ANALISA RANCANGAN DINDING MODULAR DENGAN SISTEM INTERLOCK SEBAGAI KONTRUKSI BANGUNAN BAJA SEMENTARA DI REMOTE AREA
DOI:
https://doi.org/10.22441/jtm.v10i2.11464Keywords:
Dinding Mengikat, Dinding Modular, Selungkup, Rumah Kelistrikan, Kios Metal, Sistem pengunciAbstract
Pada ekonomi dunia yang kompetitif saat ini, operasi kontruksi bagunan harus bereaksi dengan cepat dan fleksibel untuk memenuhi permintaan pelanggan dengan tetap mempertahankan atau meningkatkan daya saing berkaitan dengan biaya produksi mereka sendiri. Sementara itu, masih banyak pengerjaan kontruksi dilakukan di lokasi project tesebut sedangkan jika menggunakan system plug and play pengerjaan di lokasi project akan diminimalisir dengan proses pabrikasi terlebih dahulu kemudian pengerjaan dilapangan hanya sebatas peletakan saja.
Berdasarkan hal tersebut, pada penelitian ini dibuat suatu rancangan modular dinding dengan sistem interlock pada bagunan sementara / mobile building. Yang dimaksud modular dinding dengan sistem interlock adalah modul-modul dinding standard yang dibuat saling mengikat satu dengan yang lainya sehingga mendapatkan kekuatan dengan pressure tertentu & pengaturan suhu ruang tertentu yang dapat disesuaikan dengan kebutuhan pelanggan dengan minimum index protection/IP44 – IP65 dengan menggunakan material plat baja dengan ketebalan 1.5mm tanpa pengerjaan pengelasan hanya dengan menggunakan sambungan antar dinding dengan menggunakan screw.
Berdasarkan hasil observasi dilapangan masih banyak ditemukan proses kontruksi bangunan sementara dilakukan dilapangan tentu saja ini memerlukan pembiayaan yang tidak sedikit karena rata-rata project pembuatan bangunan sementara terdapat dilokasi yang terpencil, sehingga untuk transportasi, supply bahan baku dan biaya akomondasi untuk pekerja yang bekarja di area project tersebut menjadi sangat tinggi. Maka dari itu dengan proses pengerjaan kontruksi dilakukan secara pabrikasi terlebih dahulu diharapkan dapat menekan pembiayaan-pembiayaan diatas.
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Abdunnaser, S. (2015). Pengaruh Media Pendinginan Terhadap Sifat Mekanik dan Struktur Mikro Plat Baja Karbon ASTM A-36. Bina Teknika, 11(2), 155–170.
Armstrong, R. W. (2019). Size effects on material yield strength/deformation/fracturing properties. Journal of Materials Research, 34(13), 2161–2176. https://doi.org/10.1557/jmr.2018.406
Berg, H.-P., & Fritze, N. (2018). Risk and Consequences of Transformer Explosions and Fires in Nuclear Power Plants / Ryzyko I Konsekwencje Wybuchów Transformatora I Pożarów W Elektrowniach Jądrowych. In Journal of KONBiN (Vol. 23, Issue 1, pp. 5–16). https://doi.org/10.2478/jok-2013-0034
Chongkhong, S. (2014). International Transaction Journal of Engineering , Management , & Applied Sciences & Technologies Optimization of Enzymatic Clarification from Corncob. 5(1), 67–76.
Kelautan, F. T. (2014). STUDI EKSPERIMEN PENGARUH QUENCHING MIKRO PADA SAMBUNGAN PLAT ASTM A36.
Naik, D. L., Sajid, H. U., & Kiran, R. (2019). Texture-based metallurgical phase identification in structural steels: A supervised machine learning approach. Metals, 9(5), 1–27. https://doi.org/10.3390/met9050546
Preedawiphat, P., Mahayotsanun, N., Sa-ngoen, K., Noipitak, M., Tuengsook, P., Sucharitpwatskul, S., & Dohda, K. (2020). Mechanical investigations of astm a36 welded steels with stainless steel cladding. Coatings, 10(9). https://doi.org/10.3390/coatings10090844
Sugeng, U. M., & Harfi, R. (2015). Perancangan Dan Analisa Biaya Alat Penguji Kekuatan Tekan Genteng Keramik Berglazur. Program Studi Teknik Industri Institut Sains Dan Teknologi Nasional, 2(1), 10. https://jurnal.umj.ac.id/index.php/jisi/article/view/916
Sutikno, E., Mesin, T., & Brawijaya, U. (2011). PADA DESAIN CARBODY TeC RAILBUS DENGAN. 2(1), 65–81.
Abdunnaser, S. (2015). Pengaruh Media Pendinginan Terhadap Sifat Mekanik dan Struktur Mikro Plat Baja Karbon ASTM A-36. Bina Teknika, 11(2), 155–170.
Armstrong, R. W. (2019). Size effects on material yield strength/deformation/fracturing properties. Journal of Materials Research, 34(13), 2161–2176. https://doi.org/10.1557/jmr.2018.406
Berg, H.-P., & Fritze, N. (2018). Risk and Consequences of Transformer Explosions and Fires in Nuclear Power Plants / Ryzyko I Konsekwencje Wybuchów Transformatora I Pożarów W Elektrowniach Jądrowych. In Journal of KONBiN (Vol. 23, Issue 1, pp. 5–16). https://doi.org/10.2478/jok-2013-0034
Chongkhong, S. (2014). International Transaction Journal of Engineering , Management , & Applied Sciences & Technologies Optimization of Enzymatic Clarification from Corncob. 5(1), 67–76.
Kelautan, F. T. (2014). STUDI EKSPERIMEN PENGARUH QUENCHING MIKRO PADA SAMBUNGAN PLAT ASTM A36.
Naik, D. L., Sajid, H. U., & Kiran, R. (2019). Texture-based metallurgical phase identification in structural steels: A supervised machine learning approach. Metals, 9(5), 1–27. https://doi.org/10.3390/met9050546
Preedawiphat, P., Mahayotsanun, N., Sa-ngoen, K., Noipitak, M., Tuengsook, P., Sucharitpwatskul, S., & Dohda, K. (2020). Mechanical investigations of astm a36 welded steels with stainless steel cladding. Coatings, 10(9). https://doi.org/10.3390/coatings10090844
Sugeng, U. M., & Harfi, R. (2015). Perancangan Dan Analisa Biaya Alat Penguji Kekuatan Tekan Genteng Keramik Berglazur. Program Studi Teknik Industri Institut Sains Dan Teknologi Nasional, 2(1), 10. https://jurnal.umj.ac.id/index.php/jisi/article/view/916
Sutikno, E., Mesin, T., & Brawijaya, U. (2011). PADA DESAIN CARBODY TeC RAILBUS DENGAN. 2(1), 65–81.
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