Particulate water absorbent and method for producing same
A water-absorbing agent and granular technology, which is applied in the field of granular water-absorbing agent with polyacrylic acid-based water-absorbing resin as the main component and its manufacturing field, can solve problems such as difficult performance and insufficient performance, and achieve no odor, urine resistance, excellent Effect of coloration prevention performance over time
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Embodiment 1-1
[0522] Using the method described in US Patent No. 7,265,190 image 3 In the shown device, a hydrogel-like cross-linked polymer was produced according to the following method.
[0523] First, an aqueous monomer solution (1-1) was prepared comprising: 35.2 parts by weight of acrylic acid adjusted to 70 ppm of p-methoxyphenol content, 11.7 parts by weight of a 48% by weight aqueous sodium hydroxide solution, polyethylene glycol diacrylic acid 0.23 parts by weight of an ester (average number of ethylene oxide units: n=9), 0.22 parts by weight of an aqueous solution of 1% by weight of trisodium diethylenetriaminepentaacetate (abbreviation: DTPA·3Na) as a chelating agent, and 33.6 parts by weight of deionized water parts by weight.
[0524] Next, the monomer aqueous solution (1-1) adjusted to 40° C. was continuously supplied to the polymerization step using a metering pump. 17.7 parts by weight of a 48% by weight sodium hydroxide aqueous solution (0.7 ppm of iron content (with re...
Embodiment 1-2
[0530] Except that the addition amount of the 30% by weight sodium bisulfite aqueous solution described in Example 1-1 was changed from 1.66 parts by weight to 3.33 parts by weight, the granular water-absorbing agent (1-1) was obtained in the same manner as Example 1-1. 2). Table 1 describes the physical properties of the obtained particulate water-absorbing agent (1-2).
Embodiment 1-3
[0532] Except that the addition amount of the 30% by weight sodium bisulfite aqueous solution described in Example 1-1 was changed from 1.66 parts by weight to 0.166 parts by weight, a water-absorbing agent was obtained in the same manner as in Example 1-1. To 100 parts by weight, 0.6 parts by weight of a 50% by weight sodium lactate aqueous solution was further added and mixed to obtain a particulate water-absorbing agent precursor (1-3). Next, the obtained particulate water-absorbing agent precursor (1-3) was placed in a hot air dryer at 60°C for 30 minutes, and then passed through a JIS standard sieve with a mesh size of 710 μm to obtain a granular water-absorbing agent precursor (1-3). agent (1-3). The water content of the obtained particulate water-absorbing agent (1-3) was 2.0% by weight. The physical properties of the obtained particulate water-absorbing agent (1-3) are described in Table 1-1.
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