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Tim Hilditch

Tim Hilditch

Deakin University

H-index: 27

Oceania-Australia

About Tim Hilditch

Tim Hilditch, With an exceptional h-index of 27 and a recent h-index of 22 (since 2020), a distinguished researcher at Deakin University,

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

Effect of microstructure on hydrogen embrittlement and hydrogen-induced cracking behaviour of a high-strength pipeline steel weldment

A systematic study on the influence of electrochemical charging conditions on the hydrogen embrittlement behaviour of a pipeline steel

Fatigue analysis of metallic-plastic-metallic pipeline systems: a numerical study

Blown-powder direct-energy-deposition of titanium-diboride-strengthened IN718 Ni-base superalloy

Developing a 2D finite element cutting model based on individual phases in orthogonal cutting of two-phase duplex stainless steel

Additive manufacturing-based repair of IN718 superalloy and high-cycle fatigue assessment of the joint

Fatigue life prediction of the additively manufactured specimen

Investigating interfacial adhesion and open-hole compressive (OHC) strength correlations for CFRPs via variations in sizing and oxidative surface treatment

Tim Hilditch Information

University

Position

School of Engineering -

Citations(all)

2386

Citations(since 2020)

1246

Cited By

1604

hIndex(all)

27

hIndex(since 2020)

22

i10Index(all)

44

i10Index(since 2020)

33

Email

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University Profile Page

Deakin University

Google Scholar

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Top articles of Tim Hilditch

Title

Journal

Author(s)

Publication Date

Effect of microstructure on hydrogen embrittlement and hydrogen-induced cracking behaviour of a high-strength pipeline steel weldment

Physics of Metals and Metallography

Hoda Asadipour

Ali Doostmohammadi

Navid Saeidi

Mahdi Moshref-Javadi

2019/8

A systematic study on the influence of electrochemical charging conditions on the hydrogen embrittlement behaviour of a pipeline steel

International Journal of Hydrogen Energy

Peng Zhang

Majid Laleh

Anthony E Hughes

Ross KW Marceau

Tim Hilditch

...

2023/5/19

Fatigue analysis of metallic-plastic-metallic pipeline systems: a numerical study

Results in Engineering

Ji-Sung Lee

Wei Zeng

Martin Lambert

Timothy Hilditch

Jinzhe Gong

2023/3/1

Blown-powder direct-energy-deposition of titanium-diboride-strengthened IN718 Ni-base superalloy

Materials Science and Engineering: A

Riddhi Sarkar

Bo Chen

Michael E Fitzpatrick

Tim Hilditch

Daniel Fabijanic

2023/10/3

Developing a 2D finite element cutting model based on individual phases in orthogonal cutting of two-phase duplex stainless steel

Materials Today: Proceedings

Junior Nomani

Ashwin Polishetty

Tim Hilditch

Guy Littlefair

2023/7/7

Additive manufacturing-based repair of IN718 superalloy and high-cycle fatigue assessment of the joint

Additive Manufacturing

Riddhi Sarkar

Bo Chen

Michael E Fitzpatrick

Daniel Fabijanic

Tim Hilditch

2022/12/1

Fatigue life prediction of the additively manufactured specimen

Modelling and Simulation in Materials Science and Engineering

Surajit Kumar Paul

Faris Tarlochan

Timothy Hilditch

2021/12/3

Investigating interfacial adhesion and open-hole compressive (OHC) strength correlations for CFRPs via variations in sizing and oxidative surface treatment

Composites Part A: Applied Science and Manufacturing

Filip Stojcevski

David J Hayne

Timothy B Hilditch

Luke C Henderson

2021/11/1

Linking antioxidant depletion with material properties for polyethylene pipes resins

Polymer Engineering & Science

Nolene Byrne

Rasike De Silva

Tim Hilditch

2020/2

Influence of ultraviolet radiation on the morphological and mechanical properties of carbon fiber-reinforced polymers

SAE International Journal of Materials and Manufacturing

Salah Mahdi Khaleel

Tim Hilditch

Riyadh Al-Ameri

Bernard Rolfe

2020/1/1

See List of Professors in Tim Hilditch University(Deakin University)