Add to ORKGThis lecture describes the methodology for physical modelling of materials problems, with particular emphasis on heat treatment and welding of age hardening alloys materials; it establishes mathematical relations between different process variables (e.g. alloy composition, heat treatment procedure, welding conditions) and the alloy strength or hardness, based on sound physical principles (e.g. thermodynamics, kinetic theory, dislocation mechanics); it motivates faster process development, optimization of process and properties and development of real-time control. Knowledge in metallurgy, materials science, materials engineering is assumed
In general, aluminium alloys have excellent machining properties compared with other common engineer...
This lecture provides a survey of the aluminium alloys available to the user; it describes their var...
This lecture describes the important factors governing weldability of aluminium, such as influence o...
This lecture describes the methodology for physical modelling of materials problems, with particular...
This lecture provides an introduction to metallurgical concepts necessary to understand how structur...
This lecture provides sufficient information on the rolling of aluminium and the characteristics of ...
This lecture helps to understand how the properties of forgings evolve during the manufacturing proc...
This lecture provides background, basic information on mechanical properties and testing, solidifica...
This lecture describes the characteristics of brazing aluminium and the process involved; it helps t...
This lecture provides sufficient information on the extrusion of aluminum and the performance of ext...
This lecture helps to understand the basic principles of die forging and the characteristic features...
This lecture gives a brief introduction to friction, explosive and ultrasonic welding techniques of ...
This lecture describes the fundamentals of the superplastic behaviour phenomenon of aluminium alloys...
This lecture offers an example of product development. It imparts knowledge about rolling aluminium;...
This lecture describes the spot welding characteristics of aluminium and its alloys, the spot weldin...
In general, aluminium alloys have excellent machining properties compared with other common engineer...
This lecture provides a survey of the aluminium alloys available to the user; it describes their var...
This lecture describes the important factors governing weldability of aluminium, such as influence o...
This lecture describes the methodology for physical modelling of materials problems, with particular...
This lecture provides an introduction to metallurgical concepts necessary to understand how structur...
This lecture provides sufficient information on the rolling of aluminium and the characteristics of ...
This lecture helps to understand how the properties of forgings evolve during the manufacturing proc...
This lecture provides background, basic information on mechanical properties and testing, solidifica...
This lecture describes the characteristics of brazing aluminium and the process involved; it helps t...
This lecture provides sufficient information on the extrusion of aluminum and the performance of ext...
This lecture helps to understand the basic principles of die forging and the characteristic features...
This lecture gives a brief introduction to friction, explosive and ultrasonic welding techniques of ...
This lecture describes the fundamentals of the superplastic behaviour phenomenon of aluminium alloys...
This lecture offers an example of product development. It imparts knowledge about rolling aluminium;...
This lecture describes the spot welding characteristics of aluminium and its alloys, the spot weldin...
In general, aluminium alloys have excellent machining properties compared with other common engineer...
This lecture provides a survey of the aluminium alloys available to the user; it describes their var...
This lecture describes the important factors governing weldability of aluminium, such as influence o...