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A new model of multiaxial fatigue life prediction with the influence of different mean stresses - Bowen Liu, Xiangqiao Yan, 2019
A new model of multiaxial fatigue life prediction with the influence of different mean stresses - Bowen Liu, Xiangqiao Yan, 2019

A mean stress model of fatigue life of metal materials under multiaxial loading
A mean stress model of fatigue life of metal materials under multiaxial loading

Equivalent Material PDF | PDF
Equivalent Material PDF | PDF

State-of-the-art of advanced gas metal arc welding processes: Dissimilar metal welding - Belinga Mvola, Paul Kah, Jukka Martikainen, Raimo Suoranta, 2015
State-of-the-art of advanced gas metal arc welding processes: Dissimilar metal welding - Belinga Mvola, Paul Kah, Jukka Martikainen, Raimo Suoranta, 2015

Microstructure, strength properties and fracture toughness of S355JR steel
Microstructure, strength properties and fracture toughness of S355JR steel

Quantification of ductile crack growth in 18G2A steel at different constraint levels - ScienceDirect
Quantification of ductile crack growth in 18G2A steel at different constraint levels - ScienceDirect

Metallurgical problems in the welding process of selected construction steels
Metallurgical problems in the welding process of selected construction steels

FATIGUE CRACK GROWTH IN 18G2A STEEL UNDER MIXED MODE I+III LOADING
FATIGUE CRACK GROWTH IN 18G2A STEEL UNDER MIXED MODE I+III LOADING

STEEL-18G2A AND STEEL-14HNMBCu STRENGTHENED BY EXPLOSIVE AND COLD-ROLLED DEFORMATION
STEEL-18G2A AND STEEL-14HNMBCu STRENGTHENED BY EXPLOSIVE AND COLD-ROLLED DEFORMATION

Mechanical properties of 18G2A steel | Download Table
Mechanical properties of 18G2A steel | Download Table

THE EFFECT OF DYNAMIC LOADING ON THE STRUCTURE AND PROPERTIES OF 18G2A AND 14HNMBCu STEELS
THE EFFECT OF DYNAMIC LOADING ON THE STRUCTURE AND PROPERTIES OF 18G2A AND 14HNMBCu STEELS

STEEL-18G2A AND STEEL-14HNMBCu STRENGTHENED BY EXPLOSIVE AND COLD-ROLLED DEFORMATION
STEEL-18G2A AND STEEL-14HNMBCu STRENGTHENED BY EXPLOSIVE AND COLD-ROLLED DEFORMATION

1.0545; S355; 18G2A | Multistal Lohmann
1.0545; S355; 18G2A | Multistal Lohmann

Materials | Free Full-Text | Fracture Mechanisms of S355 Steel—Experimental Research, FEM Simulation and SEM Observation
Materials | Free Full-Text | Fracture Mechanisms of S355 Steel—Experimental Research, FEM Simulation and SEM Observation

PDF] DETERMINATION OF THE FRACTURE TOUGHNESS CHARACTERISTICS OF S355JR STEEL | Semantic Scholar
PDF] DETERMINATION OF THE FRACTURE TOUGHNESS CHARACTERISTICS OF S355JR STEEL | Semantic Scholar

Friction welding and forming of cast iron with 1H18N9T steel
Friction welding and forming of cast iron with 1H18N9T steel

Characteristics of 18G2A steel and PA6 aluminium alloy | Download Table
Characteristics of 18G2A steel and PA6 aluminium alloy | Download Table

Index of steel grades and standards - ArcelorMittal
Index of steel grades and standards - ArcelorMittal

Prediction of Fatigue Crack Growth in Metallic Specimens under Constant Amplitude Loading Using Virtual Crack Closure and Forman
Prediction of Fatigue Crack Growth in Metallic Specimens under Constant Amplitude Loading Using Virtual Crack Closure and Forman

Microstructure, strength properties and fracture toughness of S355JR steel: AIP Conference Proceedings: Vol 1780, No 1
Microstructure, strength properties and fracture toughness of S355JR steel: AIP Conference Proceedings: Vol 1780, No 1

Indentation parameters for 18G2A low-alloy steel | Download Scientific Diagram
Indentation parameters for 18G2A low-alloy steel | Download Scientific Diagram

PN-H 84018 Grade 18G2 Carbon Steel Seamless Tubes – Ferropipe
PN-H 84018 Grade 18G2 Carbon Steel Seamless Tubes – Ferropipe