Hydrogen ion concentrations in ore pulps

Brooks, Theodore Thomas, 1917-

January 1943

No description available.

Hydrogen-ion concentration.

Flotation.

Possibility of structure in projectile fragmentation in high energy heavy ion reactions

Peyrow, Mehrzad.

January 1982

No description available.

Heavy ion collisions.

Removal of iron by ion exchange from copper electrowinning electrolyte solutions containing antimony and bismuth

McKevitt, Bethan Ruth

05 1900

In order to increase the current efficiency in copper electrowinning tankhouses, iron can be removed from the electrolyte using ion exchange. While this is a proven technology, very little data is available for the application of this technology to copper electrowinning electrolytes containing antimony and bismuth. The feasibility of utilizing iron ion exchange for the removal of iron from copper electrowinning electrolytes containing antimony and bismuth was studied in the laboratory. A picolylamine, a sulphonated diphosphonic, an aminophosphonic and three sulphonated monophosphonic resins were tested. The picolylamine resin was found to be completely impractical as it loaded high levels of copper. All the phosphonic resins tested loaded an appreciable amount of antimony, however, only the aminophosponic resin loaded an appreciable amount of bismuth. Tests to determine whether or not the sulphonated monophosphonic Purolite 5957 resin would continue to load antimony with time and, hence, reduce the resin's ability to remove iron gave inconclusive results. In the event that the resin's ability to remove iron is hampered due to antimony loading, testing has shown that the resin performance may be restored via a regeneration with a solution containing sulphuric acid and sodium chloride. A case study for the application of this technology to the CVRD Inco CRED plant has shown that, while iron removal by ion exchange is technically feasible, it will upset the plant's acid balance in electrolyte. Therefore, an acid removal process would need to be implemented in tandem with an iron ion exchange system. Additionally, preliminary calculations suggest that a system with a single ion exchange column may have difficulty removing sufficient iron for the CRED design conditions. Therefore, consideration should be given to the possibility of utilizing a two column system (one column loading, one column stripping).

Ion exchange

Electrowinning

Tankhouses

Mechanism studies of fast atom bombardment mass spectrometry

Yin, Jian

12 1900

No description available.

Mass spectrometry

Ion bombardment

Formation of fast neutrals in collisions of KeV ions with target molecules

Harbol, Kevin Lee

12 1900

No description available.

Ion bombardment

Ions Scattering

A new apparatus for ion beam tritiation of biochemicals

Richardson, Brett Clyde

12 1900

No description available.

Ion bombardment

Mass spectrometry

Auger spectra induced by noble gas ion impact on Mg, Al, and Si

Whaley, Ray Stewart

05 1900

No description available.

Auger effect

Ion bombardment

The effect of surface modification by ion implantation on the fatigue behavior in metastable B-phase Ti-24V alloy

Han, Jeon Geon

12 1900

No description available.

Alloys Fatigue

Ion implantation

Equilibria and hadron multiplicities in heavy-ion collisions

Maso, A. C. P.

January 1984

The intranuclear cascade is an approximate microscopic model of heavy-ion collisions in which the space-time evolution of the nucleons is followed as they collide with one another. This model is used: (a) to test the validity of simpler models as the two-fireball model; (b) to estimate the validity of the assumption of chemical equilibrium and to calculate the total pion production cross-sections; (c) to investigate the average primordial charge multiplicity and the number of participants as a function of the beam energy.

Heavy ion collisions.

A study of the strengthening of glass by ionic diffusion.

Petty, Arthur Vernon

12 1900

No description available.

Glass Testing

Ion exchange