This study investigates the origin of the attachment of metal droplets to solid spinel particles in liquid slags. Previous research hinted a reactive origin: the spinel particles form by a chemical reaction together with a new droplet or alongside a droplet that was already present in the system. In this study, a smelting experiment was used to investigate this hypothesis. For such a mechanism study, a simple chemical system was used to avoid complex reactions. However, performing smelting experiments in simple slag systems requires an adaptation of the previously developed experimental methodology, resulting in a new ‘partial melting’ methodology. During the experiment, the atmosphere of the system was first set as oxidative, to dissolve ...
The generation of metal droplets and their reactions in slag are an important aspect of modern smelt...
Metal droplet losses in slags are an important issue in copper industry. One significant aspect that...
The loss of metal droplets in slags due to insufficient phase separation has to be avoided as much a...
This study investigates the origin of the attachment of metal droplets to solid spinel particles in ...
Both primary and secondary copper production encounter a limitation in the process efficiency due to...
In both primary and secondary copper production, copper losses in slags are a decisive factor confin...
An important cause for the mechanical entrainment of copper droplets in slags during primary and sec...
Pyrometallurgical industries encounter production losses due to the attachment of metallic droplets ...
Metallic droplets can remain attached to solid particles within liquid slags, resulting in productio...
Metal droplets sticking to spinel solids, present in metallurgical slag systems, play an important r...
Cu-droplet losses in slags are an important problem in Cu-industry, limiting the metal recovery. An ...
Copper is one of the first metals ever extracted and used by mankind. Due to its excellent propertie...
Metallic droplets can be attached to solids in slags, resulting in insufficient decantation and even...
Metallic droplets can remain attached to solid particles within liquid slags, resulting in productio...
Slags play an essential role in pyrometallurgical processes acting as collectors for specific groups...
The generation of metal droplets and their reactions in slag are an important aspect of modern smelt...
Metal droplet losses in slags are an important issue in copper industry. One significant aspect that...
The loss of metal droplets in slags due to insufficient phase separation has to be avoided as much a...
This study investigates the origin of the attachment of metal droplets to solid spinel particles in ...
Both primary and secondary copper production encounter a limitation in the process efficiency due to...
In both primary and secondary copper production, copper losses in slags are a decisive factor confin...
An important cause for the mechanical entrainment of copper droplets in slags during primary and sec...
Pyrometallurgical industries encounter production losses due to the attachment of metallic droplets ...
Metallic droplets can remain attached to solid particles within liquid slags, resulting in productio...
Metal droplets sticking to spinel solids, present in metallurgical slag systems, play an important r...
Cu-droplet losses in slags are an important problem in Cu-industry, limiting the metal recovery. An ...
Copper is one of the first metals ever extracted and used by mankind. Due to its excellent propertie...
Metallic droplets can be attached to solids in slags, resulting in insufficient decantation and even...
Metallic droplets can remain attached to solid particles within liquid slags, resulting in productio...
Slags play an essential role in pyrometallurgical processes acting as collectors for specific groups...
The generation of metal droplets and their reactions in slag are an important aspect of modern smelt...
Metal droplet losses in slags are an important issue in copper industry. One significant aspect that...
The loss of metal droplets in slags due to insufficient phase separation has to be avoided as much a...