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Comparison Analysis of Energy Consumption of Atomic Diffusion Additive Manufacturing with Sand Casting: Towards a more Sustainable Future

Armstrong, Mark, Ahmad Mehrabi, Hamid, Naveed, Nida and Gregg, Carl (2022) Comparison Analysis of Energy Consumption of Atomic Diffusion Additive Manufacturing with Sand Casting: Towards a more Sustainable Future. In: International Conference on Sustainable Engineering & Advanced Technology (ICSEAT2022), 16 17 June 2022, SEGi University.

Item Type: Conference or Workshop Item (Paper)

Abstract

Over the years, the cumulative environmental impact from human activity has disrupted the stability of the natural world, warming the planet above pre-industrial levels. Whilst unprecedented in many ways, reducing industrial emissions from greenhouse gases could help stabilise rising temperatures. Thus, the exploration for more sustainable manufacturing solutions that reduce carbon emissions is imperative. Some traditional manufacturing (TM) processes, such as sand casting, which, despite its versatility to produce products in many shapes and sizes from almost any metal or alloy, are typically energy-intensive activities. Conversely, metal additive manufacturing (MAM) enables users to manufacture more complex, lighter and near net shapes with the ability to consolidate manufacturing workflows. Consequently, MAM has been reported to be an energy-efficient alternative. Yet, evidence in the literature on the environmental impact of some MAM processes is limited, especially for material extrusion (ME) additive manufacturing (AM) methods such as the atomic diffusion additive manufacturing (ADAM) process. This paper explores the feasibility of performing a life cycle assessment (LCA) for the ADAM process compared to sand casting. Preliminary results indicate that the ADAM process demands 71.04 kWh/kg and 16.57 CO2 equivalent (CO2-eq) more for manufacturing 1kg of 17-4 precipitation hardened stainless steel (17-4 PH SS) compared to sand casting. Therefore, the findings collected from this pilot study justify future research efforts to converge on developing a novel model for performing a comprehensive cradle to grave LCA for ADAM to compare against sand casting and other TM processes such as CNC milling and investment casting.

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Related URLs:
Depositing User: Nida Naveed

Identifiers

Item ID: 14894
URI: http://sure.sunderland.ac.uk/id/eprint/14894
Official URL: https://www.clocate.com/international-conference-o...

Users with ORCIDS

ORCID for Hamid Ahmad Mehrabi: ORCID iD orcid.org/0000-0003-0510-4055
ORCID for Nida Naveed: ORCID iD orcid.org/0000-0002-6857-1366
ORCID for Carl Gregg: ORCID iD orcid.org/0000-0002-6033-4104

Catalogue record

Date Deposited: 01 Jul 2022 14:52
Last Modified: 24 Apr 2024 12:14

Contributors

Author: Hamid Ahmad Mehrabi ORCID iD
Author: Nida Naveed ORCID iD
Author: Carl Gregg ORCID iD
Author: Mark Armstrong
Author: Mark Armstrong
Author: Hamid Mehrabi
["contributor_type_typename_" not defined]: Nida Naveed
["contributor_type_typename_" not defined]: Carl Gregg

University Divisions

Faculty of Technology > School of Engineering

Subjects

Engineering > Mechanical Engineering

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