On the notch sensitivity of as-built Laser Beam Powder Bed–Fused AlSi10Mg specimens subjected to Very High Cycle Fatigue tests at ultrasonic frequency up to 109 cycles

IF 3.1 2区 材料科学 Q2 ENGINEERING, MECHANICAL Fatigue & Fracture of Engineering Materials & Structures Pub Date : 2024-08-23 DOI:10.1111/ffe.14419
Andrea Tridello, Carlo Boursier Niutta, Alessandro Benelli, Ana Paula Pagnoncelli, Massimo Rossetto, Filippo Berto, Davide Salvatore Paolino
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Abstract

The notch effect significantly influences the fatigue response of components and is particularly relevant for parts produced with additive manufacturing (AM) processes, characterized by complex geometries and possible geometric discontinuities inducing local and critical peak stresses. Moreover, the low surface quality, as well as manufacturing defects and residual stresses, interacts with the local peak stress induced by geometric discontinuities, complicating the assessment of the notch effect for AM parts and requiring extensive experimental fatigue investigations. In the present paper, the notch sensitivity of as-built AlSi10Mg specimens produced with the laser beam powder bed fusion in the Very High Cycle Fatigue regime is investigated. Ultrasonic fatigue tests up to 109 cycles have been carried out on rectangular bars and rectangular bars with a central through-thickness hole. The notch effect has been found to significantly affect the fatigue response of the investigated AlSi10Mg specimens, with surface defects having a main role and pointing out the influence of the surface quality on the crack formation.

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在超声波频率高达 109 次循环的超高循环疲劳试验中,对原样激光束粉末床熔融 AlSi10Mg 试样进行缺口敏感性测试
缺口效应严重影响部件的疲劳响应,尤其与采用增材制造(AM)工艺生产的部件相关,其特点是几何形状复杂,可能存在几何不连续性,从而引起局部和临界峰值应力。此外,低表面质量、制造缺陷和残余应力与几何不连续性引起的局部峰值应力相互作用,使 AM 零件的缺口效应评估变得复杂,需要进行大量的疲劳实验研究。本文研究了激光束粉末床融合技术在超高循环疲劳机制下生产的 AlSi10Mg 试样的缺口敏感性。对矩形棒材和带有中心通孔的矩形棒材进行了高达 109 次循环的超声波疲劳试验。研究发现,缺口效应对所研究的 AlSi10Mg 试样的疲劳响应有显著影响,表面缺陷起主要作用,并指出了表面质量对裂纹形成的影响。
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来源期刊
CiteScore
6.30
自引率
18.90%
发文量
256
审稿时长
4 months
期刊介绍: Fatigue & Fracture of Engineering Materials & Structures (FFEMS) encompasses the broad topic of structural integrity which is founded on the mechanics of fatigue and fracture, and is concerned with the reliability and effectiveness of various materials and structural components of any scale or geometry. The editors publish original contributions that will stimulate the intellectual innovation that generates elegant, effective and economic engineering designs. The journal is interdisciplinary and includes papers from scientists and engineers in the fields of materials science, mechanics, physics, chemistry, etc.
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