New advances and future possibilities in forming technology of hybrid metal–polymer composites used in aerospace applications
Fibre metal laminates, hybrid composite materials built up from interlaced layers of thin
metals and fibre reinforced adhesives, are future-proof materials used in the production of …
metals and fibre reinforced adhesives, are future-proof materials used in the production of …
A review of characterization and modelling approaches for sheet metal forming of lightweight metallic materials
Lightweight sheet metals are attractive for aerospace and automotive applications due to
their exceptional properties, such as low density and high strength. Sheet metal forming …
their exceptional properties, such as low density and high strength. Sheet metal forming …
Gradient descent machine learning regression for MHD flow: Metallurgy process
Abstract Machine learning techniques have received a lot of interest in the exploration to
minimize the computational cost of computational fluid dynamics simulation. The present …
minimize the computational cost of computational fluid dynamics simulation. The present …
Emerging trends in single point incremental sheet forming of lightweight metals
Lightweight materials, such as titanium alloys, magnesium alloys, and aluminium alloys, are
characterised by unusual combinations of high strength, corrosion resistance, and low …
characterised by unusual combinations of high strength, corrosion resistance, and low …
Recent developments and future challenges in incremental sheet forming of aluminium and aluminium alloy sheets
Due to a favourable strength-to-density ratio, aluminium and its alloys are increasingly used
in the automotive, aviation and space industries for the fabrication of skins and other …
in the automotive, aviation and space industries for the fabrication of skins and other …
[HTML][HTML] Single-point incremental forming of titanium and titanium alloy sheets
Incremental sheet forming of titanium and its alloys has a significant role in modern
manufacturing techniques because it allows for the production of high-quality products with …
manufacturing techniques because it allows for the production of high-quality products with …
Experimental analysis of overlap fiber laser welding for aluminum alloys: porosity recognition and quality inspection
A Aminzadeh, N Barka, A El Ouafi, F Mirakhorli… - Optics and Lasers in …, 2024 - Elsevier
In recent years, laser welding has become increasingly popular in the manufacturing
industry due to its advantages, including a narrow heat affected zone, low levels of …
industry due to its advantages, including a narrow heat affected zone, low levels of …
Sheet metal shrink flanging process: a critical review of current scenario and future prospects
Flanging is sheet metal forming process which has high-end applications from automobile
industry to aircraft industry. Straight, stretch, shrink and hole-flanging are the variations of …
industry to aircraft industry. Straight, stretch, shrink and hole-flanging are the variations of …
From art to part: Learning from the traditional smith in developing flexible sheet metal forming processes
The traditional metal smith has the remarkable capability to form a variety of part shapes
from flat sheets using only a few universal tools. Such versatility is increasingly appealing to …
from flat sheets using only a few universal tools. Such versatility is increasingly appealing to …
Multistage tool path optimisation of single-point incremental forming process
Z Yan, H Hassanin, MA El-Sayed, HM Eldessouky… - Materials, 2021 - mdpi.com
Single-point incremental forming (SPIF) is a flexible technology that can form a wide range
of sheet metal products without the need for using punch and die sets. As a relatively cheap …
of sheet metal products without the need for using punch and die sets. As a relatively cheap …