A phase field model is developed to consider the attachment of metal droplets to solid particles in liquid slags, which could lead to production losses in metal industries. The influences of interfacial energies and particle morphology on the attachment are investigated. A comparison with experimental micrographs indicates a low wettability regime for the experimental system.status: publishe
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 ...
The loss of metal droplets in slags due to insufficient phase separation has to be avoided as much a...
A phase field model is developed to consider the attachment of metal droplets to solid particles in ...
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...
Metallic droplets can remain attached to solid particles within liquid slags, resulting in productio...
A variety of pyrometallurgical industries encounters production losses due to the mechanical entrain...
Pyrometallurgical industries encounter production losses due to the attachment of metallic droplets ...
This study investigates the origin of the attachment of metal droplets to solid spinel particles in ...
Metal droplet losses in slags are an important issue in copper industry. One significant aspect that...
In both primary and secondary copper production, copper losses in slags are a decisive factor confin...
A project studied wetting of iron, nickel and platinum by molten MnO-SiO2 (MS) and CaO-Al2O3-SiO2 (C...
Metal droplet losses in slags are an important issue in copper industry. One significant aspect that...
Both primary and secondary copper productions encounter a limitation in the process efficiency due t...
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 ...
The loss of metal droplets in slags due to insufficient phase separation has to be avoided as much a...
A phase field model is developed to consider the attachment of metal droplets to solid particles in ...
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...
Metallic droplets can remain attached to solid particles within liquid slags, resulting in productio...
A variety of pyrometallurgical industries encounters production losses due to the mechanical entrain...
Pyrometallurgical industries encounter production losses due to the attachment of metallic droplets ...
This study investigates the origin of the attachment of metal droplets to solid spinel particles in ...
Metal droplet losses in slags are an important issue in copper industry. One significant aspect that...
In both primary and secondary copper production, copper losses in slags are a decisive factor confin...
A project studied wetting of iron, nickel and platinum by molten MnO-SiO2 (MS) and CaO-Al2O3-SiO2 (C...
Metal droplet losses in slags are an important issue in copper industry. One significant aspect that...
Both primary and secondary copper productions encounter a limitation in the process efficiency due t...
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 ...
The loss of metal droplets in slags due to insufficient phase separation has to be avoided as much a...