Conference Proceedings
Session 1 - Hydrogen embrittlement in steels for automotive industry
- A01 - Hydrogen embrittlement resistance evaluation of advanced high strength steels in automotive applications
- A02 - A step towards numerical evaluation of the local hydrogen susceptibility of punched and cold-formed advanced high strength steel (AHSS) sheets
- A03 - TDS study of deuterium distribution in 3rd generation high strength steels as a function of charging conditions and cold rolling
- A04 - Hydrogen-assisted low-cycle fatigue of advanced high strength steels
Session 2 - Hydrogen embrittlement in stainless steels
- B01 - Influence of Retained Austenite on the Hydrogen Diffusion in Martensitic-Ferritic Stainless Steel
- B02 - Hydrogen-assisted fracture of additively manufactured austenitic stainless steels
Session 3 - Hydrogen embrittlement in titanium alloys
- C01 - Stress-Induced Corrosion of Titanium Alloys Under Partial Hydrogen Pressure
- C02 - Hydrogen impact on the mechanical properties of three titanium alloys
- C03 - Direct Observation of Hydrogen in Ti Alloys by Atom Probe Tomography
- C04 - Hydrogen entry into titanium alloys exposed in seawater
Session 4 - Hydrogen embrittlement in steels for automotive industry
- D01 - Hydrogen and advanced high-strength steels (AHSS) in auto service
- D02 - Influence of Furnace Atmosphere on Hydrogen Absorption and Formability of Coated Galvannealed DP980 Steel Grade
- D03 - Interpretation of the hydrogen effect on the static and dynamic tensile behaviour of dual phase steel
Session 5 - Hydrogen embrittlement in nickel alloys
- E01 - Effect of Heat Treatment and Microstructural Particularities on the Corrosion Resistance of Nickel Alloy 718
- E02 - Combined effects of hydrogen and thermal aging on nickel-based Alloy 690
- E03 - The Effect of Heat Treatment Variation on Hydrogen Environment-Assisted Cracking Susceptibility in a Precipitation-Hardened Ni-Cu Superalloy
- E04 - Thermodynamic versus kinetic origin of Super Abundant Vacancy formation in Ni single crystals in presence of hydrogen
Session 6 - Sour Service
- F01 - Hydrogen embrittlement susceptibility on the interface of clad steel pipes, before and after welding
- F02 - Cracking Resistance of Super-Austenitic Stainless Steels in Sour Environments
- F03 - Towards a better understanding of hydrogen embrittlement testing of steel in sour service conditions by coupling H diffusion to fracture mechanics
Session 7 - Modelling and simulation
- G02 - Atomistic modelling of cosegregation at structural defects in steels
- G03 - FE simulation of diffusion during plastic bulging of iron polycrystalline aggregates submitted to gaseous hydrogen pressure
Session 8 - Advanced characterizations using deuterium
- H01 - Investigation of hydrogen trapping in retained austenite via deuterium charging at high temperature
- H02 - Deuterium assisted cracking in standard and lean duplex stainless steels: A ToF-SIMS and EBSD study
- H03 - Detecting localised deuterium in austenitic stainless steels using NanoSIMS
Session 9 - Hydrogen embrittlement in Aluminum alloys
- I01 - Hydrogen / microstructure interactions in a low copper 7xxx aluminium alloy investigated by Scanning Kelvin Probe Force Microscopy
- I02 - Detection of Hydrogen Trapped at Intermetallic Particles in an Aluminum Alloy by Secondary Ion Mass Spectrometry and Thermal Desorption Analysis
- I03 - Mitigation of Hydrogen-Induced Intergranular Cracking in Al-Mg Alloys Using Various Methods of Electrochemical Potential Control
- I04 - The role of hydrogenated vacancies on modulus, dislocation behavior and interfacial damage in pure aluminum
- I05 - Critical assessment of the hydrogen uptake during the powder-bed laser 3D-printing of Al-Si grade
Session 10 - Advanced methods for characterization of hydrogen-microstructure interactions
- J01 - Hydrogen in steel visualized by neutron imaging
- J02 - On the trail of the hydrogen embrittlement by novel critical experiments: In situ nanomechanical testing of TWIP steel
- J03 - Cooling and Deformation-induced Hydrogen Desorption in Metastable Austenitic Steels Detected by Mass Spectroscopy
Session 11 - Line-Pipe performances for H2/H2S service
- K01 - Interpreting the Effect of Applied K on the Threshold K for Subcritical Cracking in Hydrogen Environments
- K02 - Correlating Steel Pipeline Microstructure to Fatigue Crack Growth Rates in High Pressure Hydrogen Gas
- K03 - Fracture toughness measurement of carbon steels with different directions of crack growth
- K04 - Testing of Large-Diameter Pipe Material for Resistance to SOHIC in the new Twist and Bend Test
Session 12 - Hydrogen embrittlement in steels for automotive industry
- L01 - The Influence of Compositional and Microstructural Variations on Hydrogen Absorbance and Tensile Properties at Elevated Hydrogen Levels for TRIP-Aided Bainitic Ferrite Steels.
- L02 - Development of ultrahigh strength press hardened steel solution for structural autoparts with low sensitivity to hydrogen embrittlement
- L03 - On the use of deuterium to characterize hydrogen uptake mechanisms in 22MnB5 bare steel
Session 13 - Posters on display during conference
- P01 - In-situ observation on the hydrogen behaviour in austenitic stainless steel by time-of-flight secondary ion mass spectrometry during mechanical loading
- P02 - Method to evaluate the hydrogen embrittlement of joining elements made from high strength quenched and tempered steels including the hydrogen concentration profile
- P04 - Interpretation of hydrogen-assisted ductility loss of various steels subject to external and internal hydrogen
- P05 - Diffusion and segregation of hydrogen in nickel single and bi crystals: stress-strain field contributions
- P06 - Influence of hydrogen on cyclic hardening of (001) oriented nickel single crystal: an experimental and numerical approach
- P07 - Solubility and diffusion of hydrogen in the (100) surface and subsurface layers in Ni from first principles calculations
- P08 - Local approach of fracture in martensitic steel: Some implications of the interactions of hydrogen with the plasticity
- P09 - Short crack behavior of stainless steels in hydrogen gas atmosphere
- P10 - Development of a test machine for Rising Step Loading method
- P11 - Contribution to the Understanding of Hydrogen Trapping in Dislocations and Grain Boundaries in Armco Iron
- P12 - Influence of surface to hydrogen entry into steel
- P13 - The impact of diffusible hydrogen on the formability of Galvannealed DP980 steel
- P14 - Hydrogen Embrittlement study of X4CrNiMo 16.5.1 martensitic stainless steel and its weld: use of standard disk pressure tests
- P15 - Effect of hydrogen on the tensile properties of 42CrMo4 steel quenched and tempered at different temperatures
- P16 - Hydrogen effects on the mechanical behavior of different quenched and tempered steels
- P17 - Hydrogen absorption during case hardening
- P18 - Modelling of Hydrogen Sorption, Trapping and Desorption on Steel in the Devanathan-Stachurski cell
- P19 - Effect of alloying on the hydrogen-enhanced decohesion (HEDE) in steel and Ni-base alloys
- P20 - Simulation method of hydrogen assisted degradation of gas pipeline steels
- P21 - Effects of industrial parameters on delayed fracture in hot stamped components
- P22 - A hydrogen permeation approach to detect the HIC in Oil&Gas pipelines
- P23 - Effects of irradiation-induced defects on hydrogen uptake of a 316L stainless steel during oxidation in PWR primary water environment
- P24 - Hydrogen Accelerated Fatigue Crack Growth of Multiple X100 Pipeline Steel Welds
- P25 - A Study of the Sensibility to Hydrogen of Titanium Alloys in a Marine Environment TA6V ELI (Grade 23) and Pure Titanium T40 (Grade 2)
- P26 - Hydrogen segregation and clustering: hydrogen-enhanced decohesion in Ni from DFT calculations
- P27 - Phase field modeling of Flaw-induced Hydride formation Kinetics in hydrogenized metals
- P28 - The influence of diffusible hydrogen on the mechanical behavior of advanced high strength steels with a bainitic-martensitic matrix exhibiting a TRIP effect
- P29 - Development of hydrogen characterization techniques for titanium alloys used in aerospace applications
- P30 - Characterization of hydrogen induced cracking in generic Fe-C-Ti and Fe-C-V alloys
- P31 - Evaluation of electrochemical hydrogen permeation combined with a constant tensile load in TRIP and DP steel
- P32 - The effect of hydrogen on the mechanical properties of UNS 31803 duplex stainless steel
- P33 - The role of dislocation mobility on the hydrogen induced mechanical degradation of high strength alloys
- P34 - A new technique of non-destructive measurement of the hydrogen diffusion coefficient of metals
- P35 - The Origin of Smoothly Curved Quasi-Cleavage Facets in the Hydrogen Charged Low-Carbon Steel
- P36 - Assessment of electrochemical sorption/desorption properties of hydrogen in steels with various microstructural phases
- P37 - Role of internal hydrogen in delayed cracking of metastable low-Ni austenitic stainless steels
- P39 - Effect of Automobile coatings on permeation of Hydrogen in High Strength Steels
- P40 - Computational analysis of hydrogen long-range diffusion in steel with various traps
- P41 - Model of Simultaneous Action in a Cooperative Manner of Hydrogen Embrittlement Mechanisms (HELP + HEDE) in Low Carbon Steel and Their Effects on Mechanical Properties
- P42 - Impact of mechanical destabilization of retained austenite on hydrogen trapping of TRIP-aided advanced high strength steels
- P43 - Strategy for the finite element modeling of the transient hydrogen transport and trapping in metallic materials
- P44 - Hydrogen distribution in multi-layer welds of steel S960QL
- P45 - Effect of Nickel-based Alloy 718 Microstructure on Hydrogen Embrittlement Fracture Mode
- P46 - Effects of Torsional Prestrain and Hydrogen on the Tensile Properties of Ferrite-Pearlite Carbon Steel
- P47 - Effect of hydrogen embrittlement due to cathodic protection on fracture toughness of a Ni-Fe-Cr-Mo-N strain hardened superaustenitic alloy
- P48 - The influence of mechanical twins and dislocations on the hydrogen diffusion behavior of a high manganese TWIP-steel
- P49 - Hydrogen Embrittlement Susceptibility of High Strength Steels – a comparative study
- P50 - A study on the susceptibility of high strength tempered martensite steels to hydrogen embrittlement based on experimental investigations and finite element analysis
- P51 - Combined ab initio and experimental investigation of the role of the microstructure on hydrogen embrittlement in Ni-based superalloys
- P52 - The effect of hydrogen and frequency on the shear mode fatigue threshold in bearing steel
- P53 - Hydrogen embrittlement in tensile fracture of ferritic ductile cast iron and its difference from carbon steel
- P54 - The effect of temperature on the frequency dependence of fatigue crack growth under four-point bending with continuous hydrogen-charging
- P55 - Hydrogen uptake by high-strength steels during electrodeposition process
- P57 - Effect of electrochemical charging on the hydrogen embrittlement susceptibility of Inconel 718 superalloy
- P58 - Hydrogen Transport in Multiphase Steels
- P59 - Evaluation Methodologies for the Hydrogen Embrittlement Susceptibility in Ultra High Strength Press Hardening Steels
- P60 - Hydrogen permeability of high strength steels and model phases
- P61 - Susceptibility to hydrogen embrittlement in as-forged and hot isostatic pressed superduplex stainless steels
- P62 - Hydrogen embrittlement mechanism in crack growth of micro-alloyed advanced high strength steels
- P63 - Hydrogen trapping in carbon supersaturated α-iron and its decohesion effect in martensitic steel
- P64 - Delayed fracture in quenching and partitioning steels for automotive applications
- P65 - The role of plastic strain on the delayed fracture behaviour of twinning-induced plasticity steels
- P66 - Numerical modelling of Thermal Desorption Analysis for characterising hydrogen trapping in steels
- P68 - Effect of hydrogen on nanomechanical properties of Fe-22Mn-0.6C TWIP steel during in situ electrochemical nanoindentation
- P70 - Evolution of dislocation structure in the presence of hydrogen