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Corrugated Waxes

The International Group, Inc is a key industry leader in the development and implementation of waxes, corrugated board and folding cartons. IGI has formulated its waxes for specific packaging requirements, ranging from simple impregnation wax treatments for added moisture barriers, to premium, multi-component curtain coating blends formulated for a customer's particular requirement.

Corrugated board or container board is a versatile and relatively inexpensive packaging medium. It consists of a fluted sheet (called the corrugated medium) glued to one or more liners. The resulting combination of columns and arches produce a product much stronger than the paperboard from which it is made. Corrugated board is primarily used to form boxes for shipping, but it is also often used for interior product separators in boxes as bins for displaying merchandise in stores, and as corner blocks for blocking and bracing products during shipping.

According to the paper and paperboard industry, container board is the largest single grade of paper produced, and remains a growing grade. In addition, the universal use of corrugated containers for shipping manufactured goods makes this grade one of the largest forms of packaging.

Wax coatings impart moisture resistance to corrugated containers. Food packaging is the major application for wax-coated corrugated containers. Food packaging uses wax primarily as a moisture barrier to protect corrugated boxes used in the packaging of produce, seafood, meat, and poultry. Non-food items such as furniture and plant nursery stocks use waxed boxes for moisture resistance and stacking strength.

Wax coatings prevent ply separation, the loss of strength, and rigidity when the corrugated container is wet by acting as a barrier between the paperboard and the moist environment. Laboratory studies show waxed boxes are three times stronger than a nonwaxed one.

Petroleum waxes are applied to corrugated board to help protect the board's physical integrity when exposed to wet and humid conditions. The most common application methods for applying wax in the corrugated industry are saturating or cascading, and curtain coating.

A thick layer of wax is flushed or sprayed onto the finished board in saturating or cascading applications. The board will pick up 40-50% of its weight in wax. The wax is normally low melting point paraffin (approximately 130°F) slightly modified with the presence of a special additive (polyethylene).

In curtain coating applications, the corrugated board is allowed to pass horizontally through a curtain of falling wax. The weight applied is usually 6-7 pounds of wax per thousand square feet of board. Curtain coating formulations contain paraffin wax (150°F), microcrystalline wax, additives such as ethylene-vinyl acetate copolymers, tackifier resins, and antioxidants. Paraffin and microcrystalline waxes prevent the board from picking up moisture. Ethylene-vinyl acetate copolymers increase the viscosity of waxes, which produce a stable curtain. Tackifier resins increase the flexibility of coatings in order to prevent scoreline cracks from developing when bending the board. Antioxidants prevent the melt form oxidizing. Oxidation causes the formation of odor, color degradation, and drop in viscosity.

Levels of wax applied on or into the corrugated board vary according to the physical characteristics of the wax (viscosity, melt point), and the density of corrugated board waxed (high or low density linerboard). The waxing temperature and speed of travel through ovens control levels.

The most widely used wax in corrugated plants is paraffin wax. Paraffin wax is a by-product of the automotive lubricating oil refining process, which involves the distillation of crude oil in products such as naphtha, gasoline, gas oil, fuel oil and paraffin waxes.

Paraffin wax is a highly crystalline structured chemical made up of a mixture of hydrocarbon molecules. It is obtained from paraffin-base lubricating oil distillates. When fully refined, i.e., oil content reduced to less than 1%, it has a melting point range from about 120°F to 160°F. It is white, tasteless, odorless, hard and fairly brittle in consistency. When molten, paraffin wax is a clear, colorless, low viscosity liquid.

Useful wax quality control properties utilized for cascading purposes include:

1. Melting Point (ASTM D-87)
2. Hardness - Penetration (ASTM D-1321)
3. Odor (ASTM D-1833)
4. Oil Content (ASTM D-721)
5. Viscosity (ASTM D-445)
6. Color (ASTM D-156)

Fully impregnated wax corrugated containers are increasingly used in heavy duty, rigid when wet applications, such as packaging of iced vegetables and poultry. In this process, some of the impregnant remains as surface wax and acts as a physical barrier against water to protect the fibers from softening. Both 4722 and 4742 have been formulated for this application. At 40-60% wax pick-up based on the substrate, corrugated containers have superior stacking strength when exposed to water or water vapor and improved moisture absorption.

Corrugated board, when treated with wax has improved dry strength, improved appearance, is resistant to water, resistant to vapor transmission, and reduces abrasiveness of kraft board contacting the packaged product.

Folding Cartons

Folding cartons are made from heavy paper or paperboard and are used in many retail sales applications. The carton is printed, cut, folded into the basic carton shape, sealed or glued so that it can be folded flat, and shipped to the user. The user feeds the folding carton into an automatic filling line, where the carton will be popped open, filled with the product, sealed and loaded into a shipping container, generally a corrugated container. First creasing or scoring the board during the cutting operation makes bends or folds in folding cartons. It is important that the board fold easily through up to 180 degrees without breaking on the outside. To help this occur, forcing a male die into a female die to deform the board scores the board. The board must be able to sustain ply separation without splitting or liners failing. The board will fail a 180 degree bend if the back liner, top liner or several inner plies are damaged.

Packaging And Corrugated Waxes

Flexible Packaging Waxes

Waxes are added to the everyday paper products you use. Food packaging ranging from hamburger wrappers to frozen food packaging select paraffins and paraffin blends are used to impart properties such as moisture and grease barriers, gloss, and freshness seals.

IGI will be pleased to discuss with you the use of waxes in your specific packaging application.  Please contact us and we will review with you available products.

Packaging Industry Overview

The general area of packaging includes a wide range of methods and materials that are generally grouped into smaller categories:

Folding types
Corrugated containers and folding cartons

Flexible types
Wrappers, labels, bags, sacks, and pouches

Rigid types
Bottles, jars, cans, drums and tubes

Paper and Paperboard Packaging

In all packaging applications, the package must contain and protect its products or contents. Depending on the product, these two major functions can take on a wide range of meanings. For example, paper and paperboard can be of greater value in their ability to contribute strength and stiffness or rigidity to a container. Plastics, glass and metals may also offer strength and stiffness, but paper is more resilient than glass and can be more resilient than plastic over a wider temperature range. Paper and paperboard can also be lighter and far more easily printed on than the other materials.

The only difficulty you run into with paper and paperboard is their low barrier properties. In most cases, paper and paperboard must be coated with waxes or plastics, or laminated to plastic films or foil to develop barrier capabilities to water, vapor, gases or odors.

The operations needed to convert paper and paperboard into packaging are numerous and complex. They consist primarily of machines that accept rolls or sheets of paper or paperboard and print, cut, fold and glue them into their final form. The demands on the web are therefore that it be capable of being fed through the machine and have the ability to be printed, glued and folded. Feeding problems are generally not caused by low strength, but stem from wrinkling and curling which is frequently traced back to moisture balance problems. Printing success depends on the printing process to be used. Folding includes both the ability to fold cleanly and straight, but only where the fold is wanted. Glueability is a difficult property to characterize since a wide range of adhesive types is used. Machines may require that the adhesive develop a quick tack to hold a folded carton together long enough to be loaded into a shipping container, or the adhesive may be dried completely very quickly.

Petroleum Wax Usage in the Packaging Industry

As previously mentioned paper and paperboard must be coated with waxes or plastics, or laminated to plastic films or foil in order to develop barrier capabilities to water, vapor, gases or odors. The four major industry segments in which petroleum wax and/or wax blends are used are as follows:

1. Folding Cartons
2. Corrugated Containers
3. Flexible Packaging
4. Paper Cups and Food Containers

The following is a summary of the many advantages wax offers to the packaging industry.

1. Water Resistance and Water Vapor Resistance
   Water and water vapor resistance is the most important property associated with paraffin wax in conjunction with paper.
2. Gas and Odor Barrier
   In addition to good protection against moisture vapor, paraffin wax is a good barrier against odor and gas transmission. It is this property which protects products against loss of flavor and odor and from contamination by foreign odor.
3. Economy
   Petroleum based waxes are very economical water-resistant materials and their low viscosity requires relatively minimal machinery cost for application at high speeds.
4. Purity
   Many grades of petroleum based wax are food grade, tasteless and odorless.

In addition to these advantages, petroleum wax can be blended with other waxes and additives and/or physically modified via mechanical means to provide the following important properties in paper packaging:

• Heat Sealability
• Hot Tack
• Gloss and Gloss Stability
• Blocking
• Friction
• Scuff Resistance
• Grease Resistance

IGI can take specific needs of a customer, balancing the above properties to develop a custom blend for their process. Please take a moment to contact us regarding so we may review your specific application.