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Background
A disposable diaper consists of an absorbent pad sandwiched between two sheets of nonwoven fabric. The pad is specially designed to absorb and retain body fluids, and the nonwoven fabric gives the diaper a comfortable shape and helps prevent leakage. These diapers are made by a multi-step process in which the absorbent pad is first vacuum-formed, then attached to a permeable top sheet and impermeable bottom sheet. The components are sealed together by application of heat or ultrasonic vibrations. Elastic fibers are attached to the sheets to gather the edges of the diaper into the proper shape so it fits snugly around a baby’s legs and crotch. When properly fitted, the disposable diaper will retain body fluids which pass through the permeable top sheet and are absorbed into the pad.
Disposable diapers are a relatively recent invention. In fact, until the early 1970s mothers had no real alternative to classic cloth diapers. Cotton diapers have the advantage of being soft, comfortable, and made of natural materials. Their disadvantages include their relatively poor absorbency and the fact that they have to be laundered. Disposable diapers were developed to overcome these problems. The earliest disposables used wood pulp fluff, cellulose wadding, fluff cellulose, or cotton fibers as absorbent material. These materials did not absorb very much moisture for their weight, however. Consequently, diapers made from these materials were extremely bulky. More efficient absorbent polymers were developed to address this issue.
Since the 1970s, disposable diaper technology has continued to evolve. In fact, nearly 1,000 patents related to diaper design and construction have been issued in the last 25 years. Today’s diapers are not only highly functional, they include advanced features such as special sizing and coloring for specific gender and age, color change indicators to show when the child is wet, and re-attachable VelcroTM-type closures. These innovations have enabled disposables to capture a large share of the diaper market. In 1996, disposable diaper sales exceeded $4 billion in the United States alone. Proctor and Gamble and Kimberly Clark are the two largest brand name manufacturers, and their sales account for nearly 80% of the market. Private label manufacturers that produce store brands and generic diapers account for most of the remaining 20.
The single most important property of a diaper, cloth or disposable, is its ability to absorb and retain moisture. Cotton material used in cloth diapers is reasonably absorbent, but synthetic polymers far exceed the capacity of natural fibers. Today’s state-of-the-art disposable diaper will absorb 15 times its weight in water. This phenomenal absorption capacity is due to the absorbent pad found in the core of the diaper. This pad is composed of two essential elements, a hydrophilic, or water-loving, polymer and a fibrous material such as wood pulp. The polymer is made of fine particles of an acrylic acid derivative, such as sodium acrylate, potassium acrylate, or alkyl acrylate. These polymeric particles act as tiny sponges that retain many times their weight in water. Microscopically these polymer molecules resemble long chains or ropes. Portions of these chemical “ropes” are designed to interact with water molecules. Other parts of the polymer have the ability to chemically link with different polymer molecules in a process known as cross-linking. When a large number of these polymeric chains are cross-linked, they form a gel network that is not water-soluble but that can absorb vast amounts of water. Polymers with this ability are referred to as hydrogels, superabsorbents, or hydrocolloids. Depending on the degree of cross-linking, the strength of the gel network can be varied. This is an important property because gel strength is related to the tendency of the polymer to deform or flow under stress. If the strength is too high the polymer will not retain enough water. If it too low the polymer will deform too easily, and the outermost particles in the pad will absorb water too quickly, forming a gel that blocks water from reaching the inner pad particles. This problem, known as gel blocking, can be overcome by dispersing wood pulp fibers throughout the polymer matrix. These wood fibers act as thousands of tiny straws which suck up water faster and disperse it through the matrix more efficiently to avoid gel blocking. Manufacturers have optimized the combinations of polymer and fibrous material to yield the most efficient absorbency possible.
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Composition of materials used in making diapers
Typical BOM for Baby Diaper Production
Material Composition for Mini Size | UoM | Usage/Pc/kg |
Phobic Non-Woven for legcuff SMMS (single layer, 1.5cms for folding part) | Kg | 0.00166551 |
Spandex for cuff(4pcs) | Kg | 0.00004230 |
Spunbond Non-Woven | Kg | 0.00086250 |
ADL | Kg | 0.00051371 |
Fluff Pulp untreated | Kg | 0.00700400 |
SAP | Kg | 0.00721000 |
Bottom wrapping tissue | Kg | 0.00124527 |
Spandex for leg(6pcs) | Kg | 0.00007614 |
breathable Pe film (2 colors) | Kg | 0.00113017 |
Backsheet nonwoven SS phobic | Kg | 0.00159810 |
Magic frontal tape | Kg | 0.00040664 |
Nonwoven for elastic waist | Kg | 0.00076169 |
Spandex for elastic waist | Kg | 0.00011470 |
Special nonwoven for S cut | Kg | 0.00036153 |
Hook for S cut | Kg | 0.00017304 |
Elastic glue for S cut | Kg | 0.00006901 |
Construction glue | Kg | 0.00110210 |
Elastic glue | Kg | 0.00023175 |
Side and sealing Glue | Kg | 0.00017407 |
Different Quality |
Quality 01, PE film backsheet+ PP tape+ Leg cuff+ Leak guard |
Quality 02, PE film backsheet+ PP tape+ Leg cuff+ Leak guard+ ADL |
Quality 03, Clothlike film backsheet+ Magic tape+ Leg cuff+ Leak guard |
Quality 04, Clothlike film backsheet+ Magic tape+ Leg cuff+ Leak guard+ Elastic waistband |
Quality 05, Clothlike film backsheet+ Magic tape+ Leg cuff+ Leak guard+ ADL |
Quality 06, Clothlike film backsheet+ Magic tape+ Leg cuff+ Leak guard+ Elastic waistband+ ADL |
Regular Packing |
Family Packing, S 24 pieces/bag, M 24 pieces/bag, L 24 pieces/bag, XL 24 pieces/bag |
Economic Packing, S 58 pieces/bag, M 58 pieces/bag, L 48 pieces/bag, XL 48 pieces/bag or 50 pieces/bag |
Jumbo Packing, 90 pieces/bag, 120 pieces/bag, 150 pieces/bag |
Customized Packing, Based on customer’s request |
The Manufacturing Process
Formation of the absorbent pad
At least two methods have been employed to incorporate absorbent polymers into the pad. In one method the polymer is injected into the same feedstock that supplies the fibers. This method produces a pad that has absorbent polymer-dispersed evenly throughout its entire length, width, and thickness. The problems associated with the method are that loss of absorbent may occur because the fine particles are pulled through the perforations in the conveyor by the vacuum. It is therefore expensive and messy. This method also causes the pad to absorb unevenly since absorbent is lost from only one side and not the other.
A second method of applying polymer and fiber involves the application of the absorbent material onto the top surface of the pad after it has been formed. This method produces a pad that has absorbent material concentrated on its top side and does not have much absorbency throughout the pad. Another disadvantage is that a pad made in this way may lose some of the polymer applied to its surface. Furthermore, this approach tends to cause gel blocking, since all the absorbent is on the outside of the pad. The moisture gets trapped in this outer layer and does not have a chance to diffuse to the center. This blockage holds moisture against the skin and can lead to discomfort for the wearer.
These problems are solved by controlling the mixture polymer and fibrous material. Multiple spray dispensers are used to apply several layers of polymer and fiber. As the fiber is drawn into the chamber and the bottom of the pad is formed, a portion of the polymer is added to the mix to form a layer of combined polymer and fiber. Then more pure fiber is pulled on top to give a sandwich effect. This formation creates a pad with the absorbent polymer confined to its center, surrounded by fibrous material. Gel blockage is not a problem because the polymer is concentrated at core of pad. It also solves the problem of particle loss since all the absorbent is surrounded by fibrous material. Finally, this process is more cost effective because it distributes the polymer just where it is needed.
2. After the pad has received a full dose of fiber and polymer, it proceeds down the conveyor path to a leveling roller near the outlet of the forming chamber. This roller removes a portion of the fiber at the top of the pad to make it a uniform thickness. The pad then moves by the conveyor through the outlet for subsequent operations to form the competed diaper.
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Preparation of the nonwoven
3. Sheets of nonwoven fabric are formed from the plastic resin using the melt-blown process as described above. These sheets are produced as a wide roll known as a “web,” which is then cut to the appropriate width for use in diapers. There is a web for the top sheet and another for the bottom sheet. It should be noted that this step does not necessarily occur in sequence after pad formation because the nonwoven fabrics are often made in a separate location. When the manufacturer is ready to initiate diaper production these large bolts of fabric are connected to special roller equipment that feeds fabric to the assembly line.
4. At some point in the process, stretched elastic bands are attached to the backing sheet with adhesive. After the diaper is assembled, these elastic bands contract and gather the diaper together to ensure a snug fit and limit leakage.
![frontal tape 724x1024 1](https://siritree.com/wp-content/uploads/2021/06/frontal-tape-724x1024-1.jpg)
Assembly of the components
5. At this point in the process, there are still three separate components, the absorbent pad, the top sheet, and the backing sheet. These three components are in long strips and must be joined together and cut into diaper-sized units. This is accomplished by feeding the absorbent pad onto a conveyor with the polyethylene bottom sheet. The polypropylene top sheet is then fed into place, and the compiled sheets are joined by gluing heating, or ultrasonic welding. The assembled diaper may have other attachments, such as strips of tape or Velcro which act as closures.
6 The long roll is then cut into individual diapers, folded, and packaged for shipping.
Quality Control
There are several standard tests the industry uses to establish diaper absorbency. One is referred to as Demand Wettability or Gravimetric Absorbance. These tests evaluate what is are commonly referred to as Absorbance Under Load (AUL). AUL is defined as the amount of 0.9% saline solution absorbed by the polymers while being subjected to pressure equivalent to 21,000 dynes, or about 0.30 lb/sq in (0.021 kg/sq cm). This test simulates the effect of babysitting on a wet diaper. If the diaper has an absorbency of at least 24 ml/g after one hour, the quality is considered acceptable.
Other quality control factors besides absorbency are related to the diaper’s fit and comfort. Particular attention must be paid to the melt characteristics of the nonwoven fabrics used to form the diaper’s shell. If materials with different melting points are used, the material that melts the quickest may become too soft and stick to the assembly apparatus. When the fabric is pulled off it may be left with a rough surface that is uncomfortable to the user. Finally, the alignment of the components must be carefully checked or leakage may result.
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The Future
Disposable diaper manufacture is a high technology field that has consistently shown innovation over the last few decades. Nonetheless, there are still a number of areas that require additional improvement. One such area is that of leakage reduction. It is likely that manufacturers will develop improved elastic bands to hold the waist more tightly without causing chafing or discomfort. It is also likely that current concern regarding the role of disposable diapers in landfills will impact manufacturing and formulation. This concern may lead to the development of diapers that are less bulky and more biodegradable