounds can be used with an alkali or alkaline earth metal. The polyamide composition according to the invention is molded in molds or is shaped at a temperature not exceeding 260-300 ° C. The invention is illustrated by the examples below. In these examples, the ability of polyamide compositions to hold ipac flame is evaluated in accordance with the regulatory document. Verification testing of classified materials for combustion in the vertical position, defined as topic 94, published by the insurance foreign firm Andereybe Leibortriz Inc, United States, in 1974. The mechanical properties of the polyamide compositions are determined by the methods of the American Society for Testing Materials (ASTM) specified in the examples. Examples 1-7, Example 1 1290 g (10 mol) of isocyanuric acid are dissolved in 60 liters of hot water at a temperature of 90 ° C. 1260 g (10 mol) of melamine in the form of a fine powder was added to the solution, and the resulting suspension was stirred for 60 minutes at the above temperature. The suspension is filtered, and after pressing on the filter, a dense white mass is formed. This mass is dried at 70 ° C under vacuum and ground to a powder. A flame retardant additive consisting of very fine particles of simple salt crystals is obtained, which is a product of the combination of melamine with cyanuric acid, having particles with a size of 1-5 microns. 100 weight.h. nylon 6 as a powdered resin, having a relative viscosity of 2.7, determined in solution 1 g of resin in. 100 ml of concentrated sulfuric acid at a temperature of 25 ° C are mixed with 1 hour of the flame retardant prepared as indicated above until a homogeneous mixture is obtained. The mixture is fed to a twin-screw extruder having an internal diameter of 50 mm, melted and stirred at a temperature. The melted mass is extruded in the form of a bundle of single filaments, which are cured in a bath of cooling water, then cut into pellets. The obtained granules are melted at a temperature of 250 ° C and a number of samples are prepared in the form of plates 12.7 cm long, 1.27 cm wide and only 0.159 cm wide. 5 samples prepared as described above are subjected to a burning test in a vertical position according to normative document VL-94, according to which the sample is held in a vertical position with a clamp securing the upper part of the sample, then its lower end is brought into contact with a flame 2 cm high and withstand the flame in contact with the sample for 10 time units ( records). The ignition operation is repeated twice for each sample. The degree of flammability of the sample is noted by the duration of the combustion of the sample in seconds after removal from the sample of the flame used for the test.
    Other samples are subjected to heat aging in the absence of moisture, for which the samples are heated at 80 ° C for 72 hours. At the end of the aging, each sample is inspected to establish the movement of the flame retardant additive from the inside to the surface of each sample, the presence of whitish blobs is also noted surface specimens.
    Additional samples are subjected to an aging test under conditions of high humidity, according to which the samples are kept at
    Content of flame retardant additive, parts by weight one
    Ignitability, with
    The formation of white bloom on the surface of the sample after aging:
    in the absence of
    moisture
    at high
    humidity
    780 780
    5.5 5.2 5.1 4.8 4.5 4.1 3.1
    Examples 8-11. Each of the primers 8-11 is carried out in the same manner as Example 1, with the difference that a copolymer (nylon 66/6) prepared as follows is used,
    A mixture of 20% by weight of caprolactam and 80% by weight of hexamethylene adipamide salt, which has a relative viscosity of 2.7, is polymerized, replaced by nylon 6. The mixture of copolymer and flame retardant in the amount indicated in Table 2 is melted at the temperature of one screw ( uniaxial extruder having an internal diameter of 65 mm.
    The results of the experiments are given in table. 2
     and a relative humidity of 90% within 72 hours. At the end of the aging period, 5 samples are inspected to determine whether aging causes moisture conditions; the movement of the flame retardant additive and: 1 of the inner part of the sample to the outer.
    Other, additional samples are tested for strength at break according to the method of the American Society for Testing Materials
    0 ASTMD - 638 - 56T and on impact strength by the method of ASTMD - 256 - 56
    The test results resulted in the gab.1.
    Spreadsheets
    10 20 30 40
    0000
    No no no no
    Not
    780 720 700 650
    790
    table 2
    50
    55
    Flame retardant content,
    510 weight, h.
    Ignited 1510 capacity, with
    65
    Continued tabl, 2
    Not
    No No No .I | II b
    Content of flame retardant additive, parts by weight
    Ignitability, with
    The formation of white bloom on the surface of the sample after aging:
    in the absence of
    moisture
    at high
    humidity
    Mechanical Shcherost razrpe, kg / cm
    Impact viscosity, kg / cm
    Examples 16-23. Each of Examples 16-21 is carried out analogously to Example 1 with the difference that the flame retardant additive is prepared from cyanuric acid and a mixture of melamine with acetoguanamine in the amounts shown in Table 4. The resulting flame retardant additive is mixed with 100 weight.h. Nylon 6 in the form of a resin having a relative viscosity of 2.9. The aging test in the absence of moisture was carried out at a temperature of Examples 12-15. Each of Examples 12-15 is carried out in the same manner as Example 1 is described, but instead of Nylon 6, Nylon 66, having a relative viscosity of 2.9, is flame retardant. additive is mixed with nylon 66 in the amount indicated in the table. 3, at a temperature of 270 ° C, by means of a double-screw extruder having an internal diameter of 50 mm. The extruder is equipped with a device for suction under reduced pressure of bubbles formed in the molten mass inside the extruder. Test specimens are obtained by removing the bubbles formed in the samples using vacuum.
    The results of the experiments are given in Table 20. 3
    Table 3
    ten
    No no no no
    783785790795
    6.35.95.75.2
    The test is 170 hours, the aging test at high humidity is carried out at a temperature of 50 ° C and a relative humidity of 90% for 170 hours.
    Example 22 was carried out analogously to example 19, however, nylon 6 resin having a relative viscosity of 2.3 was taken, example 23 was carried out according to example 16, but the same resin (nylon 6) was taken as in example 22.
    The results of the experiments are given in t a bl. four .
    Relative to s2, 9 2.9 2.9 2.9 2.9 bone polyamide
    The composition (mol) of flame retardant additives:
    melamine
    acetoguanamine cyanuric acid
    The amount of flame retardant additives, weight.4.
    Ignitability
    Formation of whitish plaque on the surface of the sample after the ripening:
    in the absence of
    moisture
    at high humidity
    772 766 772 772 774 4.8 4.9 4.9 4.7 4.8
    Examples 24-32. In each of examples 24-28 100 weight.h. Nylon 6 resins in the form of small particles ranging in size from 100 to 150 µm are mixed with the salt — a product of a compound of melamine with cyanuric acid prepared according to the method indicated in Example 1 by means of a Henschel type mixer. The amount of the kneaded salt of the said compound product is given in Table 5. 90% by weight of the particles of the product of a compound of melamine with cyanuric acid have a size of 1-5 microns. The mixture is fed to a single-screw extruder having an internal diameter of 30 mm, in which melting and mixing took place. The melt is extruded and molded into pellets. From the granules of the polyamide composition prepared as above, samples are prepared for testing of the same size as indicated in Example 1. The samples are subjected to the same flammability test, tensile strength and impact strength as in Example 1. In addition The dispersion uniformity of the flame retardant additive is determined as follows.
    Table 4
    2.9 2.3 2.3
    9,5 90 80 70
    50 50 100
    80 20 100
    100 0.5 10 20 30 100 100 100 100 100
    1010 10 10
    10 o
    10 o
    ten
    115 00
    ABOUT
    Not
    Not
    Not
    Very no no weak
    Very weak
    774 769 768
    4.7 4.3 4.3
    5 small pieces weighing from 3 to 5 mg are cut out from the samples. Each piece is placed between two glass slides for research under a microscope, melted at a temperature of 250 ° C and pressed in such a way as to obtain a film with a thickness of 30 to 50 microns. Then, 20 individual sections of each strip are observed using an image analyzer to determine the number of secondary particles of the flame retardant additive of 50 µm or more per 1 mg of the test piece.
    Example 29 is carried out in the same manner as Example 24, with the only difference that 90% by weight of the particles of the flame retardant additive have sizes from 1 to 10 µm, the additive being used in an amount of 10% by weight.
    Example 30 is carried out in the same manner as Example 29, except that 90% by weight of the particles of the flame retardant additive are sized from 1 to 20 µm.
    Examples 31 and 32 are carried out analogously to example 24; however, a flame-retardant additive of mixed crystals of salts of the products of 0.5 mol.h. cyanuric acid with a mixture of 0.4 mol. including chalk amine and 0.1 mol. h, acetoguanamine. Flame retardant additive
    Composition and property
    24 25 26 27 28 29 30 3132 Flame retardant additive: 3510 20 quantity, weight.h. particle size, μm 1-5 1-5 1-5 1-5 number of secondary particles with a size of 50 μm and more than 1124 per 1 mg of composition Strength at break, kg / cm 780 790 810 740 Elongation at rupture 20 20 15 11 ve,% Impact viscosity, kg / cm. 4.9 4.8 4.5 4.2 155OO Flammability, s Note.
    Examples 33-36. Example 33 is carried out analogously to example 24 with the difference that 100 weight parts. Nylon 6 resins having a relative viscosity of 2.45 are mixed with 10 parts by weight. flame retardant additive, which is the smallest salt particles - the product of the combination of melamine with cyanuric acid - 5-20 µm in size. This mixture is processed into granules of the polyamide composition
    Composition and property
    Dispersant
    The number of secondary particles of 50 microns or more Hai 1 mg of the composition
    Bos flame of capacity with
    administered in amounts listed in Table 5.
    The results of the experiments are given in table. 5.
    table 5
    Sample number
    using a single-screw extruder with an inner diameter of 30 mm,
    Each of examples 34-36 is carried out in the same way as example 33, with the only difference being 0.5 weight, h. dispersing agents of the type shown in Table 6 S are mixed with a blend of nylon 6 resin and a flame retardant additive.
    The results of the experiments are given in that, bl.6.
    Table 6
    Sample number
    36
    34
    权利要求:
    Claims (3)
    [1]
    35 In Examples 24-30, simple crystals of the soly product of the compound are meagle with cyanuric acid. In examples 31-32, mixed salt crystals are products of the mixture of melamine with acetoguanamine and cyanuric acid. 30 10 10 1020 1-5 1-10 1-20 1-51-5 917.25 720 800 790 B O770 17 10 15 3.9 4.5 3.9 4.4 4.1 2O71O Impact strength, kg.cm / cm 3, Note. A Claim 1. Flame retardant polymer composition containing polyamide resin and flame retardant additive, characterized in that, in order to reduce flammability and improve the quality of the outer surface of the product, it contains flame retardant additives selected from the group: salt cyanuric or isocyanuric acid.and melamine, or a salt of cyanuric or isocyanuric acid, and a mixture of melamine and acetoguanamine with a molar ratio of melamine and acetoguanamine 10-19.9:: O, 1-10, respectively, with the following ratio Components in parts by weight smola100 .: A polyamide fire-resistant dobavka3-30
    [2]
    2 .. The composition according to claim 1, which contains the polyamide resin selected from the group: α-aminocaproic acid-based polyamide resin, or polyhexamethylene adipinamide, or α-aminocaproic acid-based polyamide resin and polyhexam-3t1 lenadipinamide.
    The continuation of the table. 6 —t Pr B - (-o (AND B - - (3 gi decyl-3- (3, 5.-dityl-4-hydroxyphenyl) t (IRGANOX 1076). Hexanediol-bis-3-ter -butyl-4ol) Propionate C 259) hexamethylene bis - tert-butyl 4-hydroxinamate) (IRGANOX 1098).
    [3]
    3. The composition according to claim 1, that it may additionally contain blocked phenol compounds selected from the group: octadecyl-3- (3,5-di-tert-butyl-4 oxyphenyl) propionate, or 1 , 6-hexanediol-bis-3- (3, 5-di-tertg-butyl-4-hydroxyphenol) propionate, or N, N-hexamethylene-bis- (3,5-di-tert-butyl-4-oxyhydrocinnamate) . A priority; on the signs: 03.03.77 - the flame retardant polymer composition contains a flame retardant additive, which is a salt of cyanuric or isodionic acid and melagna. 08.08.77 - A flame retardant polymer composition contains a flame retardant additive, which is a salt of cyanuric or isocyanuric acid and a mixture of melamine and acetoguanamine. 12.29.77 - flame retardant polymer composition contains 100 parts by weight. polyamide and 3-30 weight.h. flame retardant additives. Sources of information taken into account during the examination 1. US patent 4001177, cl. 260-45.8Т, published 04/01/77.
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    同族专利:
    公开号 | 公开日
    US4383064A|1983-05-10|
    IT1094167B|1985-07-26|
    IT7820842D0|1978-03-03|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE4312441A1|1993-03-15|1994-10-20|Chemie Linz Deutschland|Flameproof polyamidescontaining dicyandiamide and melamine|
    RU2471832C2|2006-11-10|2013-01-10|Родиа Операсьон|Fire-resistant polyamide composition|US2929816A|1960-03-22|Cinci |
    US3493633A|1968-08-13|1970-02-03|Du Pont|Production of dyed polyamide filaments containing a phenolic antioxidant|
    US3594448A|1969-04-16|1971-07-20|Allied Chem|Filament comprising a polymer blend of polyester and polyamide containing a sterically hindered phenolic compound|
    US3793289A|1971-10-13|1974-02-19|Allied Chem|Flame retardant nylon compositions|
    US3859380A|1972-07-19|1975-01-07|Allied Chem|Antistatic polyamide fiber|
    NL7414325A|1973-11-12|1975-05-14|Mitsubishi Chem Ind|PROCESS FOR PREPARING AN AGENT FOR MAKING POLYAMIDE RESINS FLAME RESISTANT, PROCESS FOR PREPARING FLAME RESISTANT POLYAMIDE RESIN AND ARTICLES MADE FROM THIS.|
    JPS5625955B2|1973-12-27|1981-06-16|
    JPS5329181B2|1974-11-07|1978-08-18|
    US4051196A|1975-05-27|1977-09-27|Allied Chemical Corporation|Antistatic fiber containing chain-extended tetrols based on diamines|
    US4298518A|1976-09-06|1981-11-03|Mitsubishi Chemical Industries, Ltd.|Polyamide resin composition|US4452931A|1982-03-30|1984-06-05|Ube Industries, Ltd.|Flame-retardant polyamide resin composition|
    AU619005B2|1988-04-28|1992-01-16|Nippondenso Co. Ltd.|Fiber-reinforced polymer composition|
    US6620348B1|2002-04-23|2003-09-16|Astaris, Llc|Fire retardant compositions containing metal ferrites for reduced corrosivity|
    CN111423579A|2020-03-27|2020-07-17|河南城建学院|Flame-retardant nylon resin and preparation method thereof|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    JP2309077|1977-03-03|
    JP9413277A|JPS5521066B2|1977-08-08|1977-08-08|
    JP15910477A|JPS5491558A|1977-12-29|1977-12-29|Flame retardant polyamide resin composition|
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