Impact Testing for Packaging Materials

Presently, products are making the materialistic world go round. The only thing that can help in sustaining a fantastic product for a long run is the way it is being packed while your move. Therefore, choosing proper packing products becomes very important in order to conduct a stress-free relocation anywhere across the country. Grabbing old boxes from your local grocery store is pretty common and outdated. But if you plan to keep your memories safe through hours or days of shipment, it’s time to consider packing products that withstand all that goes into the transport process, whether it’s about getting lifted, shifted and stacked throughout a long distance transport.      

However, you will come across a wide range of Industrial Packaging Material service providers in Australia like us who tend to offer material options at their fingertips. Right from plastics to foams, Bubble wraps, cardboard and other materials, we have the experience and expertise to help you in choosing the best material or combination of materials for your product. The following blog emphasizes on the true significance of Puncture Impact Testing for Packaging Materials.

Importance of Impact testing for Packaging materials

Many times we find ourselves obliged to use transportation that gives them no control over the way goods are handled. And without a shadow of a doubt, packaging problems will occur if inadequate materials are used. Which in most cases, turns out to be the result of impact damage.

Do you know what is at heart of effective and sustainable packaging design/ performance? It’s the high-quality component materials. Properties, both physical and chemical ones sometimes need to be well understood in order to safeguard the quality of the products that are packed inside. Impact testing is done to ensure that the quality and safety of the products are not hampered in any way. 

Impact Damage and Packaging

Impact itself is a very complex phenomenon that requires expert knowledge to appreciate the implications and events, which take place so quickly that the human eye can only observe the after-effects. Providing packing engineers with fundamental information is extremely difficult so the answer is some form of physical testing. A few of our routine packaging material tests are summarized below.

  • Flexure testing
    One of the most common, cost-effective and reliable methods used for brittleness flexure when it comes to choosing a reliable packaging material strength tests is this. Methods like ASTM D780 cover the determination of flexural properties of unreinforced and reinforced plastics in three and four-point bends. For flexible barrier materials – flexible durability (Gelbo Flex) testing is the utlimate choice to consider.

  • Compression Testing
    It is very common for packaging materials to behave differently in compression than they do in tension. So it can be important to perform tests which stimulates the conditions the packaging material will see in actual use. Top load compression testing evaluates the package and performance of material- After a while, an indication of final packaging performance in storage and transport is given.

  • Tensile Testing
    Being one of the most common ways of characterizing material strength testing, tensile is a process where packaging material is subjected to linear stress until failure or a critical attribute is attained. This type of testing can be performed on many types of packaging materials so that you can gain information about yield strength, ultimate tensile strength, modulus of elasticity (stiffness), elongation, etc.

  • Puncture & Impact Testing
    This one is my favorite. The process acts as a common means to assess the ability of film and packaging materials to withstand penetration forces include puncture and impact testing. The rate of energy delivered effects material properties and using different packaging test methods will help you in defining that material properties are under controlled condition. Slow Rate Penetration via ASTM F1306 will yield a much different result that high-speed pendulum impact test such as ASTM D3420. In tandem with puncture and impact testing, Tear Testing can also be taken into account as it has the ability to characterize the energy required to propagate a tear in packaging material.


The benefits of using different testing methods go beyond the role of just providing comparative material impact data. For more information and updates, keep watching the space!