Publications

Displaying 1 - 25 of 100

Using "Off-the-Shelf" AISI 4340 Steel for the Production of NIST Reference Charpy Specimens

January 7, 2025

Author(s)

Enrico Lucon, Allen Eckhardt, Raymond Santoyo

We investigated the suitability of using readily available ("off-the-shelf"), as opposite to made-to-order, AISI 4340 steel for the production of NIST reference Charpy specimens of low- and high-energy level. This study was preceded by technical

Hydrogen Embrittlement Susceptibility and Fracture Toughness Measurements of Welded X65M Pipeline Steels

November 14, 2024

Author(s)

Newell Moser, Zack Buck, Nicholas Derimow, May Ling Martin, Damian Lauria, Enrico Lucon, Peter Bradley, Matthew Connolly

Hydrogen is known to deteriorate the mechanical performance of steels (i.e., hydrogen embrittlement). The welding processes involved in the manufacturing and joining of steel pipelines locally modifies the microstructure of the steel, further complicating

Assessing girth weld quality of pipeline steels and their susceptibility to hydrogen embrittlement

August 28, 2024

Author(s)

Zack Buck, Newell Moser, Nicholas Derimow, May Ling Martin, Damian Lauria, Enrico Lucon, Douglas Stalheim, Peter Bradley, Matthew Connolly

Hydrogen has long been considered a viable carbon-free option for ever-increasing societal desires to transform our energy infrastructure towards more renewable and alternative technologies. However, the effects of hydrogen-assisted damage mechanisms that

Mechanical Metallurgy on Columbia Gas X100 Experimental Pipe

August 28, 2024

Author(s)

Dash Weeks, Ryan White, Jake Benzing, Enrico Lucon, Nicholas Derimow, Ashley Kroon, Robert Smith

This study evaluates the material properties of an X100 pipeline steel extracted from an experimental transmission pipeline section placed into service in the 1960s. The purpose is to compare these properties with current X100 steel standards

Second Charpy Interlaboratory Comparison Between NIST and Anand Testing Machine Services

August 22, 2024

Author(s)

Enrico Lucon, Allen Eckhardt, Raymond L. Santoyo

We report the results of the second Charpy Interlaboratory Comparison between NIST (National Institute of Standards and Technology, Boulder, Colorado, USA) and ATMS (Anand Testing Machine Services, Kabnur, India). The first comparison was run in 2022, and

Optimized Heat Treatment for NIST Certified Low-Energy Charpy Specimens to Be Tested at 21 degC

July 11, 2024

Author(s)

Enrico Lucon, Allen Eckhardt, Raymond L. Santoyo

The NIST Charpy Machine Verification Program has recently decided to change the test temperature for low-energy and high-energy certified reference specimens from -40 °C to 21 °C. Consequently, low-energy specimens currently tend to remain in the impact

Assessing girth weld quality of pipeline steels and their susceptibility to hydrogen embrittlement

June 16, 2024

Author(s)

Zack Buck, Newell Moser, May Ling Martin, Nicholas Derimow, Damian Lauria, Enrico Lucon, Douglas Stalheim, Peter Bradley, Matthew Connolly

Hydrogen is known to cause premature failure in various steel infrastructures due to effects of embrittlement, which is particularly detrimental to ferritic steel structures such as pipelines and pressure vessels. Therefore, understanding the

Statistical Detection of Outliers in the Certification of NIST Reference Charpy Lots

June 3, 2024

Author(s)

Enrico Lucon

This report describes the procedures used by the NIST Charpy Machine Verification Program to detect statistically significant outliers within the test results obtained from the certification of Charpy reference lots. The evaluation of outliers is based on

Dynamic Calibration of Instrumented Charpy Strikers

April 22, 2024

Author(s)

Akobuije Chijioke, Nicholas Vlajic, Enrico Lucon

Charpy V-notch testing of metallic materials involves application of kilonewton-range force pulses on millisecond time scales, generated by impacting the notched test specimen with a striker mounted to a swinging pendulum. In the instrumented version of

ASTM interlaboratory study on tensile testing of AM deposited and wrought steel using miniature specimens

April 3, 2024

Author(s)

Jan Dzugan, Enrico Lucon

An interlaboratory study, involving eigth international laboratories and coordinated by COMTES FHT (Czech Republic), was conducted to validate tensile measurements obtained using miniature specimens on additively manufactured (AM) components and artifacts

Dimensional Inspection of Charpy Indirect Verification Specimens By Means of a Digital Optical Comparator

February 26, 2024

Author(s)

Enrico Lucon, Raymond L. Santoyo, Allen Eckhardt

The Charpy reference specimens produced by NIST for the indirect verification of Charpy machines in accordance with ASTM E23 and ISO 148-1 must satisfy strict dimensional requirements, with tolerances that are in most cases tighter than those prescribed by

Review and Consideration of Apparent Negative Crack Growth in Fracture Toughness Tests

February 15, 2024

Author(s)

Enrico Lucon

Apparent negative crack growth is often encountered when performing elastic-plastic fracture toughness tests with the Elastic Compliance single-specimen technique. It consists of a decrease of specimen compliance (reduction of crack size) during the early

New NIST Acquisition System for Reading Charpy Machine Encoders

November 13, 2023

Author(s)

Enrico Lucon, John S. Quintavalle, Damian Lauria

A new acquisition system was developed at NIST for reading angle values from the digital encoders of the three Charpy reference machines in Boulder, Colorado. The associated LabView software provides the conversion from encoder angles to absorbed energies

A Study of Ductile Crack Corrections for Elastic-Plastic Fracture Toughness Tests

October 14, 2023

Author(s)

Enrico Lucon

This paper critically examines existing ductile crack growth (DCG) corrections for J integral values calculated with the multi-specimen and elastic compliance approaches, as well as two novel/alternative DCG corrections. The benchmark is represented by the

Influence of the Valid Temperature Range on Master Curve Analyses of Large Fracture Toughness Data Sets

July 19, 2023

Author(s)

Enrico Lucon

ASTM E1921 standardizes the Master Curve procedure for determining the reference temperature, T0, of ferritic steels in the ductile-to-brittle transition range. In order for toughness test results to be included in the analyses, the corresponding test

Test Temperature Range for NIST Certified Charpy Specimens for Testing at "Room Temperature"

June 20, 2023

Author(s)

Enrico Lucon

The NIST Charpy Machine Verification Program is ready to introduce low-energy and high energy certified specimens that can be tested at room temperature instead of -40 °C, thus accommodating the requests of many customers during the past 35 years. An

Determining Steel Weld Qualification and Performance for Hydrogen Pipelines: Phase I Report

May 23, 2023

Author(s)

Matthew Connolly, May Ling Martin, Zack Buck, Newell Moser, Enrico Lucon, Damian Lauria, Peter Bradley, Andrew Slifka, Robert Amaro

This report details the results of Phase I of the DOT/PHMSA sponsored work on "Determining Steel Weld Qualification and Performance for Hydrogen Pipelines". In this work, the goals of Phase I were 1) to perform a literature review of steel weld

Influence of Final Tempering Temperature on Side-Grooved Super-High Energy Charpy Specimens of 9310 Steel (Second Phase)

May 3, 2023

Author(s)

Enrico Lucon

During Fiscal Year (FY) 2022, a study was conducted at NIST to identify the optimal combination of heat treatment (specifically, final tempering temperature) and side-groove depth for super high energy reference Charpy specimens of 9310 steel. During FY23

Assessment of Different Approaches for Measuring Shear Fracture Appearance in Charpy Tests

March 23, 2023

Author(s)

Enrico Lucon, May Ling Martin, Brooke Calvo, Xiang Chen, Mikhail Sokolov

Different approaches for establishing Shear Fracture Appearance (SFA) on tested Charpy specimens were assessed and compared, namely (in order of increasing expected accuracy): estimates based on characteristic forces from instrumented Charpy tests, optical

Assessment of Macroscopically Inhomogeneous Fracture Toughness Data Sets Using the Simplified and Multimodal Master Curve Methods

March 13, 2023

Author(s)

Enrico Lucon

A number of large, historical fracture toughness data sets have been analyzed according to the provisions of ASTM E1921-22a, in order to compare two Master Curve methods for assessing potential macroscopic material inhomogeneity: simplified method (based

Improved Resistance to Hydrogen-Induced Cracking by Tempering of Intercritically Rolled Accelerated Cooled X65 Steel

March 1, 2023

Author(s)

Mary Kathleen O'Brien, Enrico Lucon, Donald Williamson, Kip Findley

Hydrogen-induced cracking (HIC) occurs in pipeline steels used in oil and gas applications that are rich in hydrogen sulfide gas also known as sour-service environments. In this study, an experimental X65 steel was produced by intercritically finish

Ductility-driven ranking system for API-grade steels in high pressure gaseous hydrogen transmission pipelines

December 19, 2022

Author(s)

Douglas Stalheim, Andrew Slifka, Matthew Connolly, Enrico Lucon, Aaron Litschewski, Pello Uranga

There is strong economic and environmental interest in hydrogen as an energy source to contribute to combatting climate change. Hydrogen diffusion into the steel with assistance through various mechanisms of corrosion and pressure will degrade the

Charpy Interlaboratory Comparison Between NIST and Anand Testing Machine Services

December 12, 2022

Author(s)

Enrico Lucon, Raymond L. Santoyo

Results are reported of an Interlaboratory Comparison between NIST (National Institute of Standards and Technology, Boulder, Colorado, USA) and ATMS (Anand Technical Machine Services, Kabnur, India). The study consisted in testing in both locations

Fracture Toughness Tests at 77 K and 4 K on 316L Stainless Steel Welded Plates

July 29, 2022

Author(s)

Jake Benzing, Nicholas Derimow, Enrico Lucon, Dash Weeks

In the framework of a collaborative project between ASME, NASA, and NIST, quasi-static fracture toughness tests have been performed at liquid nitrogen temperature (77 K, or -196 °C) and liquid helium temperature (4 K, or -269 °C) on weld specimens

Analyzing the NIST Charpy Program Database: Influence of Impact Hammer Type (C vs. U) on Test Results

July 20, 2022

Author(s)

Enrico Lucon, Raymond L. Santoyo

The NIST Charpy Machine Verification Program supplies ASTM E23 certified Charpy reference specimens to customers all over the world since 1989, when the program was transferred from the US Army at Watertown Arsenal, Massachusetts. Starting in 1993

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