Most disposable diapers are made with the following basic components:

1. Polyethylene or cloth-like film: This is used as the backsheet, which prevents liquids from leaking out of the diaper. The backsheet can also have a cloth-like appearance by adding a thin polypropylene non-woven sheet to the film, using either the hot melt process or the heat and pressure method with direct extrusion onto the nonwoven. Contrary to popular belief, the cloth-like backsheet is not cloth; it is made of plastics. Breathable cloth-like material can also be used instead of the film. Not many know that even a breathable diaper with 200 ml of urine loses less than 2.5% of its weight over a period of 24 hours, and this evaporation is enough to cool the diaper, which may not be as comfortable at night. For more information about “breathability,” please use this link: breathable diapers.
2. Tissue: A special tissue paper that differs from regular bathroom tissue and has higher elasticity and wet strength is another important component of a diaper. The tissue essentially serves as a carrier for the pad (the absorbent core of the diaper) and helps reduce the pinholes created during the compression process carried out by continuous drum forming systems. This tissue, typically at 16 grams/m2 (also abbreviated as GSM) or more, protects the inner plastic from the superabsorbent particles. Instead of tissue, it is possible to use a low gauge SMS nonwoven material as the carrier (for the pad); it can be placed right next to the backsheet or as a full wrap material around the core. In order for the SMS carrier to be cost-competitive against tissue paper, it needs to be less than 12 GSM.
3. Hot Melts: They are used to glue the different components of the diaper, such as the pad and the elastics. They are made of a mixture of resins, oils, and tackifiers. The hot melt adhesive is applied in molten form, and when it cools down, it provides the required bonding force to glue the materials. Most of the time, two types of adhesives are used: a construction adhesive, for the backsheet and the nonwovens, and an elastomeric adhesive, for the leg and waist foam elastics. The elastomeric adhesive has higher elasticity and bonding strength and is generally more expensive than construction adhesives. When the diaper pad is very thin, another specialty adhesive known as “pad integrity adhesive” is also used to add strength to the diaper core when it is wet. This integrity adhesive is especially useful when SAP loadings exceed 25% of the total pad weight – i.e., when the weight of the SAP is more than a quarter of the weight of the pad. For a list of hot melt suppliers, follow this link: Hot Melts.
4. Hydrophobic Non-woven: It is used as a topsheet for the leg cuffs; it prevents water from passing through. It is made of polypropylene resin without any added surface surfactants. The hydrophobic nonwoven prevents leakage out of the diaper. By applying a surfactant to a restricted area, it is possible to make a roll of hydrophobic nonwoven only partially hydrophilic. This is known as the Zebra process, and it is an important feature designed to avoid leakage during leg cuff construction. For nonwoven suppliers, use this link: Nonwovens.
5. Hydrophilic Non-woven: It is the main topsheet, the top surface that is in contact with the baby’s skin. It allows liquids to flow into the diaper core. The difference between the two non-wovens (hydrophilic and hydrophobic) is the surfactant treatment used in the process. The surfactant treatment reduces the surface tension of the nonwoven, reduces the contact angle with the liquid, and allows it to pass. Flow dynamics within the diaper core prevent liquids from returning to the surface. Most nonwovens used in diapers are made with the spunbonding process, though thermal bonded nonwovens, which are softer but have lower resistance and strength, can also be used. Through Air Bonded nonwovens, which are more lofty, can also be used. For nonwoven suppliers, use this link: Nonwovens.
6. Elastics: Used to improve the fit of the diaper, usually made of polyurethane or polyester foam, synthetic rubber, or Lycra® (also known by the generic name Spandex). They are used in cuffs, for the waist and the legs; they can also be used as lateral side panels and in tape construction. Most gasketing cuffs use spandex to provide a seal with the baby’s legs. Spandex can stretch as much as 400% of its original length before it breaks, however, it is typically used at less than 300% stretch. New generations of softer and stronger elastic materials are reportedly in the pipeline. For a list of suppliers, use this link: Elastomerics.
7. Lateral Tapes: In premium diapers, Velcro®-type materials are used to provide mechanical grip, also known as the “hook tape.” In lower-priced diapers, adhesive tapes made of polypropylene are used. Then there are new versions of elasticized nonwoven Velcro tapes. In a few years, baby diapers may replace training pants with the help of these new stretchable fastening systems that offer the same characteristics to the consumer but cost less. Some adult diapers use what is called the “target tape” system, where the tape has two adhesive tabs to avoid the need for a frontal tape. This is a cheaper alternative for adult diapers but not as effective as the one using a frontal tape, which does not require repositioning of the tape on top of the target. For a list of suppliers, use this link: Tapes and Closure systems.
8. Frontal Tapes: This is used to facilitate multiple repositionings of the lateral tape without tearing the backsheet. It is made of polypropylene film and attached to the front of the diaper with adhesive. Its use has helped to reduce the thickness of the poly film without the risk of potential tears associated with the opening of the lateral tapes from the backsheet. In premium diapers, a special loop system has been developed to use Velcro-type fasteners (also called the “hook and loop” system). This loop tape can use a “locked loop” or a “brushed loop” to provide a softer texture or a stronger grip. A new generation of nonwoven materials expected to be commercialized in a few years may eliminate the need for frontal tapes – the whole backsheet will be used to reposition mechanical tapes. The frontal tape can have a printed design, which can be random or synchronized; some patents may protect the use of synchronized printing in some markets. Tapes and Closure systems.
9. Cellulose: Used in the construction of the pad, it gives integrity and absorbing capacity to the diaper. The capacity of normal cellulose pulp is around 10 cc of water per gram of pulp when the diaper is in “free swell” but less than 2 cc when subjected to 5 KPa of pressure; that’s why a superabsorbent material is also needed to hold the liquids under pressure. Cellulose comes from pine trees, generally obtained from well-managed forests. Liquids are absorbed by the capillaries in the void spaces between the fibers and the surface tension angle between the fibers and the water. The typical fiber length used in diapers is about 2.6 mm. An alternative to pulp is to use air-laid synthetic fibers. However, it is still difficult for air-laid synthetics to compete with pulp unless it is a niche market product and thickness is more important for the consumer (as in the case of some sanitary napkins and the adult diapers used by active people) than the cost. Cellulose acetate, the material used to make cigarette filters, has been used in some absorbent products. PP synthetic fibers have also been attempted for absorbent core formation. For a list of pulp suppliers, use this link: Fluff Pulp.
10. Acquisition and Distribution Layer (ADL): Also known by its abbreviation ADL, it is a sublayer used between the topsheet and the absorbent core. Sometimes used in full length but mostly preferred as a patch near the target zone where urine is most likely to be deposited. This sublayer is especially needed when the absorbent core is very thin – the sublayer quickly moves liquids into the absorbent core and reduces potential leakage. The ADL is very important to provide a sense of dryness to the skin, providing additional separation between the wet pad and the skin. ADLs should be used whenever the mix of SAP in the absorbent core exceeds about 15% by weight or when the liquid penetration time requires a boost to avoid diaper leakage due to liquid accumulation inside the diaper. ADLs are made either of through-air bond (TAB) nonwovens, “curly” fibers such as in P&G’s Pampers and some Ontex diapers, or some kind of “high loft” nonwoven. An aperture film, made of perforated plastic film, has also been used successfully in some markets. Lower-priced diapers sometimes use resin bonded nonwovens, but they do not work as well. For acquisition nonwoven suppliers, use this link: Nonwovens.
11. Sodium Polyacrylate: Also known as superabsorbent polymer or “SAP,” Kimberly Clark once called it SAM (super absorbent material). It is typically used in a fine granular form (similar to table salt) and helps improve capacity for better retention in a disposable diaper, allowing the product to be thinner with improved performance and less usage of pine fluff pulp. The molecular structure of polyacrylate has sodium carboxylate groups hanging off the main chain. When it comes into contact with water, the sodium detaches itself, leaving carboxyl ions behind. Being negatively charged, these ions repel one another, causing the polymer to unwind and absorb water, which is attracted by the sodium atoms. The polymer also has cross-links, which lead to a three-dimensional structure. It has a high molecular weight of more than a million; thus, it solidifies into a gel instead of dissolving. The hydrogen in the water (H2O) is trapped by the acrylate due to the atomic bonds associated with the polarity forces between the atoms. Electrolytes in the liquid, such as salt minerals (urine contains 0.9% minerals), reduce polarity, thereby affecting the superabsorbent properties, especially with regard to the capacity for liquid retention. This is the main reason why diapers containing SAP should never be tested with plain water. Linear molecular configurations have less total capacity than non-linear molecules, but retention of liquid in a linear molecule is higher than in a non-linear molecule, due to improved polarity. For a list of SAP suppliers, please use this link: SAP Suppliers. The superabsorbent can be designed to absorb higher amounts of liquids (with less retention) or have very high retention (but lower capacity). Additionally, a surface cross-linker can be added to the superabsorbent particle to help move liquids while it is saturated. This helps avoid the formation of “gel blocks,” a phenomenon that describes the inability to move liquids once a SAP particle becomes saturated. Please read the history section for more information. To get more answers about this superabsorbent material, please use the link: Frequently Asked Questions about SAP.
12. Top Sheet Surface Add-on Lotions: In an effort to create novelties for product differentiation, several topical lotions are added to the nonwoven top sheet, including Aloe Vera, Vitamin E, Petrolatum, Almond Oil, Vitamin D, Oat Extract, and Jojoba, among others. Another trend involves using antibacterial lotions (such as tertiary ammonium or silver salt compounds); however, many pediatricians oppose its use for obvious reasons.
13. Decorated Films and Wetness Indicators: For further product differentiation, some diapers feature decorated films underneath the cloth-like backsheet. Some use as many as nine inks featuring all kinds of well-known characters, such as those from Disney, Sesame Street, and various soccer teams. Another feature utilized is a wetness indicator, which is typically used for adult products, but some baby diapers also incorporate it.