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John Forster

John Forster

University of Toronto

H-index: 11

North America-Canada

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About John Forster

John Forster, With an exceptional h-index of 11 and a recent h-index of 11 (since 2020), a distinguished researcher at University of Toronto, specializes in the field of Microwave Assisted Comminution and Ore Sorting.

His recent articles reflect a diverse array of research interests and contributions to the field:

Technological and economic considerations for the application of combined microwave assisted comminution and multi-sensor ore sorting

Towards Microwave-Assisted Comminution of a Volcaniclastic Kimberlite: Permittivities, Heating Behaviour, and Grindability

Dielectric properties of minerals and ores and the application of microwaves for assisted comminution and ore sorting

Efficacy of sustainable polymers to mitigate the negative effects of anisotropic clay minerals in flotation and dewatering operations

Surface interaction between phyllosilicate particles and sustainable polymers in flotation and flocculation

High-Temperature microwave properties and phase transitions of ultramafic nickel ores

Mineral carbonation for serpentine mitigation in nickel processing: a step towards industrial carbon capture and storage

Temperature, frequency and compositional dependencies of the permittivities of hydroxide minerals

John Forster Information

University

Position

___

Citations(all)

433

Citations(since 2020)

343

Cited By

199

hIndex(all)

11

hIndex(since 2020)

11

i10Index(all)

12

i10Index(since 2020)

12

Email

University Profile Page

Google Scholar

John Forster Skills & Research Interests

Microwave Assisted Comminution and Ore Sorting

Top articles of John Forster

Technological and economic considerations for the application of combined microwave assisted comminution and multi-sensor ore sorting

Minerals Engineering

2024/3/1

Towards Microwave-Assisted Comminution of a Volcaniclastic Kimberlite: Permittivities, Heating Behaviour, and Grindability

2023/8/21

Dielectric properties of minerals and ores and the application of microwaves for assisted comminution and ore sorting

2023

Efficacy of sustainable polymers to mitigate the negative effects of anisotropic clay minerals in flotation and dewatering operations

Cleaner Engineering and Technology

2022/6/1

Surface interaction between phyllosilicate particles and sustainable polymers in flotation and flocculation

RSC advances

2022

Mohammad Shoaib
Mohammad Shoaib

H-Index: 3

John Forster
John Forster

H-Index: 8

High-Temperature microwave properties and phase transitions of ultramafic nickel ores

Minerals Engineering

2021/10/1

Mineral carbonation for serpentine mitigation in nickel processing: a step towards industrial carbon capture and storage

Faraday Discussions

2021

Mohammad Shoaib
Mohammad Shoaib

H-Index: 3

John Forster
John Forster

H-Index: 8

Temperature, frequency and compositional dependencies of the permittivities of hydroxide minerals

Minerals Engineering

2021/12/1

Microwave fragmentation of a synthetic alundum-pyrite ore

Mineral Processing and Extractive Metallurgy

2020/9

Investigating the microwave heating behaviour of pyrrhotite tailings

Minerals Engineering

2020/1/15

High temperature permittivity measurements of selected industrially relevant ores: Review and analysis

2020/1/1

See List of Professors in John Forster University(University of Toronto)