Material Behavior and Fatigue Assessment of Old Steel Bridges of the Spanish Conventional Rail Network

This work presented salient features of the steel behavior of seven metallic bridges close to, or over, 100 years old, among the Spanish conventional rail network as well as the results of a fatigue life expectancy study. A preliminary study of the properties of the constituent materials obtained from the bridges samples was carried out followed by dynamic fatigue tests under service representative loads. Due to the steelmaking techniques in the late 19th and early 20th centuries, disperse fatigue behavior results were obtained. However, the wide safety margins with which these bridges were designed, as well as the mechanical properties of the steel (relatively good mechanical resistance but with low ductility), seem to guarantee a long fatigue life. This estimate decreases sharply with increasing loads.

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High-cycle fatigue tests of pretensioned concrete beams

PCI Journal ◽

10.15554/pcij67.1-02 ◽

2022 ◽

Vol 67 (1) ◽

Author(s):

Jörn Remitz ◽

Martin Empelmann

Keyword(s):

Fatigue Life ◽

High Cycle Fatigue ◽

Concrete Beams ◽

Fatigue Behavior ◽

Fatigue Tests ◽

Design Methods ◽

Test Results ◽

Cycle Fatigue ◽

Pretensioned Concrete ◽

Current Design

Pretensioned concrete beams are widely used as bridge girders for simply supported bridges. Understanding the fatigue behavior of such beams is very important for design and construction to prevent fatigue failure. The fatigue behavior of pretensioned concrete beams is mainly influenced by the fatigue of the prestressing strands. The evaluation of previous test results from the literature indicated a reduced fatigue life in the long-life region compared with current design methods and specifications. Therefore, nine additional high-cycle fatigue tests were conducted on pretensioned concrete beams with strand stress ranges of about 100 MPa (14.5 ksi). The test results confirmed that current design methods and specifications overestimate the fatigue life of embedded strands in pretensioned concrete beams.

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Changing in Fatigue Life of 300 M Bainitic Steel After Laser Carburizing and Plasma Nitriding

MATEC Web of Conferences ◽

10.1051/matecconf/201816521002 ◽

2018 ◽

Vol 165 ◽

pp. 21002 ◽

Cited By ~ 2

Author(s):

Antonio J. Abdalla ◽

Douglas Santos ◽

Getúlio Vasconcelos ◽

Vladimir H. Baggio-Scheid ◽

Deivid F. Silva

Keyword(s):

Mechanical Properties ◽

Fatigue Life ◽

Plasma Nitriding ◽

Fatigue Behavior ◽

High Strength ◽

Tensile Tests ◽

Steel Sample ◽

Fatigue Tests ◽

300M Steel ◽

Structural Applications

In this work 300M steel samples is used. This high-strength steel is used in aeronautic and aerospace industry and other structural applications. Initially the 300 M steel sample was submitted to a heat treatment to obtain a bainític structure. It was heated at 850 °C for 30 minutes and after that, cooled at 300 °C for 60 minutes. Afterwards two types of surface treatments have been employed: (a) using low-power laser CO2 (125 W) for introducing carbon into the surface and (b) plasma nitriding at a temperature of 500° C for 3 hours. After surface treatment, the metallographic preparation was carried out and the observations with optical and electronic microscopy have been made. The analysis of the coating showed an increase in the hardness of layer formed on the surface, mainly, among the nitriding layers. The mechanical properties were analyzed using tensile and fatigue tests. The results showed that the mechanical properties in tensile tests were strongly affected by the bainitic microstructure. The steel that received the nitriding surface by plasma treatment showed better fatigue behavior. The results are very promising because the layer formed on steel surface, in addition to improving the fatigue life, still improves protection against corrosion and wear.

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On the Effect of Electrodischarge Drilling on the Fatigue Life of Inconel 718

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.891-892.1451 ◽

2014 ◽

Vol 891-892 ◽

pp. 1451-1456

Author(s):

Elena Bassoli ◽

Andrea Baldini ◽

Andrea Gatto ◽

Antonio Strozzi ◽

Lucia Denti

Keyword(s):

Fatigue Life ◽

Inconel 718 ◽

Metal Cutting ◽

Fatigue Behavior ◽

Fatigue Tests ◽

Aerospace Applications ◽

Rotating Bending Fatigue ◽

Cutting Operation ◽

Rotating Bending ◽

Superposition Effect

Difficult-to cut-materials are associated with premature tool failure, most likely in the case of complex geometries and this shapes. However, Nickel-based alloys are commonly used in high-temperature and aerospace applications, where thin deep holes are often required. Then, the only viable manufacturing solution relies on non-contact processes, like electrodischarge (ED) drilling. Morphology of ED machined surfaces is significantly different than obtained by metal-cutting operation and is known to jeopardize fatigue strength, but the extent needs to be gauged and related to the process parameters. Aim of the paper is to study the effect of holes (0.8 mm diameter, aspect ratio 10) produced by ED drilling on the fatigue life of Inconel 718. Rotating bending fatigue tests are carried out on specimens drilled under two ED setups, as well as with a traditional cutting tool. Specimens free from holes are fatigued under the same conditions for comparison. Based on previous studies, extremal ED parameters are selected, giving best surface finish versus highest productivity. S-N curves show that the ED process causes a decrease of the fatigue resistance with respect to traditional drilling, whereas the effect of different ED setups is negligible. Maximum productivity can thus be pursued with no threat to fatigue performance. The fatigue limit variation is quantified by using the superposition effect principle: ED drilling causes an increase of the stress concentration factor around 25% if compared to traditional drilling. The macroscopic fatigue behavior is integrated with a study of the effects of the different drilling processes in the micro-scale, by means of a microstructural and fractographic analysis.

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High Cycle Fatigue Behavior of Recycled Additive Manufactured Electron Beam Melted Titanium Ti6Al4V

Volume 2A: Advanced Manufacturing ◽

10.1115/imece2020-24194 ◽

2020 ◽

Author(s):

Melody Mojib ◽

Rishi Pahuja ◽

M. Ramulu ◽

Dwayne Arola

Keyword(s):

Electron Beam ◽

Fatigue Life ◽

Rough Surface ◽

High Cycle Fatigue ◽

Fatigue Behavior ◽

High Strength ◽

Fatigue Tests ◽

Cycle Fatigue ◽

Initiation And Propagation ◽

Powder Recycling

Abstract Metal Additive Manufacturing (AM) has become a popular method for producing complex and unique geometries, especially gaining traction in the aerospace and medical industries. With the increase in adoption of AM and the high cost of powder, it is critical to understand the effects of powder recycling on part performance to move towards material qualification and certification of affordable printed components. Due to the limitations of the Electron Beam Melting (EBM) process, current as-printed components are susceptible to failure at limits far below wrought metals and further understanding of the material properties and fatigue life is required. In this study, a high strength Titanium alloy, Ti-6Al-4V, is recycled over time and used to print fatigue specimens using the EBM process. Uniaxial High Cycle Fatigue tests have been performed on as-printed and polished cylindrical specimens and the locations of crack initiation and propagation have been determined through the use of a scanning electron microscope. This investigation has shown that the rough surface exterior is far more detrimental to performance life than the powder degradation occurring due to powder reuse. In addition, the effects of the rough surface exterior as a stress concentration is evaluated using the Arola-Ramulu. The following is a preliminary study of the effects powder recycling and surface treatments on EBM Ti-6Al4V fatigue life.

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The Effects of Mechanical Properties on Fatigue Behavior of ECAPed AA7075

High Temperature Materials and Processes ◽

10.1515/htmp-2014-0193 ◽

2016 ◽

Vol 35 (3) ◽

pp. 225-234 ◽

Cited By ~ 5

Author(s):

Hasan Kaya ◽

Mehmet Uçar

Keyword(s):

Electron Microscope ◽

Fatigue Life ◽

Fatigue Behavior ◽

Optical Microscope ◽

Fatigue Tests ◽

Angular Pressing ◽

Four Point Bending ◽

Selected Area Electron Diffraction ◽

Transmission Electron ◽

Hardness Values

AbstractIn this study, the effects of equal channel angular pressing (ECAP) on high-cycle fatigue and fatigue surface morphology of AA7075 have been investigated at a constant temperature (483 K) and the “C” route for four passes at ECAP process. ECAPed and as-received specimens were tested by four-point bending fatigue device. Fatigue tests were carried out by using 100, 120 and 140 MPa strength values. ECAPed specimens were characterized for each pass with optical microscope (OM), scanning electron microscope (SEM), energy-dispersive spectroscope (EDS), transmission electron microscope (TEM), selected area electron diffraction (SAED) and hardness measurements. Fracture surfaces of the specimens were also characterized with SEM. The results show that the highest hardness values (137 HV) and the best fatigue life (5.4 × 107for 100 MPa) were measured in ECAPed four-pass sample. For this reason hardness values and fatigue life were increased with increasing number of severe plastic deformation (SPD) process.

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Multiaxial fatigue behavior of 2618 aluminum alloy

MATEC Web of Conferences ◽

10.1051/matecconf/201930009003 ◽

2019 ◽

Vol 300 ◽

pp. 09003

Author(s):

Benaïssa Malek ◽

Catherine Mabru ◽

Michel Chaussumier

Keyword(s):

Aluminum Alloy ◽

Fatigue Life ◽

Internal Pressure ◽

Fatigue Behavior ◽

Fatigue Tests ◽

Multiaxial Fatigue ◽

Mean Stress ◽

Research Project ◽

Pressure Tests

The purpose of the present research project is to study multiaxial fatigue behavior of 2618 alloy. The influence of mean stress on the fatigue behavior under tension and torsion is particularly investigated. Fatigue tests under combined tensile-torsion, in or out of phase, as well as combined tensile-torsion-internal pressure tests have also been conducted. Multiaxial fatigue results are analyzed according to Fatemi-Socie criterion to predict the fatigue life.

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Effect of UV Ageing on the fatigue life of bulk polyethylene

MATEC Web of Conferences ◽

10.1051/matecconf/201816508002 ◽

2018 ◽

Vol 165 ◽

pp. 08002 ◽

Cited By ~ 1

Author(s):

Hamza Lamnii ◽

Moussa Nait-Abdelaziz ◽

Georges Ayoub ◽

Jean-Michel Gloaguen ◽

Ulrich Maschke ◽

...

Keyword(s):

Fatigue Life ◽

Uv Irradiation ◽

Chemical Structure ◽

Fatigue Behavior ◽

Crystalline Polymer ◽

Fatigue Loading ◽

Chain Scission ◽

Fatigue Tests ◽

Fatigue Properties ◽

Irradiation Effect

Polymers operating in various weathering conditions must be assessed for lifetime performance. Particularly, ultraviolet (UV) radiations alters the chemical structure and therefore affect the mechanical and fatigue properties. The UV irradiation alters the polymer chemical structure, which results into a degradation of the mechanical and fatigue behavior of the polymer. The polymer properties degradation due to UV irradiation is the result of a competitive process of chain scission versus post-crosslinking. Although few studied investigated the effect of UV irradiation on the mechanical behaviour of thermoplastics, fewer examined the UV irradiation effect on the fatigue life of polymers. This study focuses on investigating the effect of UV irradiation on the fatigue properties of bulk semi-crystalline polymer; the low density Polyethylene (LDPE). Tensile specimens were exposed to different dose values of UV irradiation then subjected to fatigue loading. The fatigue tests were achieved under constant stress amplitude at a frequency of 1Hz. The results show an important decrease of the fatigue limit with increasing absorbed UV irradiation dose.

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A Study on Fatigue Behavior of SM490A Steel under Low Temperature

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.353-358.142 ◽

2007 ◽

Vol 353-358 ◽

pp. 142-145 ◽

Cited By ~ 3

Author(s):

Ki Weon Kang ◽

Byeong Choon Goo ◽

J.H. Kim ◽

Heung Seob Kim ◽

Jung Kyu Kim

Keyword(s):

Fatigue Life ◽

Low Temperature ◽

Test Temperature ◽

Fatigue Testing ◽

Fatigue Behavior ◽

Testing Machine ◽

Fatigue Tests ◽

Static Strength ◽

Experimental Results ◽

Railway Vehicle

This paper deals with the fatigue behavior and its statistical properties of SM490A steel at various temperatures, which is utilized in the railway vehicle. For these goals, the tensile ad fatigue tests were performed by using a servo-hydraulic fatigue testing machine at three temperatures: +20°C, -10°C and -40°C. The static strength and fatigue limits of SM490A steel were increased with decreasing of test temperature. The probabilistic properties of fatigue behavior are investigated by means of probabilistic stress-life (P-S-N) curve and they are well in conformance with the experimental results regardless of temperature. Also, based on P-S-N curves, the variation of fatigue life is investigated and as the temperature decreases, the variation of fatigue life increases moderately.

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Fatigue Behavior of Corroded Structural Steel Members in Boundary with Concrete

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.348-349.245 ◽

2007 ◽

Vol 348-349 ◽

pp. 245-248

Author(s):

Shigenobu Kainuma ◽

Naofumi Hosomi ◽

In Tae Kim

Keyword(s):

Fatigue Life ◽

Stress Concentration ◽

Structural Steel ◽

Fatigue Behavior ◽

Fatigue Tests ◽

Steel Plates ◽

Structural Members ◽

Analytical Results ◽

Steel Members ◽

Corrosion Pit

In this research, fatigue tests were carried out to investigate the fatigue behavior of corroded structural members in boundary with concrete. Specimens were corroded by accelerated exposure tests and then used in the fatigue tests. FEM analyses were also performed on the models of the corroded surfaces of the specimens and the simulated corrosion surfaces to investigate the stress concentration at the corrosion pit in the boundary. The experimental and analytical results clarified the fatigue behaviors of corroded steel plates in boundary with concrete. The method for evaluating and predicting the fatigue life of corroded steel members were also proposed.

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Fatigue With Hold Times Simulating NPP Normal Operation Results for Stainless Steel Grades 304L and 347

Volume 1A: Codes and Standards ◽

10.1115/pvp2017-66097 ◽

2017 ◽

Cited By ~ 2

Author(s):

H. Ertugrul Karabaki ◽

Jussi Solin ◽

Marius Twite ◽

Matthias Herbst ◽

Jonathan Mann ◽

...

Keyword(s):

Stainless Steel ◽

Steady State ◽

Fatigue Life ◽

Stainless Steels ◽

Fatigue Behavior ◽

Material Behavior ◽

Cyclic Behavior ◽

Normal Operation ◽

Major Power ◽

Steel Grades

The cyclic behavior and endurance of austenitic stainless steels tested under NPP-relevant laboratory conditions has been studied. It had been earlier shown that long intervals between fatigue transients can affect the fatigue performance in stainless steels that are generally used in NPP primary piping. If this can be confirmed, then the transferability between laboratory results, design curves and the fatigue behavior of NPP components during plant operation shall be addressed. In addition to coolant water environmental effects, the material response during steady state normal operation should also be accounted for. Advanced Fatigue Methodologies (AdFaM), a joint project of European research laboratories, vendors and plant operators was focused on empirical and mechanistic investigations to confirm the claimed effects of hold times on fatigue life. Strain-controlled fatigue tests incorporating accelerated hold times at temperatures between 290°C and 420°C were performed on stabilized and non-stabilized stainless steel grades, which are used in Germany and the UK. Two material batches of both alloy types (304L and 347) were studied. The mechanisms responsible for the observed variations in stress response and fatigue life have been investigated using a range of microscopy techniques. The results confirmed the extension of fatigue life due to hold times in both stabilized and non-stabilized grades. This life extension appears to be linked to hold hardening observed in the cyclic behavior of both alloys. Tests incorporating hold times may be more representative of material behavior in NPPs, where temperature transients due to start-ups, shutdowns and major power changes may be separated by long periods of steady state operation. This gives reason to consider the transferability of standard laboratory test data to fatigue assessments of NPP components, and to propose a new factor ( Fhold ) as part of an advanced fatigue methodology and realistic transferability factor: Freal = Fen × Fhold.

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