Pengaruh Struktur Mikro terhadap Sifat Mekanik Material Logam

Authors

  • Baitul Maharani lubis Baitul Universitas Al-Azhar
  • Tika Gajah Universitas Al-Azhar
  • Radit Atilasyah Universitas Al-Azhar

DOI:

https://doi.org/10.55606/jurritek.v5i1.7562

Keywords:

Grain Size, Hall-Petch, Mechanical Properties, Metallic Materials, Microstructure

Abstract

The objective of this study is to comprehensively examine and analyze the influence of microstructure on the mechanical properties of metallic materials. Microstructure is known to play a crucial role in determining the mechanical behavior of metals; therefore, a thorough understanding of this relationship is essential for the development of engineering materials. This study adopts a systematic literature review approach, employing descriptive analysis and meta-analysis of recent scientific publications obtained from various reputable academic databases. The analysis results indicate that microstructure is a significant determinant of the mechanical characteristics of metallic materials, including strength, ductility, and resistance to deformation. The most influential microstructural parameters include grain size, phase distribution, crystallographic orientation, dislocation density, and the presence and characteristics of precipitates. Among these parameters, grain size has been shown to be the most dominant factor. The Hall–Petch strengthening mechanism demonstrates that grain refinement can increase the tensile strength of materials by approximately 200 to 300 percent. In addition, materials with multi-phase microstructures, such as dual-phase steels and TRIP steels, exhibit an excellent combination of strength and ductility compared to single-phase materials. Based on the meta-analysis results, each metallic material system exhibits a trade-off between strength and ductility, whereby an increase in strength is generally accompanied by a reduction in ductility. These findings indicate that achieving an optimal combination of mechanical properties for specific application requirements necessitates a comprehensive and integrated microstructural engineering approach.

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References

A, N. K., Syahroni, N., & Hadiwidodo, Y. S. (2018). Analisis pengaruh variasi flow rate gas pelindung pada pengelasan FCAW-G terhadap struktur mikro dan kekuatan mekanik sambungan material grade A. Jurnal Teknik Pengelasan, 7(2), 1–10.

Addis, L. B., Sendekie, Z. B., & Satheesh, N. (2022). Degradation kinetics and durability enhancement strategies of cellulosic fiber-reinforced geopolymers and cement composites. Construction and Building Materials, 2022, 1–18.

Bichang, D. O., Aramide, F. O., Oladele, I. O., & Alabi, O. O. (2022). A review on the parameters affecting the mechanical, physical, and thermal properties of natural/synthetic fibre hybrids. Materials Science Research, 2022, 1–15.

Gunawan, S. (2024). Pengaruh perlakuan panas quenching terhadap ketangguhan impak pada paduan aluminium AC7A. Jurnal Teknik Mesin, 4(2), 483–490.

Iliyas, R. A., et al. (2022). Bio- and synthetic-based polymer composite materials. Polymer Composites, 14(18), 1–20.

Kim, Y. (2023). Special issue on microstructural and mechanical properties of metallic materials (Vol. II). Applied Sciences, 2023, 1–5.

Korosi, K., et al. (n.d.). Analisis pengaruh variasi logam pengisi dan metode GTAW terhadap struktur mikro. Jurnal Teknik Material, 12(1), 1–10.

Musthaq, M. A., Dhakal, H. N., Zhang, Z., & Barouni, A. (2023). The effect of various environmental conditions on the impact damage behaviour of natural fibre-reinforced composites (NFRCs): A critical review. Composite Structures, 2023, 1–25.

Sipil, E. D. A. N. (2023). Desain dan pembuatan alat uji pompa sentrifugal skala laboratorium. Vorteks, 4(1), 1–10. https://doi.org/10.54123/vorteks.v4i1.267

Sipil, E. D. A. N., Siregar, Z. H., Nasution, A. F., Fazri, M., & Puspita, R. (2024). The effect of fuel mixture composition on gasoline engine performance. Vorteks, 5(2), 394–402. https://doi.org/10.54123/vorteks.v5i2.389

Siradj, E. S., & A, C. M. (2016). Struktur mikro dan sifat mekanis aluminium paduan seri 6063. Jurnal Teknik Material, 14, 72–78.

Syamsul, D., Alam, N., Ambardi, P., & Hadi, D. (2019). Effect of solution treatment on mechanical properties and microstructure of ternary alloy Zr–Nb–Mo for biomaterial applications. Jurnal Material dan Proses Manufaktur, 2019, 15–22.

Ye, D., et al. (2022). Study on the influence of grain size and microstructure on the mechanical properties of metallic materials. Materials Science and Engineering, 2022, 1–12.

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Published

2026-01-19

How to Cite

Baitul, B. M. . lubis, Tika Gajah, & Radit Atilasyah. (2026). Pengaruh Struktur Mikro terhadap Sifat Mekanik Material Logam. JURAL RISET RUMPUN ILMU TEKNIK, 5(1), 569–576. https://doi.org/10.55606/jurritek.v5i1.7562

Issue

Vol. 5 No. 1 (2026): April: Jurnal Riset Rumpun Ilmu Teknik

Section

Articles

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Copyright (c) 2026 JURAL RISET RUMPUN ILMU TEKNIK

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This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

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