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Welding is a technological field that has some of the greatest impact on many industries, such as automotive, aerospace, energy production, electronics, the health sector, etc. Welding technologies are currently used to connect the most diverse materials, from metallic alloys to polymers, composites, or even biological tissues. Despite the relevance and wide application of traditional welding technologies, these processes do not meet the demanding requirements of some industries. This has driven strong research efforts in the field of non-conventional welding processes. This Special Issue presents a sample of the most recent developments in the non-conventional welding of materials, which will drive the design of future industrial solutions with increased efficiency and sustainability.

Technology: general issues --- History of engineering & technology --- aluminium alloys --- friction stir welding --- strain rate --- traverse force --- steel --- weld --- high temperature --- creep --- fracture --- advanced methods --- AA6082-T6 --- bobbin friction stir welding --- microstructure --- optical microscopy --- EBSD --- dissimilar materials --- friction stir lap welding --- pin depth --- tilt angle --- tool rotational speed --- welding speed --- high entropy alloys --- welding techniques --- welding zone microstructure --- welding joint properties --- explosive welding --- light alloys --- hot rolling --- composite --- intermetallic --- FSW --- copper --- butt joint --- mechanical properties --- fatigue performance --- traverse and rotation speed --- three dissimilar aluminum alloys --- T-joints --- residual stress --- orbital hole-drilling strain-gauge method --- prediction of tensile yield force --- explosive cladding --- Zr 700 --- solid type welding --- weld strength --- laser beam welding --- sealed lap joints of dissimilar materials --- austenitic and ferritic-pearlitic steels --- numerical simulation --- microstructure analysis --- n/a

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Welding is a technological field that has some of the greatest impact on many industries, such as automotive, aerospace, energy production, electronics, the health sector, etc. Welding technologies are currently used to connect the most diverse materials, from metallic alloys to polymers, composites, or even biological tissues. Despite the relevance and wide application of traditional welding technologies, these processes do not meet the demanding requirements of some industries. This has driven strong research efforts in the field of non-conventional welding processes. This Special Issue presents a sample of the most recent developments in the non-conventional welding of materials, which will drive the design of future industrial solutions with increased efficiency and sustainability.

Technology: general issues --- History of engineering & technology --- aluminium alloys --- friction stir welding --- strain rate --- traverse force --- steel --- weld --- high temperature --- creep --- fracture --- advanced methods --- AA6082-T6 --- bobbin friction stir welding --- microstructure --- optical microscopy --- EBSD --- dissimilar materials --- friction stir lap welding --- pin depth --- tilt angle --- tool rotational speed --- welding speed --- high entropy alloys --- welding techniques --- welding zone microstructure --- welding joint properties --- explosive welding --- light alloys --- hot rolling --- composite --- intermetallic --- FSW --- copper --- butt joint --- mechanical properties --- fatigue performance --- traverse and rotation speed --- three dissimilar aluminum alloys --- T-joints --- residual stress --- orbital hole-drilling strain-gauge method --- prediction of tensile yield force --- explosive cladding --- Zr 700 --- solid type welding --- weld strength --- laser beam welding --- sealed lap joints of dissimilar materials --- austenitic and ferritic-pearlitic steels --- numerical simulation --- microstructure analysis