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Potential of New Sustainable Green Geopolymer Metal Composite (GGMC) Material as Mould Insert for Rapid Tooling (RT) in Injection Moulding Process

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Potential of New Sustainable Green Geopolymer Metal Composite (GGMC) Material as Mould Insert for Rapid Tooling (RT) in Injection Moulding Process. / Yin, Allice Tan Mun; Rahim, Shayfull Zamree Bin Abd; Abdullah, Mohd Mustafa Al Bakri et al.
In: Materials, Vol. 16, No. 4, 1724, 19.02.2023.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Yin, ATM, Rahim, SZBA, Abdullah, MMAB, Nabiałek, M, Abdellah, AE, Rennie, A, Tahir, MFM & Titu, AM 2023, 'Potential of New Sustainable Green Geopolymer Metal Composite (GGMC) Material as Mould Insert for Rapid Tooling (RT) in Injection Moulding Process', Materials, vol. 16, no. 4, 1724. https://doi.org/10.3390/ma16041724

APA

Yin, A. T. M., Rahim, S. Z. B. A., Abdullah, M. M. A. B., Nabiałek, M., Abdellah, A. E., Rennie, A., Tahir, M. F. M., & Titu, A. M. (2023). Potential of New Sustainable Green Geopolymer Metal Composite (GGMC) Material as Mould Insert for Rapid Tooling (RT) in Injection Moulding Process. Materials, 16(4), Article 1724. https://doi.org/10.3390/ma16041724

Vancouver

Yin ATM, Rahim SZBA, Abdullah MMAB, Nabiałek M, Abdellah AE, Rennie A et al. Potential of New Sustainable Green Geopolymer Metal Composite (GGMC) Material as Mould Insert for Rapid Tooling (RT) in Injection Moulding Process. Materials. 2023 Feb 19;16(4):1724. doi: 10.3390/ma16041724

Author

Yin, Allice Tan Mun ; Rahim, Shayfull Zamree Bin Abd ; Abdullah, Mohd Mustafa Al Bakri et al. / Potential of New Sustainable Green Geopolymer Metal Composite (GGMC) Material as Mould Insert for Rapid Tooling (RT) in Injection Moulding Process. In: Materials. 2023 ; Vol. 16, No. 4.

Bibtex

@article{dc38535a896a4741bbfde016a87b9f18,
title = "Potential of New Sustainable Green Geopolymer Metal Composite (GGMC) Material as Mould Insert for Rapid Tooling (RT) in Injection Moulding Process",
abstract = "The investigation of mould inserts in the injection moulding process using metal epoxy composite (MEC) with pure metal filler particles is gaining popularity among researchers. Therefore, to attain zero emissions, the idea of recycling metal waste from industries and workshops must be investigated (waste free) because metal recycling conserves natural resources while requiring less energy to manufacture new products than virgin raw materials would. The utilisation of metal scrap for rapid tooling (RT) in the injection moulding industry is a fascinating and potentially viable approach. On the other hand, epoxy that can endure high temperatures (>220 °C) is challenging to find and expensive. Meanwhile, industrial scrap from coal-fired power plants can be a precursor tocreating geopolymer materials with desired physical and mechanical qualities for RT applications. One intriguing attribute of geopolymer is its ability to endure temperatures up to 1000 °C. Nonetheless, geopolymer has a higher compressive strength of 60–80 MPa (8700–11,600 psi) than epoxy (68.95 MPa) (10,000 psi). Aside from its low cost, geopolymer offers superior resilience to harsh environments and high compressive and flexural strength. This research aims to investigate the possibility of generating a new sustainable material by integrating several types of metals in green geopolymer metal composite (GGMC) mould inserts for RT in the injection moulding process. It is necessary to examine and investigate the optimal formulation of GGMC as mould inserts for RT in the injection moulding process. With less expensive and more ecologically friendly components, the GGMC is expected to be a superior choice as a mould insert for RT. This research substantially impacts environmental preservation, cost reduction, and maintaining and sustaining the metal waste management system. As a result of the lower cost of recycled metals, sectors such as mouldmaking and machining will profit the most.",
keywords = "rapid tooling, geopolymer metal composite, additive manufacturing, injection moulding process",
author = "Yin, {Allice Tan Mun} and Rahim, {Shayfull Zamree Bin Abd} and Abdullah, {Mohd Mustafa Al Bakri} and Marcin Nabia{\l}ek and Abdellah, {Abdellah El-hadj} and Allan Rennie and Tahir, {Muhammad Faheem Mohd} and Titu, {Aurel Mihail}",
year = "2023",
month = feb,
day = "19",
doi = "10.3390/ma16041724",
language = "English",
volume = "16",
journal = "Materials",
issn = "1996-1944",
publisher = "MDPI AG",
number = "4",

}

RIS

TY - JOUR

T1 - Potential of New Sustainable Green Geopolymer Metal Composite (GGMC) Material as Mould Insert for Rapid Tooling (RT) in Injection Moulding Process

AU - Yin, Allice Tan Mun

AU - Rahim, Shayfull Zamree Bin Abd

AU - Abdullah, Mohd Mustafa Al Bakri

AU - Nabiałek, Marcin

AU - Abdellah, Abdellah El-hadj

AU - Rennie, Allan

AU - Tahir, Muhammad Faheem Mohd

AU - Titu, Aurel Mihail

PY - 2023/2/19

Y1 - 2023/2/19

N2 - The investigation of mould inserts in the injection moulding process using metal epoxy composite (MEC) with pure metal filler particles is gaining popularity among researchers. Therefore, to attain zero emissions, the idea of recycling metal waste from industries and workshops must be investigated (waste free) because metal recycling conserves natural resources while requiring less energy to manufacture new products than virgin raw materials would. The utilisation of metal scrap for rapid tooling (RT) in the injection moulding industry is a fascinating and potentially viable approach. On the other hand, epoxy that can endure high temperatures (>220 °C) is challenging to find and expensive. Meanwhile, industrial scrap from coal-fired power plants can be a precursor tocreating geopolymer materials with desired physical and mechanical qualities for RT applications. One intriguing attribute of geopolymer is its ability to endure temperatures up to 1000 °C. Nonetheless, geopolymer has a higher compressive strength of 60–80 MPa (8700–11,600 psi) than epoxy (68.95 MPa) (10,000 psi). Aside from its low cost, geopolymer offers superior resilience to harsh environments and high compressive and flexural strength. This research aims to investigate the possibility of generating a new sustainable material by integrating several types of metals in green geopolymer metal composite (GGMC) mould inserts for RT in the injection moulding process. It is necessary to examine and investigate the optimal formulation of GGMC as mould inserts for RT in the injection moulding process. With less expensive and more ecologically friendly components, the GGMC is expected to be a superior choice as a mould insert for RT. This research substantially impacts environmental preservation, cost reduction, and maintaining and sustaining the metal waste management system. As a result of the lower cost of recycled metals, sectors such as mouldmaking and machining will profit the most.

AB - The investigation of mould inserts in the injection moulding process using metal epoxy composite (MEC) with pure metal filler particles is gaining popularity among researchers. Therefore, to attain zero emissions, the idea of recycling metal waste from industries and workshops must be investigated (waste free) because metal recycling conserves natural resources while requiring less energy to manufacture new products than virgin raw materials would. The utilisation of metal scrap for rapid tooling (RT) in the injection moulding industry is a fascinating and potentially viable approach. On the other hand, epoxy that can endure high temperatures (>220 °C) is challenging to find and expensive. Meanwhile, industrial scrap from coal-fired power plants can be a precursor tocreating geopolymer materials with desired physical and mechanical qualities for RT applications. One intriguing attribute of geopolymer is its ability to endure temperatures up to 1000 °C. Nonetheless, geopolymer has a higher compressive strength of 60–80 MPa (8700–11,600 psi) than epoxy (68.95 MPa) (10,000 psi). Aside from its low cost, geopolymer offers superior resilience to harsh environments and high compressive and flexural strength. This research aims to investigate the possibility of generating a new sustainable material by integrating several types of metals in green geopolymer metal composite (GGMC) mould inserts for RT in the injection moulding process. It is necessary to examine and investigate the optimal formulation of GGMC as mould inserts for RT in the injection moulding process. With less expensive and more ecologically friendly components, the GGMC is expected to be a superior choice as a mould insert for RT. This research substantially impacts environmental preservation, cost reduction, and maintaining and sustaining the metal waste management system. As a result of the lower cost of recycled metals, sectors such as mouldmaking and machining will profit the most.

KW - rapid tooling

KW - geopolymer metal composite

KW - additive manufacturing

KW - injection moulding process

U2 - 10.3390/ma16041724

DO - 10.3390/ma16041724

M3 - Journal article

VL - 16

JO - Materials

JF - Materials

SN - 1996-1944

IS - 4

M1 - 1724

ER -