The study presented in this paper relates mostly to impact testing of polymers and similar materials to measure their crack resistance and dynamic properties. For some impact testers, then, at low impact velocities the initial transient forces can be very small and short lived so as to be insignificant. This is so that the specimen mostly experiences a steadily increasing strain until it fails. At higher impact velocities both transient and generally increasing strain are both significant in taking the specimen to its failure point. With very high impact velocities, the specimen can fail mostly due to the initial impact forces. It is possible in some cases to cushion the specimen from the initial higher impact transients and related secondary effects such as bounce at the contact points. This is if a steadily increasing strain to fail the specimen is the main requirement. Of course, this is only feasible when the impact forces are not too dominant. However, as material technology has rapidly advanced so dynamic as well as toughness properties of materials have much improved. Also, the variety and mix of properties now available in different materials has greatly increased. With these trends, testing that can combine well impact, strong dynamic forces and steadily increasing strain loading of the specimen is of increasing interest. This can be so that the force‐time curve of such testing to failure of a specimen can also be regarded as its dynamic performance signature. A problem is in arranging and monitoring the dynamic forces of such tests so as to be able to analyze effectively test results. These are the factors examined in this paper.