Decrease in Hydrogen Embrittlement Susceptibility of 10B21 Screws by Bake Aging

Chen, Kuan‐Jen; Hung, Fei-Yi; Lui, Truan-Sheng; Tseng, Chien Hao

doi:10.3390/met6090211

Cited by 4 publications

(4 citation statements)

References 17 publications

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“…Compared with unbaked screws, the proportion of hydrogen content in the screws respectively decreased by 74% and 82% after baking for 8 and 16 h, respectively, and thus affected HAE susceptibility of screw. 10) In order to prevent HIE, the baking duration should exceed 8 h. The effect of baking duration on the ultimate torque strength determined using Weibull analysis 18) is plotted in Fig. 5.…”

Section: Baking Effect On Hie Susceptibilitymentioning

confidence: 99%

“…9) Martensite is most susceptible to hydrogen damage, whereas temperted martenstie is least susceptible. 10) A threaded fastener specimen can essentially be examined with several notches that act as stress risers under hydrogen embrittlement (HE) test, which usually fractures at the thread root radius, shank, or the head-to-shank fillet. Notches sensitivity produced by threads on fasteners has an effect on the maximum load and affected by mechanical properties of the 10B21 screw.…”

Section: Introductionmentioning

confidence: 99%

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Effects of Tempered Microstructure and Hydrogen Concentration on Hydrogen-Induced Embrittlement Susceptibility of 10B21 Screws at Low Temperature

et al. 2018

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Secondary ion mass spectroscopy (SIMS) was used to examine the hydrogen atoms in low-carbon boron (10B21) steel screws. The effects of baking and tempering treatments on the hydrogen-induced embrittlement (HIE) susceptibility of the screws were investigated. SIMS results confirmed that hydrogen concentration decreased with increasing baking duration, and thus increased the engineering reliability of the screws. For low-temperature applications, 10B21 screws must be baked for a longer duration to prevent HIE. The observed tempered martensite was composed of ferrite and cementite, which could limit the movement of hydrogen atoms. At higher tempering temperature, the structure of the screw matrix became finer, reducing the HIE susceptibility. 10B21 screws tempered at a high temperature thus had good ability to resist lowtemperature HIE. [

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Section: Baking Effect On Hie Susceptibilitymentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Effects of Tempered Microstructure and Hydrogen Concentration on Hydrogen-Induced Embrittlement Susceptibility of 10B21 Screws at Low Temperature

et al. 2018

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“…According to Kania [ 14 ], the corrosion resistance of electro-galvanized bolts decreases quickly due to the small coating thickness. Moreover, the application of this method may result in contamination of the natural environment and potential hydrogen embrittlement of the steel [ 18 , 19 , 20 ]. Although lamella zinc technology increases its market share, especially in the area of fasteners, i.e.…”

Section: Introductionmentioning

confidence: 99%

Comparison of the Tribological Properties of the Thermal Diffusion Zinc Coating to the Classic and Heat Treated Hot-Dip Zinc Coatings

Jędrzejczyk

Skotnicki

2021

Materials

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The presented studies are focused on the wear resistance and friction coefficient changes of the thermal diffusion (TD) zinc coating deposited on steel. The aim of research was to evaluate the variation in coating properties during dry friction as a result of the method of preparation of the basis metal. The measured properties were compared to those obtained after classic hot-dip (HD) zinc galvanizing—heat treated and untreated. Thermal diffusion zinc coatings were deposited in industrial conditions (according to EN ISO 17668:2016-04) on disc-shaped samples. The results obtained during the tribological tests (T11 pin-on-disc tester) were analysed on the basis of microscopic observations (with the use of optical and scanning microscopy), EDS (point and linear) analysis and microhardness measurements. The obtained results were similar to effects observed after heat treatment of HD zinc coating. The conducted analysis proved that the method of initial steel surface preparation results in changes in the coating’s hardness, friction coefficient and wear resistance.

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“…The effect of hydrogen-assisted damage can be significantly decreased by heat treatment at some stages of the steel processing causing the reduction of the total hydrogen concentration in the solid solution [14,16,17]. Worth to note is the diffusivity of the hydrogen in steels typically increases with tempering due to recovery and recrystallization resulting in a reduction of the defects density affecting the hydrogen detrapping and diffusion [18,19].…”

Section: Introductionmentioning

confidence: 99%

Study of correlation between the steels susceptibility to hydrogen embrittlement and hydrogen thermal desorption spectroscopy using artificial neural network

Malitckii

Fangnon

Vilaça

2020

Neural Comput & Applic

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Steels are the most used structural material in the world, and hydrogen content and localization within the microstructure play an important role in its properties, namely inducing some level of embrittlement. The characterization of the steels susceptibility to hydrogen embrittlement (HE) is a complex task requiring always a broad and multidisciplinary approach. The target of the present work is to introduce the artificial neural network (ANN) computing system to predict the hydrogen-induced mechanical properties degradation using the hydrogen thermal desorption spectroscopy (TDS) data of the studied steel. Hydrogen sensitivity parameter (HSP) calculated from the reduction of elongation to fracture caused by hydrogen was linked to the corresponding hydrogen thermal desorption spectra measured for austenitic, ferritic, and ferritic-martensitic steel grades. Correlation between the TDS input data and HSP output data was studied using two ANN models. A correlation of 98% was obtained between the experimentally measured HSP values and HSP values predicted using the developed densely connected layers ANN model. The performance of the developed ANN models is good even for never-before-seen steels. The ANN-coupled system based on the TDS is a powerful tool in steels characterization especially in the analysis of the steels susceptibility to HE.

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Decrease in Hydrogen Embrittlement Susceptibility of 10B21 Screws by Bake Aging

Cited by 4 publications

References 17 publications

Effects of Tempered Microstructure and Hydrogen Concentration on Hydrogen-Induced Embrittlement Susceptibility of 10B21 Screws at Low Temperature

Effects of Tempered Microstructure and Hydrogen Concentration on Hydrogen-Induced Embrittlement Susceptibility of 10B21 Screws at Low Temperature

Comparison of the Tribological Properties of the Thermal Diffusion Zinc Coating to the Classic and Heat Treated Hot-Dip Zinc Coatings

Study of correlation between the steels susceptibility to hydrogen embrittlement and hydrogen thermal desorption spectroscopy using artificial neural network

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