Uncover Packaging Strength: Introducing the Cutting-edge Box Compression Testing Equipment

Corrugated boxes are a popular choice for packaging goods during shipping and for organizing items in homes and offices. They are constructed with a fluted middle layer of paperboard, which provides strength and rigidity. Typically, corrugated boxes consist of three layers: an outer layer, a middle fluted layer, and an inner layer.

The most commonly used type of corrugated box is the cardboard box. Cardboard boxes are created by treating paperboard with chemicals and dyes, Box Compression Tester shaping it into a box form. These boxes are widely utilized for packaging and shipping various items such as food, electronics, and clothing, as well as for storage purposes in residential and commercial settings.

Due to the extensive use of corrugated boxes across multiple industries worldwide, it is crucial for manufacturers to conduct compression strength tests on these boxes. One essential property to assess after manufacturing corrugated boxes is their compression strength.

What does a compression strength test entail?

A compression strength test is a mechanical testing method employed to determine the compressive strength of a material. The test involves applying force to a material sample and measuring the resulting deformation.

Corrugated boxes, cartons, packaging containers, and plastic containers are common materials subjected to compression tests. In some cases, compression tests are also performed on wood and concrete. The results obtained from compression tests enable comparisons of the strength among different materials or the evaluation of a material’s suitability for specific applications.

If you’re seeking guidance on how to test the compression strength of corrugated boxes, you’ve come to the right place. Pacorr’s Box Compression Tester offers a solution.

Introducing the Box Compression Strength Tester:

A Box Compression Tester (BCT) is a device designed to measure the compressive strength of cardboard boxes or corrugated fiberboard.

The tester consists of a frame that holds a platform where the box to be tested is placed. Additionally, a piston is integrated into the frame to apply compressive force to the top of the box.

The force exerted by the piston on the box is measured using a force gauge. The box is deemed to be compressing when the force required to prevent its collapse surpasses a certain threshold.

 

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