Mechanical equipments in the Industry often endure from various depredation mechanism, resulting in cracks and fractures. Therefore, it is necessary to test the solidity of mechanical properties of structures and its residual life. In order to test the subjects, we have to know the relevant mechanical properties of material first. The data of structure solidity and residual life can’t be obtained from theoretical calculation. They are often collected by doing destructive or non-destructive examinations. Although destructive examinations can offer more detail than non-destructive ones, the drawbacks of destructive without affecting the solidity of the whole structure. Thus, these samples must be small enough to avoid damages on the structure, which makes developing small specimen technology crucial and necessary. This research includes performing Ball Indentation Test on machines from several classifications of testing materials, increasing feasibility of wide range of materials, comparing the data from Ball Indentation Test to general mechanical examinations, and obtaining the mechanical properties of the unknown materials by applying appropriate experimental formulas. This research mainly focuses on materials like carbon-steel, Ti-alloy, Al-alloy and the metal of powder metallurgy. In addition, material factor and true-stress/true plastic strain curve mentioned in literatures are discussed. Therefore, the design of the Indentation Test machine has several advantages, such as smaller size of samplings and elimination of the surface process of material. Most importantly, we can shorten/decrease the time of experiment. In conclusion, Ball Indentation Test is potential, simple, and suitable for on-site measurement of non-fractural/destructive examination.