Skip to main content

Advanced Search

Projected result for your current search: 0

Search Operators:

You can use operators in your search query to narrow down your results even more. Click on the search operator to see an explanation of how it works.
Finds documents with exactly this word group, in exactly this word order and spelling (e.g. "employer branding").
Finds documents with both search terms (e.g. sales AND bonus).
Finds documents with one or the other search term (e.g. porsche OR volkswagen).
Finds documents with all search terms. Blank space is understood as AND (e.g. man robot production).
Finds documents with no appearance of the word behind NOT (e.g. ford NOT "harrison ford").
Finds documents where the search term is mentioned at least "n" times."n" may be any number (e.g. COUNT(gear)>8).
Finds documents with both search terms in any word order, permitting "n" words as a maximum distance between them. Best choose between 15 and 30 (e.g. NEAR(recruit, professionals, 20)).
Finds documents with the search term in word versions or composites. The asterisk * marks whether you wish them BEFORE, BEHIND, or BEFORE and BEHIND the search term (e.g. lightweight*, *lightweight, *lightweight*).
Finds documents with the search term in different spellings. "?" allows only one character (e.g. organi?ation).
Special characters are understood as AND (e.g. Miller Bros. & Sons).

Semantic Search

powered by (Link opens in a new window)
loading …
Log in
Top
Metallurgical and Materials Transactions A

A Pathway to Grain Structure Control of Gas Tungsten Arc Welded Duplex Stainless Steel Through Ultrasonic Vibration

  • 11-04-2021
  • Original Research Article
Published in:
Authors
Jianfeng Wang
Yuying Chen
Published in
Metallurgical and Materials Transactions A | Issue 6/2021

Activate our intelligent search to find suitable subject content or patents.

search-config
loading …

Abstract

The article investigates the application of ultrasonic vibration in gas tungsten arc welding (GTAW) of duplex stainless steel to control grain structure and improve mechanical properties. Traditional welding methods often result in undesirable columnar grains, which can compromise corrosion resistance and impact toughness. The study focuses on the use of ultrasonic vibration to promote a columnar-to-equiaxed transition, leading to grain refinement and improved mechanical properties. The research includes detailed microstructural analysis, mechanical property testing, and acoustic field simulations. The results show that ultrasonic vibration effectively refines the grain structure, weakens texture, and enhances tensile strength and ductility. This work highlights the potential of ultrasonic vibration as a key enabler in welding manufacturing, offering a promising approach to achieve desired microstructures and mechanical properties in duplex stainless steel welds.
AI Generated

This summary of the content was generated with the help of AI.

Already a customer? Then log in here to gain access.

Customer login

Not a customer yet? Then find out more about our access models now:

Individual Access

Start your personal individual access now. Get instant access to more than 164,000 books and 540 journals – including PDF downloads and new releases.

Starting from 54,00 € per month!    

Get access

Access for Businesses

Utilise Springer Professional in your company and provide your employees with sound specialist knowledge. Request information about corporate access now.

Find out how Springer Professional can uplift your work!

Contact us now

For explorers: Get to know our platforms better with a free registration.

Register for free
previous article Size Control of In Situ Synthesized TiB2 Particles in Molten Aluminum
next article Mechanisms of the Origin of Fine and Non-Dendritic Grains at the Sonotrode–Liquid Metal Interface During Ultrasonic Solidification of Metals
Title
A Pathway to Grain Structure Control of Gas Tungsten Arc Welded Duplex Stainless Steel Through Ultrasonic Vibration
Authors
Jianfeng Wang
Yuying Chen
Publication date
11-04-2021
Publisher
Springer US
Published in
Metallurgical and Materials Transactions A / Issue 6/2021
Print ISSN: 1073-5623
Electronic ISSN: 1543-1940
DOI
https://doi.org/10.1007/s11661-021-06262-0
This content is only visible if you are logged in and have the appropriate permissions.

Other articles of this Issue 6/2021

Effect of Chemical Potential and Atomic-Scale Vibration of Nucleant Surface on Liquid Layering and Heterogeneous Nucleation

  • Open Access
  • Brief Communication

New Composition Based Technique for Solidification Cracking Resistance Evaluation

  • Original Research Article

Tensile Mechanical Behavior and Spall Response of a Selective Laser Melted 17-4 PH Stainless Steel

  • Original Research Article

Evolution of Al–Ti Oxide Inclusions in Fe-Based Alloys During Thermal Holding by a Novel Inductive Separation Method

  • Original Research Article

Solid-State Joining of Dissimilar Ni-Based Superalloys via Field-Assisted Sintering Technology for Turbine Applications

  • Brief Communication

The Site Preferences of Transition Elements and Their Synergistic Effects on the Bonding Strengthening and Structural Stability of γ′-Ni3Al Precipitates in Ni-Based Superalloys: A First-Principles Investigation

  • Original Research Article

Premium Partners

IST - International Surface Technology (Link opens in a new window)

The leading magazine for all topics related to surface technology.
For decision-makers and users from all areas of industry.

Get your free trial
    ADVERTORIAL

    Chemetall und ZF optimieren den Vorbehandlungsprozess

    Image Credits
    Nordson Logo/© Nordson Deutschland GmbH, Ecoclean Logo/© SBS Ecoclean Group, Akzo Nobel Power Coatings GmbH/© Akzo Nobel Power Coatings GmbH, Sames GmbH/© Sames GmbH, Karl Bubenhofer AG/© Karl Bubenhofer AG, Munk GmbH/© Munk GmbH, Endress+Hauser Flow Deutschland/© Endress+Hauser Flow Deutschland, IST - International Surface Technology, Chemetall und ZF optimieren den Vorbehandlungsprozess/© Chemetall