The Effect Of Gasket Thickness Variations (Packing Block) On Power, Torque & Engine Rotation Of Yamaha F1ZR
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Abstract
This study analyzes the effect of gasket thickness on motorcycle engine performance, focusing on its role in maintaining pressure and temperature within the engine, which directly influences efficiency and power output. Employing a descriptive quantitative and qualitative approach, including in-depth interviews with mechanics, racers, and engine experts, the research explores the impact of gasket thickness on engine power, fuel efficiency, and durability under various conditions. Thematic analysis of the data reveals that thinner gaskets enhance power but compromise long-term durability, offering valuable insights for practitioners and manufacturers in optimizing gasket thickness for high-performance applications.
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This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
How to Cite
Iqbal Risfianda Arraihan, & Sudarsono, B. (2025). The Effect Of Gasket Thickness Variations (Packing Block) On Power, Torque & Engine Rotation Of Yamaha F1ZR. Jurnal E-Komtek (Elektro-Komputer-Teknik), 8(2), 473-483. https://doi.org/10.37339/e-komtek.v8i2.2174
References
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[22] V. Abramenko, J. Nerg, I. Petrov, and J. Pyrhonen, “Influence of Magnetic and Nonmagnetic Layers in an Axially Laminated Anisotropic Rotor of a High-Speed Synchronous Reluctance Motor including Manufacturing Aspects,” IEEE Access, vol. 8, pp. 117377–117389, 2020, doi: 10.1109/ACCESS.2020.3004705.
[23] A. Kuzmin, V. Pinchuk, D. Alberto Garcia Arango, O. Carmelo Castellanos Polo, and S. Pinchuk, “Improving the thermal efficiency of small molding equipment to speed up the start of production and reduce energy consumption,” Therm. Sci. Eng. Prog., vol. 44, no. August, p. 102067, 2023, doi: 10.1016/j.tsep.2023.102067.
[24] J. M. Rodríguez-Rego, J. P. Carrasco-Amador, L. Mendoza-Cerezo, A. C. Marcos-Romero, and A. Macías-García, “Guide for the development and evaluation of supercapacitors with the proposal of a novel design to improve their performance,” J. Energy Storage, vol. 68, no. May, p. 107816, 2023, doi: 10.1016/j.est.2023.107816.
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[27] C. A. Martínez-Huitle, M. A. Rodrigo, I. Sirés, and O. Scialdone, “A critical review on latest innovations and future challenges of electrochemical technology for the abatement of organics in water,” Appl. Catal. B Environ., vol. 328, no. December 2022, 2023, doi: 10.1016/j.apcatb.2023.122430.
[28] A. S. R. Subramanian, T. Gundersen, and T. A. Adams, “Modeling and simulation of energy systems: A review,” Processes, vol. 6, no. 12, 2018, doi: 10.3390/pr6120238.
[29] K. O. Omomo, A. E. Esiri, and C. Olisakwe, “Revolutionizing High-Pressure, High-Temperature Well Cementing: A Novel Approach to Well Integrity,” Int. J. Eng. Res. Dev., vol. 20, no. 11, pp. 268–275, 2024.
[2] B. Rahmat, M. B. R. Wijaya, F. Z. Bahtiar, Y. B. Wirawan, and K. I. Muttaqin, “Effect of Cylinder Head Gasket Addition and Varying Octane Number Gasoline To Internal Combustion Engine Performance,” Media Mesin Maj. Tek. Mesin, vol. 25, no. 1, pp. 50–63, 2024, doi: 10.23917/mesin.v25i1.3266.
[3] R. A. Anugrah, “Analysis of CVT (continuously variable transmission) and the influence of variations on the motorcycle,” J. Penelit. Saintek, vol. 2, no. 27, pp. 69–80, 2022, doi: 10.21831/jps.v2i27.53582.
[4] I. G. B. A. Pratama, I. G. Wiratmaja, and N. A. Wigraha, “Pengaruh Variasi Diameter Torak terhadap Performansi Sepeda Motor Bertransmisi Manual,” Quantum Tek. J. Tek. Mesin Terap., vol. 5, no. 1, pp. 14–20, 2023, doi: 10.18196/jqt.v5i1.18613.
[5] R. Y. Efendi, N. A. Handoyono, and S. Hadi, “Analisis Penggunaan Variasi CDI dengan Variasi Bahan Bakar terhadap Daya dan Torsi Motor Bensin 1 Silinder Abstrak Pendahuluan Perkembangan teknologi pada saat ini yang semakin pesat , mendorong manusia untuk selalu menciptakan inovasi . Perk,” Sci. TECH J. Ilmu Pengetah. dan Teknol., vol. 9, no. 2, pp. 96–104, 2023, [Online]. Available: https://jurnal.ustjogja.ac.id/index.php/sciencetech/article/view/14744.
[6] N. A. Rozikin and R. Firdaus, “Effect Of Additional Variations Of Etanol Fuel On Exhaust Gas Emissions On Yamaha 125cc Motorcycles,” Acad. Open, vol. 4, pp. 1–9, 2021, doi: 10.21070/acopen.4.2021.1969.
[7] A. D. Soewono, M. Darmawan, and J. Halim, “Kajian Eksperimental Pengaruh Penggunaan Electronic Control Unit Aftermarket Pada Daya, Torsi, Emisi Dan Konsumsi Bahan Bakar Sepeda Motor 150Cc,” J. Rekayasa Mesin, vol. 14, no. 2, pp. 487–497, 2023, doi: 10.21776/jrm.v14i2.1276.
[8] Z. H. Siregar, “Analysis of Yamaha Scorpio Engine Performance with Variation of Ethanol Fuel and Shell V Power,” Int. J. Res. Vocat. Stud., vol. 2, no. 4, pp. 135–144, 2023, doi: 10.53893/ijrvocas.v2i4.179.
[9] Z. Liao et al., “The Effect of Endometrial Thickness on Pregnancy, Maternal, and Perinatal Outcomes of Women in Fresh Cycles After IVF/ICSI: A Systematic Review and Meta-Analysis,” Front. Endocrinol. (Lausanne)., vol. 12, no. February, pp. 1–14, 2022, doi: 10.3389/fendo.2021.814648.
[10] Widiyatmoko, Mike Elly Anitasari, and Ari Fajar Isbakhi, “Analysis of Variation of Valve Gap Size on Power and Torque of a Four-stroke Motorcycle,” J. E-Komtek, vol. 7, no. 1, pp. 179–186, 2023, doi: 10.37339/e-komtek.v7i1.1196.
[11] S. P. Purbaningrum, A. F. Nazih, and S. Putro, “Application of Torque Expansion Chamber (Tec) and Nozzle on Exhaust Manifold Honda Supra X 125,” Media Mesin Maj. Tek. Mesin, vol. 23, no. 2, pp. 99–105, 2022, doi: 10.23917/mesin.v23i2.18405.
[12] Y. Dong et al., “Structure optimization of gasket based on orthogonal experiment and NSGA-II,” Sci. Prog., vol. 104, no. 2, pp. 1–18, 2021, doi: 10.1177/00368504211011347.
[13] L. Zhu, Y. Liu, M. Li, X. Lu, and X. Zhu, “Calculation Model of Mechanical and Sealing Properties of NiTi Alloy Corrugated Gaskets under Shape Memory Effect and Hyperelastic Coupling: I Mechanical Properties,” Materials (Basel)., vol. 15, no. 14, 2022, doi: 10.3390/ma15144836.
[14] S. Lee et al., “Sensitivity of Inner Spacer Thickness Variations for Sub-3-nm Node Silicon Nanosheet Field-Effect Transistors,” Nanomaterials, vol. 12, no. 19, 2022, doi: 10.3390/nano12193349.
[15] Y. Li et al., “Study on Engine Performance and Combustion System Optimization of a Poppet-Valve Two-Stroke Diesel Engine,” Energies, vol. 15, no. 10, 2022, doi: 10.3390/en15103685.
[16] F. Ortenzi and A. Bossaglia, “A One-Dimensional Numerical Model for High-Performance Two-Stroke Engines,” Energies, vol. 16, no. 13, 2023, doi: 10.3390/en16134947.
[17] D. Lu, G. Theotokatos, J. Zhang, H. Zeng, and K. Cui, “Comparative Assessment and Parametric Optimisation of Large Marine Two-Stroke Engines with Exhaust Gas Recirculation and Alternative Turbocharging Systems,” J. Mar. Sci. Eng. Artic., vol. 10, no. 2, p. 351, 2022.
[18] L. Zhang, Z. Huang, T. Wang, N. Zhao, H. Cheng, and W. Chen, “Lean combustion and emission performance of a gasoline direct injection engine with active pre-chamber,” Adv. Mech. Eng., vol. 14, no. 7, pp. 1–13, 2022, doi: 10.1177/16878132221113453.
[19] Z. Li, J. Qin, Y. Pei, K. Zhong, Z. Zhang, and J. Sun, “The Lean-Burn Limit Extending Experiment on Gasoline Engine with Dual Injection Strategy and High Power Ignition System,” Energies, vol. 16, no. 15, pp. 1–16, 2023, doi: 10.3390/en16155662.
[20] W. Zhan, H. Chen, J. Du, B. Wang, F. Xie, and Y. Li, “High Compression Ratio Active Pre-chamber Single-Cylinder Gasoline Engine with 50% Gross Indicated Thermal Efficiency,” ACS Omega, vol. 8, no. 5, pp. 4756–4766, 2023, doi: 10.1021/acsomega.2c06810.
[21] M. Eltaweel and M. R. Herfatmanesh, “Enhancing vehicular performance with flywheel energy storage systems: Emerging technologies and applications,” J. Energy Storage, vol. 103, no. PB, p. 114386, 2024, doi: 10.1016/j.est.2024.114386.
[22] V. Abramenko, J. Nerg, I. Petrov, and J. Pyrhonen, “Influence of Magnetic and Nonmagnetic Layers in an Axially Laminated Anisotropic Rotor of a High-Speed Synchronous Reluctance Motor including Manufacturing Aspects,” IEEE Access, vol. 8, pp. 117377–117389, 2020, doi: 10.1109/ACCESS.2020.3004705.
[23] A. Kuzmin, V. Pinchuk, D. Alberto Garcia Arango, O. Carmelo Castellanos Polo, and S. Pinchuk, “Improving the thermal efficiency of small molding equipment to speed up the start of production and reduce energy consumption,” Therm. Sci. Eng. Prog., vol. 44, no. August, p. 102067, 2023, doi: 10.1016/j.tsep.2023.102067.
[24] J. M. Rodríguez-Rego, J. P. Carrasco-Amador, L. Mendoza-Cerezo, A. C. Marcos-Romero, and A. Macías-García, “Guide for the development and evaluation of supercapacitors with the proposal of a novel design to improve their performance,” J. Energy Storage, vol. 68, no. May, p. 107816, 2023, doi: 10.1016/j.est.2023.107816.
[25] V. De Bellis et al., “A comprehensive phenomenological model for unburned fuel emission simulation applied to natural gas engines,” Fuel, vol. 367, no. July 2023, 2024, doi: 10.1016/j.fuel.2024.131440.
[26] M. Vukičević, N. Račić, and Š. Ivošević, “Piston ring material in a two-stroke engine which sustains wear due to catalyst fines,” Brodogradnja, vol. 70, no. 2, pp. 155–169, 2019, doi: 10.21278/BROD70208.
[27] C. A. Martínez-Huitle, M. A. Rodrigo, I. Sirés, and O. Scialdone, “A critical review on latest innovations and future challenges of electrochemical technology for the abatement of organics in water,” Appl. Catal. B Environ., vol. 328, no. December 2022, 2023, doi: 10.1016/j.apcatb.2023.122430.
[28] A. S. R. Subramanian, T. Gundersen, and T. A. Adams, “Modeling and simulation of energy systems: A review,” Processes, vol. 6, no. 12, 2018, doi: 10.3390/pr6120238.
[29] K. O. Omomo, A. E. Esiri, and C. Olisakwe, “Revolutionizing High-Pressure, High-Temperature Well Cementing: A Novel Approach to Well Integrity,” Int. J. Eng. Res. Dev., vol. 20, no. 11, pp. 268–275, 2024.