Role of residual stresses induced by double peening on fatigue durability of automotive leaf springs

• Published in: Materials in engineering Vol. 47; pp. 672 - 676
• Main Authors: Scuracchio, Bruno Geoffroy, de Lima, Nelson Batista, Schön, Cláudio Geraldo
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.05.2013
• Subjects: Automotive components; Automotive engineering; Fatigue life; Leaf springs; Peening; Residual stress; Shot; Shot peening
• ISSN: 0261-3069
• DOI: 10.1016/j.matdes.2012.12.066

► Proper choice of peening media is needed for higher fatigue strength in leaf springs. ► Optimum double-peening condition for leaf springs: 0.8mm shot, followed by 0.3mm. ► Fatigue life correlates with residual stress levels at the surface (up to 0.02mm). ► Residual stress profile below 0.02mm has no measurable effect over fatigue life. ► Failure of the investigated parts is nucleation-controlled. Improvement of fatigue life in parts subjected to cyclic stresses by application of mechanical surface treatment processes is already well known, both in the industry and in the academy. Dealing with automotive springs, the shot peening process becomes an essential step in manufacturing. In the case of leaf springs, however, a systematic investigation of the effect of shot peening on fatigue life is still required. The aim of the present work is to improve the knowledge on the role of shot peening in manufacturing leaf springs for vehicles, through the analysis of residual stresses by X-ray diffraction and fatigue tests on a series of samples that were subject to ten different peening schedules. Among the investigated processes, the usage of 0.8mm diameter cast steel shot followed by a second peening with 0.3mm diameter cast steel shot leads to optimal performance, regarding fatigue life. X-ray diffraction analysis shows that this improved performance may be attributed to residual compressive stress maintained until a depth of 0.02mm below the surface, which directly influences fatigue crack nucleation. Residual stresses induced by shot peening in larger depths have no influence on the sample’s fatigue life.