Professor Ivan Cole
Professor
Details
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College: School of Engineering
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Department: School of Engineering
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Campus: City Campus Australia
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ivan.cole@rmit.edu.au
Open to
- Media enquiries
- Masters Research or PhD student supervision
About
A leader in rapid discovery of materials applied to corrosion protection, nanostructures, and additive manufacturing, and combining computational materials discovery & analysis with high-throughput experimentation
Professor Cole's focus is on the discovery of new materials & processes using rapid & innovative methods. These methods combine computational materials modelling & high-throughput experimental research. The foci are on corrosion protection systems, biocompatible surfaces, nanostructures for sensing and catalytic activity, and both the refinement of metal additive manufacturing processes and the surface & surface functionalities of additive components. Professor Cole has over 30 years’ experience in research in Academia, Industry, and CSIRO, and is a recognised world leader in corrosion science & multiscale modelling of corrosion & inhibition. Prof. Cole formed & grew the Rapid Discovery & Fabrication Team (RDF) to provide the critical mass to drive this research agenda. As such, Prof. Cole is extremely active in higher degree supervision and in the development of research projects & programmes.
Professor Cole’s current work on corrosion focuses on the discovery of new inhibitors & microbially induced corrosion (MIC). The inhibitor work combines computational modelling with rapid experimentation, via robotic electrochemistry, to define the molecular features that promote effect inhibition and then to use these features to scan databases for new potential inhibitors. The MIC research is focused on new laboratory methods to replicate accurately the conditions that occur in service (currently for components embedded in soil), and on innovative methods such as Quorum Sensing Inhibitors to restrict biofilm growth. Parallel to this work, the RDF Team has a strong focus on the biocompatibility & degradation of human implants.
His work on additive manufacturing has two components. The first aims to integrate in-situ sensing & modelling of metal additive manufacturing to built virtual replicas of the same process that guide process settings & process feedback to maximize the quality of builds. The second studies the quality & biocompatibility of additive surfaces in order to estimate & improve the component functionality in service. The nanostructure work is focused on the design & fabrication of nano-dots whose surface properties are optimized for fluorescence-based sensing and catalytic reactions. The application of the nanostructure work is in both the environmental & biomedical domain.
As indicated above, all Prof. Cole’s work integrates computational modelling with experimentation. The modelling work focuses on multiscale modelling to integrate molecular features & structures with properties such as electrochemical activity that manifest themselves at larger-scale domains conventionally modelled using continuum viewpoints & analysis methods. A particular focus is how to bridge this nano-gap between molecular & continuum process with an emphasis on developing computational tools that fill this space and in developing machine learning or quantitative structure-activity relationships to cross the length scale gap. A second focus of the modelling work is the integration & synthesis of data-driven process models & physics-based process models.
Industry experience:
-1991 - 2016 - Various Positions within CSIRO, including Chief Research Scientist, Deputy Chief, and Acting Chief, during which Ivan worked with >50
local & international companies with a net external income of over $20,000,000.
-1988-1991 - Team Leader with Centro-Svilluppo Materiali (Centre for Materials Development). A part of ILVA, the Italian State-Owned Steel Company.
Awards:
2019:
Australian Corrosion Association - Corrosion Medal
(https://membership.corrosion.com.au/blog/the-corrosion-medal/)
2016:
CSIRO Lifetime Achievement Award
2013:
Best Paper in NACE Corrosion
2012:
CSIRO CMSE Chief Award For Science
2011:
Kruger Visiting Chair , University of Virginia –School of Material Science
2010:
CSIRO Newton-Turner Award (for exceptional Senior scientists at CSIRO)
2009:
Monash Materials Engineering, Alumni of the Year
2008:
Royal College of Engineers (UK), Distinguished Visiting Fellow
Silver Boeing Performance Excellence Award (Team award)
2006:
Forestry Products Society (US), Wood Engineering Achievement Awarda
2004:
UK Institute of Metals, Minerals and Mining, Guy Bengough Award for Contribution to Corrosion Science
2002:
BAE Systems Chairman’s Award for Innovation, Silver Medal
2001:
ITDI (Philippines), 60th Anniversary International Collaboration Medal
1998:
CIB WG80, Best Paper Award
Professor Cole's focus is on the discovery of new materials & processes using rapid & innovative methods. These methods combine computational materials modelling & high-throughput experimental research. The foci are on corrosion protection systems, biocompatible surfaces, nanostructures for sensing and catalytic activity, and both the refinement of metal additive manufacturing processes and the surface & surface functionalities of additive components. Professor Cole has over 30 years’ experience in research in Academia, Industry, and CSIRO, and is a recognised world leader in corrosion science & multiscale modelling of corrosion & inhibition. Prof. Cole formed & grew the Rapid Discovery & Fabrication Team (RDF) to provide the critical mass to drive this research agenda. As such, Prof. Cole is extremely active in higher degree supervision and in the development of research projects & programmes.
Professor Cole’s current work on corrosion focuses on the discovery of new inhibitors & microbially induced corrosion (MIC). The inhibitor work combines computational modelling with rapid experimentation, via robotic electrochemistry, to define the molecular features that promote effect inhibition and then to use these features to scan databases for new potential inhibitors. The MIC research is focused on new laboratory methods to replicate accurately the conditions that occur in service (currently for components embedded in soil), and on innovative methods such as Quorum Sensing Inhibitors to restrict biofilm growth. Parallel to this work, the RDF Team has a strong focus on the biocompatibility & degradation of human implants.
His work on additive manufacturing has two components. The first aims to integrate in-situ sensing & modelling of metal additive manufacturing to built virtual replicas of the same process that guide process settings & process feedback to maximize the quality of builds. The second studies the quality & biocompatibility of additive surfaces in order to estimate & improve the component functionality in service. The nanostructure work is focused on the design & fabrication of nano-dots whose surface properties are optimized for fluorescence-based sensing and catalytic reactions. The application of the nanostructure work is in both the environmental & biomedical domain.
As indicated above, all Prof. Cole’s work integrates computational modelling with experimentation. The modelling work focuses on multiscale modelling to integrate molecular features & structures with properties such as electrochemical activity that manifest themselves at larger-scale domains conventionally modelled using continuum viewpoints & analysis methods. A particular focus is how to bridge this nano-gap between molecular & continuum process with an emphasis on developing computational tools that fill this space and in developing machine learning or quantitative structure-activity relationships to cross the length scale gap. A second focus of the modelling work is the integration & synthesis of data-driven process models & physics-based process models.
Industry experience:
-1991 - 2016 - Various Positions within CSIRO, including Chief Research Scientist, Deputy Chief, and Acting Chief, during which Ivan worked with >50
local & international companies with a net external income of over $20,000,000.
-1988-1991 - Team Leader with Centro-Svilluppo Materiali (Centre for Materials Development). A part of ILVA, the Italian State-Owned Steel Company.
Awards:
2019:
Australian Corrosion Association - Corrosion Medal
(https://membership.corrosion.com.au/blog/the-corrosion-medal/)
2016:
CSIRO Lifetime Achievement Award
2013:
Best Paper in NACE Corrosion
2012:
CSIRO CMSE Chief Award For Science
2011:
Kruger Visiting Chair , University of Virginia –School of Material Science
2010:
CSIRO Newton-Turner Award (for exceptional Senior scientists at CSIRO)
2009:
Monash Materials Engineering, Alumni of the Year
2008:
Royal College of Engineers (UK), Distinguished Visiting Fellow
Silver Boeing Performance Excellence Award (Team award)
2006:
Forestry Products Society (US), Wood Engineering Achievement Awarda
2004:
UK Institute of Metals, Minerals and Mining, Guy Bengough Award for Contribution to Corrosion Science
2002:
BAE Systems Chairman’s Award for Innovation, Silver Medal
2001:
ITDI (Philippines), 60th Anniversary International Collaboration Medal
1998:
CIB WG80, Best Paper Award
Non-academic positions
- Chief Research Scientist, Deputy Chief, and Acting Chief
- Commonwealth Scientific and Industrial Research Organisation
- Canberra, Australia
- 1991 – 2016
- Team Leader
- Centro Sviluppo Materiali (Italy)
- Rome, Italy
- 1988 – 1991
Supervisor projects
- Predictive Modeling of Electrode-Electrolyte Aging Using Chemistry-Informed Machine Learning Techniques
- 13 Feb 2024
- Discovery of new inhibitors for steel
- 3 Jan 2024
- Maintenance decision support for predicted composite impact damage events
- 21 Dec 2023
- Biological Flue-Gas Desulfurization (BIO-FGD): An Eco- Friendly Biotechnological Approach for Disposal of SO, Generated In Industries.
- 14 Dec 2023
- Design and development of self-cleaning coatings for solar panels
- 5 Dec 2023
- Development of Novel Composite Coating Materials for Corrosion Prevention in Concrete Sewer Structures
- 30 Nov 2023
- Study of residual stresses and microstructure development during the fabrication of light alloys
- 19 Oct 2023
Preparation and Application on the Firefighter's Protective Systems of Octadecane Encapsulated by Nano-SiO2-PI
- 8 Oct 2023
- Modelling the performance of metals and coated metals in the service and accelerated tests for rapid design and qualification
- 8 Jun 2023
- RMIT/CSIRO Next-Gen Masters - Robust Inspection Approaches based on IoT and Machine Learning
- 1 Jun 2023
- CSIRO - Detection of Defects in Additive Manufacturing
- 1 May 2023
- Computational design of environmentally clean and non-toxic corrosion inhibitors
- 20 Apr 2023
- Optimising the cost of owning and operating centralised chilled water plants
- 23 Mar 2023
- Self-Healing organic coatings: the delaminated interface
- 16 Mar 2023
- Advanced surface technology to optimise 3D printed biomedical implants
- 1 Mar 2023
- A fundamental study of electrochemical impedance spectroscopy (EIS) with respect to modeling green corrosion inhibitors and coatings on metals
- 11 Jan 2023
- Application of nanomaterials for use in sensing and remediation of biological and chemical contaminants in the environment
- 14 Dec 2022
- REDI ICN2-DC1: Theoretical and Computational Nanoscience
- 14 Oct 2022
- Multi-objective optimisation of additively manufactured components subject to multiphysics loading
- 18 Aug 2022
- Discovery of new inhibitors for steel: Effect of droplets
- 11 Apr 2022
- Surface Properties of components formed by Additive/Subtractive manufacturing
- 21 Jan 2022
- Integration of Sensor Data With Computational Fluid Dynamics Simulations To Improve Workplace Safety From Airborne Pathogens
- 3 Sep 2021
- Analysing the Powder Properties and Spreadability of a Ti-Ta Blend in a Powder Bed Fusion System
- 15 Mar 2021
- Towards the Fabrication of Titanium Aerospace Structural Components via Cold Spray Additive Manufacturing
- 16 Feb 2021
- Vision Systems for Processes Control in Metal Additive Manufacturing
- 6 Jan 2021
- Exploratory Analysis of the Use of Real-Time 4D Reconstruction During Cold Spray Additive Manufacturing
- 13 Nov 2020
- Corrosion Inhibition of 6xxx Aluminium Alloys and Mechanisms of Film Formation
- 22 Sep 2020
- BioFabrication of a Vascular Tissue Flap
- 20 Jul 2020
- Development of Antibacterial Coatings with Ingredients from Herb Pharmacy
- 1 Jun 2020
- Optimising the Surface Condition of 3D additive manufactured implants
- 1 May 2020
- Advanced Corrosion Modelling: An Atomistic Approach To Describe the Corrosion Inhibition Process
- 20 Mar 2020
- Localising Color Centers in Silicon Carbide towards Quantum Technologies
- 3 Mar 2020
- Cutting Tool Development Using a Novel Non-traditional Manufacturing Process
- 4 Oct 2019
- Corrosion Inhibition Assessment for 5xxx Series Aluminium Alloy Using Droplet Evaluation Technique
- 22 Sep 2019
- Techno-economic Analysis of Conformal Tooling via Hybrid Manufacturing
- 18 Sep 2019
- Fast Discovery Methods for Green Corrosion Inhibitors to Galvanised Steel
- 25 Jun 2019
- Catalytic Remediation of Dyes by Tailored Carbon Dots in Water – Efficiency, Ecotoxicity and Microbial Community Aspects
- 13 May 2019
- Design and Development of Corrosion-resistant and Antibacterial Coatings upon Mg Alloys for Orthopaedic Applications
- 10 Apr 2019
- Factors affecting microbiologically influenced corrosion of carbon steel exposed to agar media
- 31 Jan 2019
- Cold Spray of High-performance Titanium and Titanium Alloys
- 21 Nov 2018
- In-Situ Monitoring of Laser Metal Deposition for Additive Manufacturing
- 29 Oct 2018
- Studies on Film Forming Corrosion Inhibitors on Aluminium Alloy, AA2024-T3
- 2 Jul 2018
- Validating an Agar System to Mimic Soil for Microbiologically Influenced Corrosion of Pipeline Steel
- 1 Mar 2018
- Ru/ZrO2-based Catalysts for CO2 Hydrogenation and Investigation on Reaction Mechanism
- 7 Sep 2017
- Boron-based Cations and Anions as Ionic Liquid Electrolyte Components for Rechargeable Lithium Metal Batteries
- 4 Sep 2017
- Development of Coumarins and their Composites as Optical Sensors for Cu2+ Contaminants in Water and Soil
- 1 Aug 2017
- Novel Fast Manufacturing Approaches for Biocompatible Structures
- 15 Jun 2017
- Study of Airflow Phenomena in the Human Respiratory System. Prediction of Obstructive Sleep Apnoea via Computational Fluid Dynamics, Structural Mechanics, and Fluid-Structure Interaction Techniques
- 11 Apr 2017
- Novel liquid phase routes for the synthesis of metal sulphide nanomaterials and their thin films
- 17 Feb 2015
- Investigating novel synthesis, optical properties and applications of model 2D semiconducting nanocrystals
- 17 Feb 2014
Teaching interests
Supervisor interest areas:
-Corrosion & Corrosion Protection including Corrosion Modelling, Oxide Formation and Passivation, Inhibitor Discovery and Mechanism, and Microbially Induced Corrosion
-Nano-Structures including Nano-dots as sensors and catalysts
-Additive Manufacturing including an emphasis on the use of sensing to refine the additive process, surface properties, and biocompatibility
-Modelling with a focus on multiscale modelling for rapid discovery and life prediction
Supervisor projects:
Corrosion & Corrosion Prediction:-
As Principal Supervisor-
-Discovery of New Corrosion Inhibitors - Effect of Droplets - Chathumini Samarawickrama
-Fast discovery of green inhibitors for Zinc - Qiushi Deng
-Corrosion Inhibition Studies of 6xxx Aluminium Alloys & Mechanisms of Film Formation - Jakeria Mohd. Rafiuddin
-Rapid evaluation assessment of corrosion inhibitors - Karim Gamaleldin
As Associate-
-A Semi-Solid Agar Based Test System Mimicking Soil Environment for Studies of Microbiologically Influenced Corrosion (MIC) of Pipeline Steel - Kai Rui Wang
-Design & Development of Corrosion-Resistant & Antibacterial Coatings upon Mg alloys for Orthopaedic Applications - Ming-Shi Song
-Stress Corrosion Cracking of Additively Manufactured Passive Metals for Biomedical Applications - Shrinivas Kulkarni
-Development of Antibacterial Coatings with Ingredients from Herb Pharmacy - Vijay Sisarwal
-MIC in soil using agar system - Asma Lamin
Additive Manufacturing:-
As Principal Supervisor-
-Cutting Tool Development Using a Novel Non-traditional Manufacturing Process - Aaqil Sameem
-Additively Manufactured Titanium Complex Structures - Magdi Morks
-In-situ Monitoring of Laser Metal Deposition for Additive Manufacturing - Jiayu Ye
As Co-Supervisor-
-Towards the Fabrication of Aerospace Components using Cold Spray Additive Manufacturing - Felix Lomo
-Defects in Additive Manufacturing - Sana Awan
-Measurement of Powder Spreadability in Electron Beam Melting (EBM) Powder Bed Fusion(PBF) Systems - Tanushi De Silva
-Vision-Based Process Control in Robotic Metal Additive Manufacturing - Subash Gautam
-3D Transient Thermal Finite Element Modelling of AlSi10Mg Alloy to Develop Correlations Between Process Parameters & Microstructural Evolution Muhammad Azhar Shahzad
-Exploratory Analysis of the Use of Simultaneous Localisation and Mapping (SLAM) during Cold Spray Additive Manufacturing - Sun Yeang Chew
Nanostructures:-
As Principal Supervisor-
-Synthesis of dots from biowaste for nanobioremediation - Sabrina Beker
-Nanostructures for enhancing photocatalytic activity - Jiajia Zhao
As Associate Supervisor-
-Fabrication of Multifunctional Fluorescent Quantum Dots of Silicon Carbide for Magnetic Resonance Imaging in Biological Samples - Ahmed Fahad M Almutairi
Modelling:-
As Principal Supervisor-
-Prediction of Electrochemical Processes at Aqueous-Metal Interfaces from a Molecular Viewpoint - José María Castillo Robles
-Conformal Tooling via Additive Manufacture - Neil Wilson
As Associate-
-System Integration to Ensure Workplaces Safe from Airborne Pathogens - Ayush Ranjan
Programs:
Engineering
(https://www.rmit.edu.au/study-with-us/engineering)
-Corrosion & Corrosion Protection including Corrosion Modelling, Oxide Formation and Passivation, Inhibitor Discovery and Mechanism, and Microbially Induced Corrosion
-Nano-Structures including Nano-dots as sensors and catalysts
-Additive Manufacturing including an emphasis on the use of sensing to refine the additive process, surface properties, and biocompatibility
-Modelling with a focus on multiscale modelling for rapid discovery and life prediction
Supervisor projects:
Corrosion & Corrosion Prediction:-
As Principal Supervisor-
-Discovery of New Corrosion Inhibitors - Effect of Droplets - Chathumini Samarawickrama
-Fast discovery of green inhibitors for Zinc - Qiushi Deng
-Corrosion Inhibition Studies of 6xxx Aluminium Alloys & Mechanisms of Film Formation - Jakeria Mohd. Rafiuddin
-Rapid evaluation assessment of corrosion inhibitors - Karim Gamaleldin
As Associate-
-A Semi-Solid Agar Based Test System Mimicking Soil Environment for Studies of Microbiologically Influenced Corrosion (MIC) of Pipeline Steel - Kai Rui Wang
-Design & Development of Corrosion-Resistant & Antibacterial Coatings upon Mg alloys for Orthopaedic Applications - Ming-Shi Song
-Stress Corrosion Cracking of Additively Manufactured Passive Metals for Biomedical Applications - Shrinivas Kulkarni
-Development of Antibacterial Coatings with Ingredients from Herb Pharmacy - Vijay Sisarwal
-MIC in soil using agar system - Asma Lamin
Additive Manufacturing:-
As Principal Supervisor-
-Cutting Tool Development Using a Novel Non-traditional Manufacturing Process - Aaqil Sameem
-Additively Manufactured Titanium Complex Structures - Magdi Morks
-In-situ Monitoring of Laser Metal Deposition for Additive Manufacturing - Jiayu Ye
As Co-Supervisor-
-Towards the Fabrication of Aerospace Components using Cold Spray Additive Manufacturing - Felix Lomo
-Defects in Additive Manufacturing - Sana Awan
-Measurement of Powder Spreadability in Electron Beam Melting (EBM) Powder Bed Fusion(PBF) Systems - Tanushi De Silva
-Vision-Based Process Control in Robotic Metal Additive Manufacturing - Subash Gautam
-3D Transient Thermal Finite Element Modelling of AlSi10Mg Alloy to Develop Correlations Between Process Parameters & Microstructural Evolution Muhammad Azhar Shahzad
-Exploratory Analysis of the Use of Simultaneous Localisation and Mapping (SLAM) during Cold Spray Additive Manufacturing - Sun Yeang Chew
Nanostructures:-
As Principal Supervisor-
-Synthesis of dots from biowaste for nanobioremediation - Sabrina Beker
-Nanostructures for enhancing photocatalytic activity - Jiajia Zhao
As Associate Supervisor-
-Fabrication of Multifunctional Fluorescent Quantum Dots of Silicon Carbide for Magnetic Resonance Imaging in Biological Samples - Ahmed Fahad M Almutairi
Modelling:-
As Principal Supervisor-
-Prediction of Electrochemical Processes at Aqueous-Metal Interfaces from a Molecular Viewpoint - José María Castillo Robles
-Conformal Tooling via Additive Manufacture - Neil Wilson
As Associate-
-System Integration to Ensure Workplaces Safe from Airborne Pathogens - Ayush Ranjan
Programs:
Engineering
(https://www.rmit.edu.au/study-with-us/engineering)
Research interests
Over thirty years' experience and an internationally recognized leader in the field of life prediction, prognostics, and design of engineered structures, specializing in Computational Materials Modeling (incl. geographical information systems - GIS), impact of & adaptation to climate change, sensor systems, and corrosion science & protective coatings. His work has included the development of IT systems for damage prognostics, IT systems to predict flood damage alongside design guides to minimize such damage, the development of protective coatings for metals and the development of green alternative materials, and micro- and nano-sensing. They have led major projects in intelligent vehicle heath monitoring (IVHM) for aerospace applications, nano-sensing for water quality, development of new coatings for galvanized steel and aluminum and the consequential relationship between building design/climate and component life, and the development of performance-based guidance standards and codes for durable buildings. They have made a significant contribution to the application of building science & material science to the conservation of cultural artefacts.
Research keywords:
Computational Materials, Life Prediction, Corrosion, Inhibitors, Nanostructures, Sensing, Surfaces, Coatings, Additive Manufacturing, Biocompatibility
Research keywords:
Computational Materials, Life Prediction, Corrosion, Inhibitors, Nanostructures, Sensing, Surfaces, Coatings, Additive Manufacturing, Biocompatibility
