Corrugated packaging is manufactured using a corrugated paperboard that encloses multiple rows of air columns. The air columns between the papers make these packaging stronger than usual cardboard packaging. In corrugated packaging, the air acts as a cushion for products placed inside them. The ridges in the paperboard offer flexibility and strength, as required in packaging.
Growth of e-commerce sector is expected to increase demand for corrugated packaging. Also, rising acceptance of retail-ready packaging is gaining traction, owing to its advantage of saving time in managing products. Retail-ready packaging has gradually become common in developed countries due to labor cost and time savings it offers. Corrugated packaging is a sustainable and low cost option when compared to its counterparts such as plastic containers. This is expected to result in increasing demand for corrugated packaging from the packaging sector
Corrugated Packaging Advantages
Corrugated fiberboard packaging has huge advantages including unmatched protection for the product, flexibility, and different treatments based on the need.
Protecting your product is one of the most important aspects in packaging, and corrugated is one of the most protective options. The fluting within the material allows for high durability and strength, to ensure your package arrives safely.
Combining structural soundness of the fluting with the cushioning qualities of a linerboard, corrugated packaging can be designed to fit specific protection needs. Protecting against shocks and jerks, it is extremely useful for the packaging of fragile objects.
What is corrugated packaging used for?
Corrugated material is composed of an inside liner and outside liner with fluting in between. It is commonly used for shipping boxes, retail display, and retail packaging. However, cardboard is any type of board made from heavy, one-layer paper-pulp stock.
It is commonly understood that transportation entails large and fluctuating loads for both products and packages. It is critical to develop corrugated boxes with optimal design and effective use of raw resources. Vibrations and shocks operating on pallets during transportation are transferred to corrugated boxes, significantly reducing the boxes' integrity and life time. The development of experimental and analytical techniques for measuring and predicting the influence of dynamic loads on box performance, such as stacking strength and stacking pattern conservation, would thus be extremely useful.
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