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Comparison of linear and square superposition hardening models for the surface nanoindentation of ion-irradiated materials - ScienceDirect
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Predicting rock type and detecting hydrothermal alteration using machine learning and petrophysical properties of the Canadian Malartic ore and host rocks, Pontiac Subprovince, Québec, Canada - ScienceDirect
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Predicting rock type and detecting hydrothermal alteration using machine learning and petrophysical properties of the Canadian Malartic ore and host rocks, Pontiac Subprovince, Québec, Canada - ScienceDirect
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Predicting rock type and detecting hydrothermal alteration using machine learning and petrophysical properties of the Canadian Malartic ore and host rocks, Pontiac Subprovince, Québec, Canada - ScienceDirect
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Predicting rock type and detecting hydrothermal alteration using machine learning and petrophysical properties of the Canadian Malartic ore and host rocks, Pontiac Subprovince, Québec, Canada - ScienceDirect
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Comparison of linear and square superposition hardening models for the surface nanoindentation of ion-irradiated materials - ScienceDirect
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Comparison of linear and square superposition hardening models for the surface nanoindentation of ion-irradiated materials - ScienceDirect
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Comparison of linear and square superposition hardening models for the surface nanoindentation of ion-irradiated materials - ScienceDirect
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Predicting rock type and detecting hydrothermal alteration using machine learning and petrophysical properties of the Canadian Malartic ore and host rocks, Pontiac Subprovince, Québec, Canada - ScienceDirect
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Predicting rock type and detecting hydrothermal alteration using machine learning and petrophysical properties of the Canadian Malartic ore and host rocks, Pontiac Subprovince, Québec, Canada - ScienceDirect
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Predicting rock type and detecting hydrothermal alteration using machine learning and petrophysical properties of the Canadian Malartic ore and host rocks, Pontiac Subprovince, Québec, Canada - ScienceDirect
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