Find out the technological developments, inventions, new materials and dissemination activities developed by the AZTERLAN team.
Statistical Analysis of the Influence of Some Trace elements on Chunky Graphite Formation in Heavy Section Nodular Iron Castings
To study the formation of chunky graphite (CHG) in heavy section castings, 68 nodular cast irons of both pearlitic and
Influence of 1 wt-% addition of Ni on structural and mechanical properties of ferritic ductile irons
Two sets of ductile irons with and without Ni additions containing various low Si contents have been prepared in order
Critical temperature range in standard and Ni-bearing spheroidal graphite cast irons
Describing the conditions for reaustenitization of spheroidal graphite cast irons is of interest for theirheat-treatment after casting, e.g. for manufacturing
Optimization of chemical bonded sand moulds for big size cast components. Reduction of manufacturing costs
The production of big size cast components to accomplish the demanding market requirements requires advanced design concepts, a proper metallurgical
Gray Cast iron with high austenite to eutectic ratio. Part III. High strength, low hardness, high carbon equivalent gray iron with superfine graphite
The standard methods to increase the mechanical properties of gray cast iron include the use of a lower carbon equivalent
Gray cast iron with high austenite-to eutectic ratio. Part II. Increasing the austenite-to eutectic ratio trough inoculation
A higher amount of primary austenite in the microstructure of gray iron typically results in higher strength, if the pearlite-to-ferrite
Gray cast iron with high austenite to eutectic ratio. Part I. Calculation and experimental evaluation of the fraction of primary austenite in cast iron
The amount of primary austenite at the end of solidification in the microstructure of cast iron has a direct impact
Influence of wt.% addition of Ni on the structural and mechanical properties of ferritic ductile irons
Two sets of ductile irons with and without Ni additions containing various low Si contents have been prepared in order
Experimental evidence of metallurgical modification associated to chunky graphite in heavy section ductile iron castings
Heavy-section castings made of spheroidal graphite cast irons are known to be prone to graphite degeneracy. Upon the various degenerate
Relationship between casting modulus and grain size in cast A356 aluminium alloys
Microstructure of Al-Si alloy castings depends most generally on melt preparation and on the cooling rate imposed by the thermal
Effect of various dopant elements on primary graphite growth
Five spheroidal graphite cast irons were investigated, a usual ferritic grade and four pearlitic alloys containing Cu and doped with
Effect of alloying on mechanical properties of as-cast ferritic nodular cast irons
The development of low temperature applications for ferritic nodular cast irons calls for improved materials in the as cast state,
Chunky graphite formation in small section ductile iron castings
Chunky graphite is a degenerated graphite form which can be found in the thermal centre of ductile iron heavysection castings.
Influence of the chemical composition of different steel scraps on the mechanicalproperties of ductile iron
Different commercial steel scraps have been selected so as to analyse the outcome of their use as raw materials andto
Improved Analytical Method for Chemical Analysis of Cast Irons Application to Castings with Chunky Graphite
Chunky graphite is a particular form of graphite degeneracy that appears in the centre of large iron castings, with a
Design of a mould for the study of the relationship between thermal analysis results and microstructure of aluminium alloy A357 in investment casting
Melt treatment of aluminium alloys is essential for optimizing their mechanical properties. Thermal analysis methods usually used as control are