Tool Wear Characteristics and Effect on Microstructure in Ti-6Al-4V Friction Stir Welded Joints

Fall, Ameth; Fesharaki, M. H.; Khodabandeh, Alireza; Jahazi, Mohammad

doi:10.3390/met6110275

Cited by 51 publications

(28 citation statements)

References 34 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Зарубежные исследователи активно проводят исследования по сварке титановых сплавов [25][26][27]. Результаты экспериментов показывают, что получение сварных швов титановых сплавов марок Ti-6Al-4V, Ti-5111 возможно, при этом используются различные конфигурации пина инструмента и различный материал инструмента.…”

Section: рис 1 исследовательская установка для сварки трением с перunclassified

Welded Joint of Titanium Plates Manufacturing by Friction Stir Welding

Chernykh¹,

Васильев²,

Chekalin³

et al. 2018

DSMM

View full text Add to dashboard Cite

Аннотация. Изделия из титановых сплавов широко используются в таких отраслях, как авиа-и ракетостроение, судостроение. Для сборки корпусов из титановых сплавов используется сварка плавлением, что является достаточно трудоёмким и дорогостоящим процессом. Снижение трудоемкости и себестоимости операции сваривания титановых сплавов возможно за счет внедрения метода сварки трением с перемешиванием (СТП). В статье рассматривается распространение метода СТП в России, проводится исследование свариваемости титановых сплавов ОТ-4 и ВТ-20 методом СТП. Целью исследования является получение сварного соединения данных сплавов, отсутствие дефектов в виде «непроваров» и разработка специального инструмента для получения сварного соединения, а также получение информации о процессе сварки и разработке рекомендаций по сварке титановых сплавов методом СТП. Проведена серия экспериментов, цель исследования достигнута частично для сплава ОТ-4 и достигнута полностью для сплава ВТ-20. Разработан инструмент для СТП титановых сплавов, приведены данные по сварке при различных режимах, возникающие при этом силы и температуры. Ключевые слова: сварка трением с перемешиванием, титановые сплавы, микроструктура, термодеформационная сварка, фрикционная сварка.

show abstract

Section: рис 1 исследовательская установка для сварки трением с перunclassified

Welded Joint of Titanium Plates Manufacturing by Friction Stir Welding

Chernykh¹,

Васильев²,

Chekalin³

et al. 2018

DSMM

View full text Add to dashboard Cite

show abstract

“…Fall et al have investigated the tool wear and its wear rate during friction stir welding (FSW) of Ti-6Al-4V alloy. A conical tungsten carbide tool was used to produce butt-type friction stir welded joints in two-millimeter thick Ti-6Al-4V sheets [26].…”

Section: The Present Issuementioning

confidence: 99%

Advances in Welding Metal Alloys, Dissimilar Metals and Additively Manufactured Parts

2018

View full text Add to dashboard Cite

“…A conical tungsten carbide tool was used to produce butt-type friction stir welded joints in two-millimeter thick Ti-6Al-4V sheets [26].…”

Section: The Present Issuementioning

confidence: 99%

Advances in Welding Metal Alloys, Dissimilar Metals and Additively Manufactured Parts

Casalino

2017

Metals

View full text Add to dashboard Cite

Nowadays, strong, light-weight, multi-functional, high performing products are key for achieving success in the worldwide markets. Meeting those requirements calls for enabling technologies that lead to innovative and sustainable manufacturing [1].A joint technique is one or a combination of the available mechanical, chemical, thermal processes to create a bond between materials with a number of combinations and geometries. Welding processes of metal alloys use a thermal energy source that can either melt materials of similar compositions and melting points or produce coalescence at temperatures essentially below the melting point of the base materials being joined. Such well-known welding processes include thermal fusion joining processes and solid-state joining processes; the latter are gaining renewed interest.Among the thermal fusion joining processes, the most common process is electric arc welding. Several methods use the electric arc approach for fusion welding of steel [2], aluminum [3], titanium [4] and magnesium alloys [5]. The selection of filler material is critical for the quality of the dissimilar metal welds [6].Laser beam and electron beam welding are high-energy beam welding methods that can operate in either melt-in/conduction or keyhole mode. In the latter mode, the laser beam is highly effective at welding metals. Similar and dissimilar weld can be produced for appliance, automotive, and aerospace applications [7][8][9].Brazing and soldering involve a filler material, heated to its melting temperature, and applied between the mating parts, which do not melt. Recently, laser autogenous brazing has enabled the selective use of the unique properties exhibited by biocompatible materials such as stainless steel and shape memory materials, such as NiTi, to tailor the properties of implantable medical devices [10]. Important mid-temperature thermoelectric materials such as Pb Te-based alloys can be successfully brazed to form a thermoelectric module [11].Resistance spot welding, which dominates the steel body-in-white production, involves a strong current through the metal combination that heats up and finally melts the metals at localized points. A force is applied before, during and after the application of the current to confine the contact area at the weld interfaces and, in some applications, to forge the workpieces. Similar [12] and dissimilar [13] weld can be easily produced.Within the solid-state joining process, friction stir welding has gained a prominent position. Invented in 1991, it uses a non-consumable tool to join two facing workpieces without melting the workpiece material. Heat is generated by friction between the rotating tool and the workpiece material. This welding method has great capability at welding lightweight [14] and dissimilar weld [15]. Otherwise, friction welding is a process where the two pieces are moved relatively by means of an upsetting force. The relative motion heats the two pieces to a plastic-state. Two friction welding processes are available: linear friction...

show abstract

Tool Wear Characteristics and Effect on Microstructure in Ti-6Al-4V Friction Stir Welded Joints

Cited by 51 publications

References 34 publications

Welded Joint of Titanium Plates Manufacturing by Friction Stir Welding

Welded Joint of Titanium Plates Manufacturing by Friction Stir Welding

Advances in Welding Metal Alloys, Dissimilar Metals and Additively Manufactured Parts

Advances in Welding Metal Alloys, Dissimilar Metals and Additively Manufactured Parts

Contact Info

Product

Resources

About