Abstract
The tensile properties and damping capacity of cold-rolled Fe–20Mn–12Cr–3Ni–3Si alloys were investigated. The martensitic transformation was identified, including surface relief with a specific orientation and partial intersection. Besides, as the cold rolling degree increased, the volume fraction of ε-martensite increased, whereas α’-martensite started to form at the cold rolling degree of 15% and slightly increased to 6% at the maximum cold rolling degree. This difference may be caused by high austenite stability by adding alloying elements (Mn and Ni). As the cold rolling degree increased, the tensile strength linearly increased, and the elongation decreased due to the fractional increment in the volume of martensite. However, the damping capacity increased until a 30% cold rolling degree was approached, and then decreased. The irregular tendency of the damping capacity was confirmed, depicting that it increased to a specific degree and then decreased as the tensile strength and elongation increased. Concerning the relationship between the tensile properties and the damping capacity, the damping capacity increased and culminated, and then decreased as the tensile properties and elongation increased. The damping capacity in the high-strength area tended to decrease because it is difficult to dissipate vibration energy into thermal energy in alloys with high strength. In the low-strength area, on the other hand, the damping capacity increased as the strength increased since the increased volume fraction of ε-martensite is attributed to the increase in the damping source.
Highlights
In the rapid development process of modern industrial society, vibration and noise has caused various human and material losses and is a social problem in improving the working environment, high value-added products, the pursuit of a comfortable living environment, and the stability and long life of equipment or devices
After the solution treatment, including heat treatment at 1050 ◦ C for 1 h and water cooling, the prepared plates were subjected to surface pickling and cold rolled to a final thickness of 2 mm with different cold rolling degrees of 13, 29, 49, and 69%
The microstructures of each specimen were observed using an optical microscope (OM) after surface etching with an etching solution of 5% hydrochloric acid (HCl), 5%
Summary
In the rapid development process of modern industrial society, vibration and noise has caused various human and material losses and is a social problem in improving the working environment, high value-added products, the pursuit of a comfortable living environment, and the stability and long life of equipment or devices. Research activities have been focused on the material aspect to maximize the noise and vibration suppression effect (damping ability) by applying metallic materials [1,2] and composite materials [3] with large internal friction coefficients to the vibration source. These have excellent working properties and adhesiveness, and related research activities have been actively conducted [4,5]. The relationship between the tensile properties and damping capacity was clarified
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