Enhancing Furniture Manufacturing with 3D Scanning

Muminović, Adis J.; Gierz, Łukasz; Rebihić, Hasan; Smajić, Jasmin; Pervan, Nedim; Hadžiabdić, Vahidin; Trobradović, Mirsad; Warguła, Łukasz; Wieczorek, Bartosz; Łykowski, Wiktor; Sydor, Maciej

doi:10.3390/app14104112

Applied Sciences

2024

DOI: 10.3390/app14104112

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Enhancing Furniture Manufacturing with 3D Scanning

Adis J. Muminović,

Łukasz Gierz,

Hasan Rebihić

et al.

Abstract: Product design and manufacturing leverage 3D scanning for various applications. This study aims to investigate the effectiveness of 3D scanning in furniture production by surveying the literature and showcasing four real-world case studies. The literature review reveals that 3D data acquired from real-world objects have applications in research, rapid prototyping, restoration, and preservation of antique furniture, optimizing CNC machining processes, and measuring furniture components for quality control. The … Show more

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2024

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Cited by 1 publication

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Service Life and Failure Analysis of Nylon, Polycarbonate, and IGUS i180 Polymer Gears Made by Additive Manufacturing

Muminović,

Bektašević,

Muratović

et al. 2024

Machines

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An assessment of different materials for additive manufacturing (AM) of polymer gears is presented in this research. Experimental testing is carried out for three different materials. Two materials are selected as the most common materials used for gears made by additive manufacturing. These materials are nylon and polycarbonate (PC). The third material is IGUS i180, which is a tribological material specially developed for additive manufacturing of parts with demands for high resistance properties such as resistance to friction, wear, and high temperatures which are essential for the long service life of gears. Gears are experimentally tested to determine service life in the form of operating cycles until failure. In addition, the gear temperature is monitored during the experimental testing. Using the value of maximum temperature at the moment of total gear failure at a specific load level enables the categorization of failure type. Different types of gear failures are categorized and presented. Taking into consideration failure type and the service life in the form of operating cycles, the applicability of analyzed materials for specific applications concerning load, speed, and thermal conditions is presented and discussed at the end of the paper. The main goal of this research was to test IGUS i180 material and compare its mechanical and thermal properties with other commonly used materials for gears manufactured by AM, such as nylon (PA6/66) and polycarbonate (PC). IGUS i180 material showed inferior properties concerning gear design in the case of high loads. This research showed that PA6/66 material is still the best solution for polymer gears production using AM, but the applicability of this material, due to temperature constraints, is still quite limited.

show abstract

Service Life and Failure Analysis of Nylon, Polycarbonate, and IGUS i180 Polymer Gears Made by Additive Manufacturing

Muminović,

Bektašević,

Muratović

et al. 2024

Machines

View full text Add to dashboard Cite

show abstract

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Enhancing Furniture Manufacturing with 3D Scanning

Cited by 1 publication

References 31 publications

Service Life and Failure Analysis of Nylon, Polycarbonate, and IGUS i180 Polymer Gears Made by Additive Manufacturing

Service Life and Failure Analysis of Nylon, Polycarbonate, and IGUS i180 Polymer Gears Made by Additive Manufacturing

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