• 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:
    Polyacrylamide in the form of aquagel is partially hydrolyzed in such a manner that small pieces of the aquagel are mixed with an alkali agent in a specified quantity and maintained at a temperature of 50 DEG to 95 DEG C. until the hydrolysis reaches substantial completion. The quantity of the alkali agent is that corresponding to 1/1.1 to 1/3 of the hydrolysis percentage desired of the final partially hydrolyzed polyacrylamide. The partially hydrolyzed polyacrylamide thus produced is characterized by uniform hydrolysis evidenced by its improved solubility in water and a pH around 7 of its aqueous solution. The term "aquagel" is herein used interchangeably with a term "hydrogel".
    公开号:SU1271373A3
    申请号:SU843725954
    申请日:1984-04-03
    公开日:1986-11-15
    发明作者:Ханда Риодзи;Хосода Дзун;Есида Норимаса
    申请人:Нитто Кагаку Когио Кабусики Кайся (Фирма);Мичубиси Рэйон Ко, Лтд (Фирма);Фиафлок Ко, Лтд (Фирма);
    IPC主号:
    专利说明:

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    The invention relates to high-molecular compounds and concerns the preparation of acrylamide copolymers that are used as flocculants in various areas, for example, in papermaking, secondary oil recovery, etc. The aim of the invention is to improve the homogeneity of the structure and the solubility of the target product, excluding from it are ammonia impurities. The invention is illustrated by the following examples. Example 1. After complete purging with nitrogen of an aqueous solution,. containing 25 wt.% acrylamide, in a known manner, polymerization is carried out at 10 ° C in the presence of a redox initiator to obtain a rubber-like gel. 20 kg of the obtained gel is ground with the help of an extruder made according to the type of m cutting, having a perforated plate with an aperture diameter of about mm and inside of which it has a knife. The temperature of the obtained pieces on average 78 ° C. The pieces are placed in a 250 L drum granulator and 1020 g of a 30% aqueous solution of oral soda (per 10 mol.% Acrylamide units in the gel) heated to 50 ° C are sprayed in a rotating drum. Then the small pieces are transferred to a vessel heated by hot water, and the temperature is measured there, which is on average equal to. This temperature is also maintained for 12 hours with the krishchka closed. A part of the processed small pieces are taken as a sample, and the rest is dried for 20 minutes in a rotary air dryer per 100 liters at 120 ° C, and then for 5 hours at 60 ° C. The resulting polymer pellets are crushed and the solubility, microgel and hydrolysis uniformity are measured. A portion of the 1% solution is taken to measure the percentage of hydrolysis. The percentage of hydrolysis of 20.5 mol.%; solubility of 0%; microgel +; uniformity of hydrolysis - weak white turbidity; The pH of a 1% solution is 7.1. In this case, the percentage of hydrolysis of small pieces taken before drying is 20.3%. An increase in the percentage of hydrolysis during drying is 0.98%. Example (comparative 1}. An aqueous solution of caustic soda is sprayed according to example I and the resulting mass is held in the same way as 30 minutes. Part of the mass is taken as a sample and the rest is dried as in example 1. The polymer obtained is examined as in example 1, Percent hydrolysis of 9.8 mol.%; solubility of -0.2%; microgel ++; uniform hydrolysis - weak white turbidity (with transparency); pH 10. The percentage of hydrolysis before drying is 7.5 mol.%, an increase in the percentage of hydrolysis in the percentage of drying 31%. Example (comparative 2). Amount of added caustic soda increased to 2040 g (20 mol.% acrylamide units in the gel). The polymer was studied in the same way. The percentage of hydrolysis was 20.1 mol.%; solubility was 0.2; microgel +++; uniformity of hydrolysis - white turbidity (without transparency) ; pH 10.5. The percentage of hydrolysis before drying is 16 mol.%, as a result of drying, the percentage of hydrolysis increases by 26%. As can be seen from Example 1 and Comparative Examples I and 2, the proposed method produces a product whose solubility and uniformity of hydrolysis is better than products obtained by the proposed odes. The proposed product in the form of a 1% aqueous solution does not contain unreacted alkali, ammonia has a low pH value, Examples 2-6 and comparative examples 3-5. 200 g of the pieces, the gel obtained in the example, are weighed into plastic bags, after which the pieces are hydrolyzed using different amounts of alkali and time. nor soak, resulting in hydrolyzed polymer powders. The resulting polymers were investigated according to example 1. The results are shown in the table. Examples 7-9 are as follows, as in Examples 2-6, but with different parameters. The data are tabulated. Solubility. The tests were carried out at a water temperature of 23 ± lt. 3 Solubility was determined as follows. 0.5 g of powdered polymer is weighed into a glass beaker containing 500 ml of tap water, and stirred for 4 hours. The mixture is transferred to a 100 mesh screen and left to stand for 5 minutes. The residue on the sieve is collected and dried, the amount of the residue is prepared in percent. Microgel In this method, micro gel particles can form, which can pass through a 100 mesh screen. They are evaluated by testing a glass plate (25 mm X 75 mm X 1 mm), which is dipped and then removed from the polymer solution and on which the number of swollen microgel particles is counted. Received for evaluation is encrypted as follows: +++ - very much; ++ a lot; + - a little; i - almost absent. 6 h 26
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    75
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    7.3 7.3 7.3
    Light white turbidity (with transparency) 734 Irregular hydrolysis. 5 g of powdered polymer is transferred to a beaker containing 500 ml of deionized water. After stirring for 4 hours, 2N is added to the beaker. pH 2.2 solution. Stir again for 60 minutes and observe the formation of white turbidity. The degree of white turbidity largely depends on the temperature and the percentage of hydrolysis, therefore, comparison with control samples is carried out. In case the hydrolysis reaches an average of 35 mol% or more or the irregularity of the hydrolysis becomes large, the formation of a polymer precipitate is sometimes possible. In such cases, a comparison is desirable, for example, at a higher temperature. The determination of the pH of the said 1% solution indicates the presence of unreacted alkali or NH, formed during the melting. Without turbidity Light white turbidity (with transparency)
    Table continuation
    权利要求:
    Claims (1)
    [1]
    METHOD FOR PRODUCING PARTially HYDROLYSED POLYACRYLAMIDE by treating crushed polyacrylamide gel with an aqueous solution of an alkaline agent when heated, followed by drying of the target product, characterized in that, in order to increase the uniformity of the structure and solubility of the target product, to eliminate ammonia impurity from it, the treatment is carried out at a temperature of 55-90 ° C to the degree of hydrolysis, 1.3-3.0 times higher than theoretically calculated on the amount of alkaline agent.
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    同族专利:
    公开号 | 公开日
    US4535131A|1985-08-13|
    GB8408243D0|1984-05-10|
    JPS6315283B2|1988-04-04|
    JPS59184203A|1984-10-19|
    GB2139632B|1986-07-23|
    GB2139632A|1984-11-14|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    RO57653A2|1971-03-23|1975-01-15|
    JPS5432176B2|1973-05-02|1979-10-12|
    JPS5427874B2|1973-09-29|1979-09-12|
    JPS5415793B2|1976-07-05|1979-06-18|
    US4192727A|1976-08-24|1980-03-11|Union Carbide Corporation|Polyelectrolyte hydrogels and methods of their preparation|
    JPS6314001B2|1979-11-30|1988-03-29|Nitsuto Kagaku Kogyo Kk|
    JPS6129964B2|1981-04-28|1986-07-10|Mitsubishi Chem Ind|US4913943A|1985-11-12|1990-04-03|Minnesota Mining And Manufacturing Company|Dampener roll cover and methods of preparation and use thereof|
    EP0336986B1|1988-04-09|1992-10-07|Hewlett-Packard GmbH|Polyacrylamide gels|
    TW241279B|1991-02-01|1995-02-21|Catalyst co ltd|
    US5286806C1|1993-05-14|2001-01-30|Cytec Tech Corp|Methods of making and using high molecular weight acrylamide polymers|
    MY130475A|2000-08-25|2007-06-29|Contura As|Polyacrylamide hydrogel and its use as an endoprosthesis|
    US7186419B2|2000-08-25|2007-03-06|Contura Sa|Polyacrylamide hydrogel for arthritis|
    US8785573B2|2012-09-12|2014-07-22|Ecolab Usa Inc|Process for preparing water soluble polymers with no insoluble gels and low levels of residual monomers|
    CN112111121B|2019-06-20|2021-09-10|宁波锋成先进能源材料研究院|Thickening agent and preparation method thereof|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    JP58059055A|JPS6315283B2|1983-04-04|1983-04-04|
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