PENGGUNAAN KAOLIN SEBAGAI FILLER BAN PADAT PADA STROLLER BABY ELLE MINI CAPSULE

Aprillena Tornadez Bondan, Nasruddin Nasruddin, Rori Andhika

Abstract


Penelitian tentang penggunaan kaolin dan zeosil sebagai pengisi ban padat untuk kereta bayi telah dilakukan. Kaolin sebagai pengisi dalam penelitian ini dengan perbandingan 45 phr hingga 65 phr. Rasio zeosil sebagai bahan pengisi penguat untuk memperbaiki sifat mekanik ban padat dan bahan aditif lainnya dikondisikan. Percobaan dilakukan dengan 5 (lima) formula. Parameter yang digunakan untuk melihat sifat mekanik ban padat terdiri dari specific gravity, hardness, abrasion resistance, dan tensile strength. Hardness sebagai parameter utama ban padat dari penelitian ini dibandingkan dengan hasil pengujian ban padat stroller baby elle kapsul mini dari pasaran. Data dari hasil pengujian, untuk formula STS-01 sampai STS-03 sebelum pengusangan nilai hardness 56 sampai 60 shore A. Nilai hardness setelah pengusangan 58-65 Shore A. Hardness sebelum pengusangan dari hasil penelitian ini memenuhi nilai hardness ban padat stroller baby elle mini capsule dari pasar yaitu 50 hingga 62 Shore A. Sebagai parameter pendukun dilakukan pengujian specific gravity sebelum pengusangan 1,335 - 1,360 g/cm3 , Specific gravity setelah pengusangan 1,327 - 1,355 g/cm3 . Abrasion resistance sebelum pengusangan 9,045-13,902 mm3 , Abrasion resistance setelah pengusangan 6,327-17,467 mm3 , dan tensile strength 9,875 hingga 11,07 MPa.


Keywords


ban padat, hardness, kaolin, stroller, zeosil

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References


Abrar Ahmed, Syed, V Dinesh, and Sreenivas H T. (2007). “Conceptual Design of Multipurpose Wheel Chair Equipped with Baby Stroller.” International Journal of Innovative Research in Science, Engineering and Technology (An ISO 3297: 3897–3903.

Ahmed, Nivin M, and Salwa H El-sabbagh. (2015). “The Influence of Doped-Kaolin on the Properties of Styrene-Butadiene Rubber Composites.” International Journal of Advanced Research 3(5): 1–19.

Al-Nesrawy, Samir Hassan, Mohammed Al-Maamori, A S Hassani, and Harith I Jaafar. (2014). “Effect of Mixture of Reclaimed Tire and Carbon Black Percent on the Mechanical Properties of SBR/NR Blends.” International Journal of Advanced Research 2(3): 234–43. http://www.journalijar.com/uploads/485_IJAR-2820.pdf.

Author, Mechanical Engineering, Erik Bengtsson Supervisor, and Marcus Eriksson. (2019). “Concept Develop- Ment of Stroller Wheel.” 00.

Birken, Catherine S. et al. (2015). “Parents’ Perception of Stroller Use in Young Children: A Qualitative Study.” BMC Public Health 15(1): 1–7. http://dx.doi.org/10.1186/s12889-015-1989-6.

Bundy, Wayne M., and Joseph N. Ishley. (1991). “Kaolin in Paper Filling and Coating.” Applied Clay Science 5(5–6): 397–420.

Cao, Chengming. (2019). “Design of Growth Baby Stroller Based on Computer Aided Innovation Technology.” MATEC Web of Conferences 267: 02005.

Ciro, Erwin, Jorge Parra, Manuel Zapata, and Edwin A. Murillo. (2015). “Effect of the Recycled Rubber on the Properties of Recycled Rubber/Recycled Polypropylene Blends.” Ingeniería y Ciencia 11(22): 173–88.

Du, Zhekang et al. (2010). “Safety Stroller.” (1): 118. https://deepblue.lib.umich.edu/bitstream/handle/2027.42/109379/me450w10project21_report.pdf?sequence=1.

El-Saied, Houssni et al. (2013). “Preparation of Modified Kaolin Filler with Cesium and Its Application in Security Paper.” Advances in Materials Science and Engineering 2013.

Fazli, Ali, and Denis Rodrigue. (2020). “Recycling Waste Tires into Ground Tire Rubber (GTR)/Rubber Compounds: A Review.” Journal of Composites Science 4(3): 103.

Guessoum, Melia, Sorya Nekkaa, Françoise Fenouillot-Rimlinger, and Nacerddine Haddaoui. (2012). “Effects of Kaolin Surface Treatments on the Thermomechanical Properties and on the Degradation of Polypropylene.” International Journal of Polymer Science 2012.

Van Hoek, Johannes W. et al. (2019). “Implications of the Use of Silica as Active Filler in Passenger Car Tire Compounds on Their Recycling Options.” Materials 12(5): 1–19.

Journal, Diyala. (2012). “Effect of Kaolin on the Mechanical Properties of Polypropylene / Polyethylene Composite.” Diyala Journal of Engineering Sciences 05(02): 162–78.

Kaewsakul, W., K. Sahakaro, W. K. Dierkes, and J. W.M. Noordermeer. (2013). “Optimization of Rubber Formulation for Silica-Reinforced Natural Rubber Compounds.” Rubber Chemistry and Technology 86(2): 313–29.

Kim, Il Jin et al. (2020). “Vulcanizate Structures of Sbr Compounds with Silica and Carbon Black Binary Filler Systems at Different Curing Temperatures.” Polymers 12(10): 1–15.

Koh, B. X., Umar Nirmal, and M.Y. Yuhazri. (2019). “Developments on Baby Strollers over the Last Decade.” Current Journal of Applied Science and Technology 33(6): 1–25.

Kokta, B. V., R. G. Raj, and C. Daneault. (1989). “Use of Wood Flour as Filler in Polypropylene: Studies on Mechanical Properties.” Polymer-Plastics Technology and Engineering 28(3): 247–59.

Kotas, Tadeusz et al. (2001). “Chapter 4 Numerical characteristics of random variables Chapter 4 Numerical characteristics of random variables.” Language, Society and Power. An Introduction 3(Chapter 4): 56–74.

Length, Full. (2007). “Effect of Coconut Fibre Filler on the Cure Characteristics Physicomechanical and Swelling Properties of Natural Rubber Vulcanisates.” International Journal of Physical Sciences 2(2): 39–46.

Meziane, O, A Bensedira, M Guessoum, and N Haddaoui. (2016). “Polypropylene-Modified Kaolinite Composites: Effect of Chemical Modification on Mechanical, Thermal and Morphological Properties.” Journal of Fundamental and Applied Sciences 8(2): 494.

Mohmmed, J. H. (2015). “Tensile and Compressive Properties of Kaolin Rienforced Epoxy.” Al-Khwarizmi Engineering Journal 11(October 2015): 96–101.

Nasruddin. (2018). Sifat Mekanik Rubber Waves Dari Komposit Karet Alam Dan Karet Sintesis Menggunakan Multi Filler.” Jurnal Dinamika Penelitian Industri: 35–45. http://ejournal.kemenperin.go.id/dpi/issue/view/565/showToc.

Nasruddin, and Tri Susanto. (2018). “The Effect of Natural Based Oil as Plasticizer towards Physics-Mechanical Properties of NR-SBR Blending for Solid Tyres.” Journal of Physics: Conference Series 1095(1).

Nasruddin, and Tri Susanto. (2020). “Study of the Mechanical Properties of Natural Rubber Composites with Synthetic Rubber Using Used Cooking Oil as a Softener.” Indonesian Journal of Chemistry 20(5): 967–78.

Nassruddin. (2017). “Karakteristik Sifat Mekanik Solid Tyre Dengan Bahan.” Jurnal Dinamika Penelitian Industri 28(1): 20–21. http://ejournal.kemenperin.go.id/dpi/article/view/2235.

Neves-Junior, W. F.P. et al. (2006). “Elastic Properties of Natural Rubber Tubes Produced by Dip-Coating.” Journal of Applied Polymer Science 100(1): 702–7.

Pandolfelli, Victor C. (2018. “And Al 2 O 3 – SiC – SiO 2 – C.” (April 2004): 1–7.

Pratama, Ajie et al. 2019. “Pengembangan Perancangan Stroller Dengan Meningkatkan Kenyamanan Dan Fungsional Untuk Anak Usia 1-3 Tahun Stroller Design Development By Increasing Comfortness and Function for Children Age 1-3.” 6(1): 495–504.

Rombaldi, Samuel H., Nilso José Pierozan, and Rosmary N. Brandalise. 2020. “Influence on Mechanical and Rheometric Properties through Different Methods of Chemical Modification of Silica Applied to Natural Rubber Compounds.” Journal of Elastomers and Plastics.

Sehat, A. R., and Umar Nirmal. 2017. “State of the Art Baby Strollers: Design Review and the Innovations of an Ergonomic Baby Stroller.” Cogent Engineering 4(1). http://doi.org/10.1080/23311916.2017.1333273.

Series, I O P Conference, and Materials Science. (2021). “Innovative And Ergonomic Design of Baby Stroller for Children ’ s 6 Months - 3 Years Old , QQRYDWLYH $ QG ( UJRQRPLF ’ HVLJQ RI % DE 6WUROOHU IRU.”

Sheikh, Saad H., Xuena Yin, Ali Ansarifar, and Keith Yendall. (2017). “The Potential of Kaolin as a Reinforcing Filler for Rubber Composites with New Sulfur Cure Systems.” Journal of Reinforced Plastics and Composites 36(16): 1132–45.

Surya, I., N. Hayeemasae, and M. Ginting. (2018). “Cure Characteristics, Crosslink Density and Degree of Filler Dispersion of Kaolin-Filled Natural Rubber Compounds in the Presence of Alkanolamide.” IOP Conference Series: Materials Science and Engineering 343(1): 1–7.

Surya, I., L. Sukeksi, and N. Hayeemasae. (2018). “Studies on Cure Index, Swelling Behaviour, Tensile and Thermooxidative Properties of Natural Rubber Compounds in the Presence of Alkanolamide.” IOP Conference Series: Materials Science and Engineering 309(1): 0–6.

Tole, Ilda, Karin Habermehl-Cwirzen, and Andrzej Cwirzen. (2019). “Mechanochemical Activation of Natural Clay Minerals: An Alternative to Produce Sustainable Cementitious Binders – Review.” Mineralogy and Petrology 113(4): 449–62.

Ulfah, Ika Maria et al. (2015). “Influence of Carbon Black and Silica Filler on the Rheological and Mechanical Properties of Natural Rubber Compound.” Procedia Chemistry 16: 258–64.

Yang, Zhe, Hongdan Peng, Weizhi Wang, and Tianxi Liu. (2010). “Crystallization Behavior of Poly(ε-Caprolactone)/Layered Double Hydroxide Nanocomposites.” Journal of Applied Polymer Science 116(5): 2658–67.

Zaeimoedin, Teku Zakwan, and Jane Clarke. (2017). “Improving the Abrasion Resistance of “Green“ Tyre Compounds.” Proceedings of the World Congress on Mechanical, Chemical, and Material Engineering: 1–6.

Zafarmehrabian, Ramin, Saeed Taghvaei Gangali, Mir Hamid Reza Ghoreishy, and Mehran Davallu. (2012). “The Effects of Silica/Carbon Black Ratio on the Dynamic Properties of the Tread Compounds in Truck Tires.” E-Journal of Chemistry 9(3): 1102–12.

Zhang, Chunhua et al. (2019). “Preparation of Dispersible Nanosilica Surface-Capped by Hexamethyl Disilazane via an in Situ Surface-Modification Method and Investigation of Its Effects on the Mechanical Properties of Styrene–Butadiene/Butadiene Rubber.” Journal of Applied Polymer Science 136(30): 1–6.




DOI: http://dx.doi.org/10.28959/jdpi.v32i1.6961

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