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Potential of Rapid Tooling in Rapid Heat Cycle Molding: A Review

Huzaim, Nurul Hidayah Mohamad ; Rahim, Shayfull Zamree Abd ; Musa, Luqman ; [weitere]

MDPI AG ; 2022

In: Materials Vol. 15, No. 10 ( 2022-05-23), p. 3725-

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In: Materials, MDPI AG, Vol. 15, No. 10 ( 2022-05-23), p. 3725-

Kurzfassung: Rapid tooling (RT) and additive manufacturing (AM) are currently being used in several parts of industry, particularly in the development of new products. The demand for timely deliveries of low-cost products in a variety of geometrical patterns is continuing to increase year by year. Increased demand for low-cost materials and tooling, including RT, is driving the demand for plastic and rubber products, along with engineering and product manufacturers. The development of AM and RT technologies has led to significant improvements in the technologies, especially in testing performance for newly developed products prior to the fabrication of hard tooling and low-volume production. On the other hand, the rapid heating cycle molding (RHCM) injection method can be implemented to overcome product surface defects generated by conventional injection molding (CIM), since the surface gloss of the parts is significantly improved, and surface marks such as flow marks and weld marks are eliminated. The most important RHCM technique is rapid heating and cooling of the cavity surface, which somewhat improves part quality while also maximizing production efficiencies. RT is not just about making molds quickly; it also improves molding productivity. Therefore, as RT can also be used to produce products with low-volume production, there is a good potential to explore RHCM in RT. This paper reviews the implementation of RHCM in the molding industry, which has been well established and undergone improvement on the basis of different heating technologies. Lastly, this review also introduces future research opportunities regarding the potential of RT in the RHCM technique.

Materialart: Online-Ressource

ISSN: 1996-1944

URL: Article

DOI: 10.3390/ma15103725

Sprache: Englisch

Verlag: MDPI AG

Publikationsdatum: 2022

ZDB Id: 2487261-1

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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 Abd ; Al Bakri Abdullah, Mohd Mustafa ; [weitere]

MDPI AG ; 2023

In: Materials Vol. 16, No. 4 ( 2023-02-19), p. 1724-

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In: Materials, MDPI AG, Vol. 16, No. 4 ( 2023-02-19), p. 1724-

Kurzfassung: 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 to creating 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 mould-making and machining will profit the most.

Materialart: Online-Ressource

ISSN: 1996-1944

URL: Article

DOI: 10.3390/ma16041724

Sprache: Englisch

Verlag: MDPI AG

Publikationsdatum: 2023

ZDB Id: 2487261-1

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Warpage Optimisation Using Recycled Polycar-bonates (PC) on Front Panel Housing

Tamizi, Nur Aisyah Miza Ahmad ; Rahim, Shayfull Zamree Abd ; Abdellah, Abdellah El-hadj ; [weitere]

MDPI AG ; 2021

In: Materials Vol. 14, No. 6 ( 2021-03-15), p. 1416-

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In: Materials, MDPI AG, Vol. 14, No. 6 ( 2021-03-15), p. 1416-

Kurzfassung: Many studies have been done using recycled waste materials to minimise environmental problems. It is a great opportunity to explore mechanical recycling and the use of recycled and virgin blend as a material to produce new products with minimum defects. In this study, appropriate processing parameters were considered to mould the front panel housing part using R0% (virgin), R30% (30% virgin: 70% recycled), R40% (40% virgin: 60% recycled) and R50% (50% virgin: 50% recycled) of Polycarbonate (PC). The manufacturing ability and quality during preliminary stage can be predicted through simulation analysis using Autodesk Moldflow Insight 2012 software. The recommended processing parameters and values of warpage in x and y directions can also be obtained using this software. No value of warpage was obtained from simulation studies for x direction on the front panel housing. Therefore, this study only focused on reducing the warpage in the y direction. Response Surface Methodology (RSM) and Genetic Algorithm (GA) optimisation methods were used to find the optimal processing parameters. As the results, the optimal ratio of recycled PC material was found to be R30%, followed by R40% and R50% materials using RSM and GA methods as compared to the average value of warpage on the moulded part using R0%. The most influential processing parameter that contributed to warpage defect was packing pressure for all materials used in this study.

Materialart: Online-Ressource

ISSN: 1996-1944

URL: Article

DOI: 10.3390/ma14061416

Sprache: Englisch

Verlag: MDPI AG

Publikationsdatum: 2021

ZDB Id: 2487261-1

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