Trends in the Development of Superabsorbent Polymers for Diapers

Research Division, Sanyo Chemical Industries Limited, Kyoto 605, Japan. Superabsorbent Polymers. Chapter 7, pp 88–98. DOI: 10.1021/bk-1994-0573.ch00...
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Chapter 7

Trends in the Development of Superabsorbent Polymers for Diapers Fusayoshi Masuda

Downloaded by UNIV OF ARIZONA on December 5, 2012 | http://pubs.acs.org Publication Date: October 19, 1994 | doi: 10.1021/bk-1994-0573.ch007

Research Division, Sanyo Chemical Industries Limited, Kyoto 605, Japan

Superabsorbent p o l y m e r s have become an i m p o r t a n t component of diapers during the last 10 years. World-wide demand for these polymers is currently about 320,000 metric tons annually. In this paper, we report the results of a study relating diaper performance to the properties of the superabsorbent polymer. W e found that absorbency under load and gel stability are important polymer properties to relate to diaper leakage and surface dryness. However, these properties appear to approach an upper limit related to the current chemical structure of cross-linked polyacrylates. O u r data suggests a limit for absorbency under load of 35-40 m L / g .

Commercial production of superabsorbent polymer began i n Japan i n 1978, for use i n feminine napkins. Although the super absorbents used today are based on poly(acrylic acid), this early superabsorbent was a crosslinked starch-g-polyacrylate (2), an improved version of the uncrosslinked starch graft polymer developed i n the 1970's by M . O. Weaver and her associates at the N o r t h e r n Regional Research Laboratory of the U n i t e d States D e p a r t m e n t of A g r i c u l t u r e (2). After further development (3), superabsorbent polymer was used i n baby diapers i n Germany and France i n 1980. These first diapers used only a small quantity of superabsorbent polymer, about 1-2 g per diaper, and the polymer was considered only a supplement to fluff pulp which furnished most of the absorbency. In 1983, a thinner diaper using 4-5 g polymer and less fluff was marketed i n Japan. This was followed shortly by the introduction of thinner superabsorbent diapers i n other A s i a n countries, the United States and Europe. M o r e recently, diapers have become even thinner, relying on greater amounts of superabsorbent polymer. Specialty markets for superabsorbents have also developed i n agriculture, sealants, air-fresheners and toys.

0097-6156/94/0573-0088$08.00/0 © 1994 American Chemical Society

In Superabsorbent Polymers; Buchholz, F., et al.; ACS Symposium Series; American Chemical Society: Washington, DC, 1994.

7. MASUDA

Superabsorbent Polymers for Diapers

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Demand for Superabsorbent Polymers Since the introduction of superabsorbent diapers i n Japan i n 1983, demand for superabsorbent polymer has increased rapidly, Figure 1. The demand for superabsorbent polymer i n Japan i n 1992 was about 32,000 metric tons. The polymer was used mostly i n baby diapers, feminine napkins and adult diapers. Baby diapers account for the bulk of the demand. Demand for superabsorbents i n feminine napkins is fairly stable at about 1,000 metric tons due to a mature market i n Japan. The demand for superabsorbent i n adult diapers has been gradually increasing i n Japan. Currently, about onethird of the market for adult diapers uses superabsorbent polymer. World-wide, the demand for superabsorbent polymer has increased dramatically since 1986, and currently amounts to about 280,000 metric tons per year (Figure 2). The largest consumption is i n the the United States (130,000 metric tons per year), followed by Europe at 100,000 metric tons and A s i a and Oceania at 20,000 metric tons. Based on the trend, we expect demand for superabsorbent polymers to reach 350-400,000 metric tons per year within a few years. Application Methods in Baby Diapers Superabsorbent polymer is added to baby diapers i n basically two ways: layered or blended. The layered application is commonly adopted by Japanese diaper manufacturers. In this method, powdered superabsorbent polymer first is scattered onto a layer of fluff pulp. The fluff is then folded, so that the polymer is located i n a centralized layer i n the absorbent structure. This structure is covered with a non-woven fabric layer. In the b l e n d e d a p p l i c a t i o n , the superabsorbent p o l y m e r first is m i x e d homogeneously with the fluff pulp. Then the mixture is laid d o w n to give the absorbent structure, which is subsequently covered with a non-woven fabric. This method typically is adopted by American diaper makers. In either method, containment of the powdered polymer within the loose, porous structure of the diaper is a concern. A recent development i n Japan is the use of thermally bondable fibers w i t h i n the absorbent structure to help fix the superabsorbent i n place. In this method, some of the fluff pulp is replaced w i t h thermally bondable fibers. The resulting absorbent core is heat-cured to give additional structural stability. The use of superabsorbents has allowed thinner and lighter diapers to be made. The first superabsorbent diapers contained 55-60 g of fluff i n addition to 1-2 g of polymer. Currently, diapers with less leakage use about 7 g of polymer per diaper and only 30-35 g of fluff. Important Properties for Good Diapers The first superabsorbent diapers were characterized by having improved surface dryness after absorbing urine. Reduced incidence of urine leaks has been added as an important performance parameter for current diapers.

In Superabsorbent Polymers; Buchholz, F., et al.; ACS Symposium Series; American Chemical Society: Washington, DC, 1994.

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Downloaded by UNIV OF ARIZONA on December 5, 2012 | http://pubs.acs.org Publication Date: October 19, 1994 | doi: 10.1021/bk-1994-0573.ch007

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Year Figure 2. Demand for superabsorbent polymers worldwide, by geographical area.

In Superabsorbent Polymers; Buchholz, F., et al.; ACS Symposium Series; American Chemical Society: Washington, DC, 1994.

Downloaded by UNIV OF ARIZONA on December 5, 2012 | http://pubs.acs.org Publication Date: October 19, 1994 | doi: 10.1021/bk-1994-0573.ch007

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Both are n o w considered as basic functions for modern diapers. A important problem i n the design of new superabsorbent diapers is relating the physical properties of the superabsorbent polymer to the performance of the diapers containing the polymer. In order to clarify the relationship between diaper needs and polymer properties, a coefficient study was done (4). First, we synthesized 30 samples of superabsorbent polymer having different combinations of properties. T h e n the p o l y m e r s were incorporated into a standard diaper model, using the layered application method described earlier. Diaper dryness was determined by measuring the moisture content of the diaper surface. Leakage data was accumulated i n actual diaper usage tests. The polymers alone were evaluated with 40 different test methods, i n c l u d i n g free-absorbency, absorbing rate, absorbency under load ( A U L ) and gel-strength. Figures 3-6 show the important results of this study of the relationship between diaper performance and polymer properties. The free absorbency of the superabsorbent polymer was determined by measuring the increase i n mass of one gram of polymer contained i n a sealed tea-bag, after immersion i n saline solution for 60 minutes. W e found no relationship between diaper dryness and the free absorbency of the polymer. This is despite the widespread popularity of the free absorbency test and claims that high free absorbency yields a better diaper. The absorbency under load ( A U L ) of the polymer was determined by measuring the volumetric take-up of saline into one gram of polymer that was spread on one square centimeter of filter-glass and compressed under a 20-gram weight. The saline solution was i n contact w i t h the polymer, through the filter-glass, for 60 minutes. Figure 3 shows the relationship of A U L to diaper dryness. W e found a good relationship between higher A U L and improved diaper dryness. Diaper dryness was also improved for polymers having higher reabsorbency of the sheared gel for saline solution. In this test, the polymer is first swollen w i t h ten times its mass of saline solution and then mechanically sheared. The sheared gel is then put into a tea-bag and immersed i n saline solution. The increase i n mass is measured and the reabsorbency is calculated per gram of dry polymer. The relationship is shown i n Figure 4. Another good relationship was found between diaper dryness and the elasticity modulus of the swollen gel. Elasticity modulus was measured on gel swollen with 40 times its mass of saline solution. Diaper leakage was determined from actual use-testing of the model diapers. Of the 40 measures of performance of superabsorbent polymers that we performed, only the stability of the gel to shear could be related to diaper leakage. W e found that polymers that were more stable to shear yielded diapers with less leakage. This correlation is shown i n Figure 6. Gel-stability to shear was determined by measuring the elastic modulus of the polymer gel, swollen to 40 times its mass of saline solution, both

In Superabsorbent Polymers; Buchholz, F., et al.; ACS Symposium Series; American Chemical Society: Washington, DC, 1994.

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Downloaded by UNIV OF ARIZONA on December 5, 2012 | http://pubs.acs.org Publication Date: October 19, 1994 | doi: 10.1021/bk-1994-0573.ch007

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In Superabsorbent Polymers; Buchholz, F., et al.; ACS Symposium Series; American Chemical Society: Washington, DC, 1994.

7. MASUDA

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