Teknik Sipil

civil@unpar.ac.id

(022) 203 2655

C4GH – Papers & Proceeding

Our publication can be reach out at https://www.researchgate.net/profile/Budijanto-Widjaja-2

  1. Widjaja, B. (2010). SEISMIC GROUND RESPONSE OF TAIPEI BASIN CASE STUDY: CHI-CHI EARTHQUAKE.
  2. Widjaja, B. (2010). Behaviour of Mudflow and Its Impact for Land Use Planning. 
  3. KARAKTERISTIK PARAMETER REOLOGI LUMPUR SIDOARJO DAN SIMULASI NUMERIK PENYEBARAN LUMPUR UNTUK PENGEMBANGAN PETA RESIKO BENCANA
  4. Widjaja, B. (2015). Reccomendation of Viscosity Values for Mudflow. https://doi.org/10.13140/RG.2.1.2690.4169
  5. Widjaja, B., Hsien-Heng Lee, S., & Aila, W. (2013). Mudflow Simulation in Sukaresmi. 
  6. Widjaja, B., & Hsien-Heng Lee, S.  Flow Box Test for the Prediction of Mudflow Initiation. 
  7. Widjaja, B., & Aila, W. (2013). SIMULASI MUDFLOW DI SUKARESMI CIANJUR. 
  8. Lee, S. H., Widjaja, B. (2012). PHASE CONCEPT STUDY OF MUDFLOW INITIATION AT THE CIWIDEY TEA PLANT IN INDONESIA
  9. Lee, S. H., & Widjaja, B. (2012). ELUCIDATING THE INITIATION OF MUDFLOW AT KARANGANYAR. 
  10. Lee, S. H., & Widjaja, B. (2011). Theory and Application of Flow Box Test Result to Explain Initiation of Mudflow. 
  11. Widjaja, B., Lee, S. H. PEMODELAN PERGERAKAN MUDFLOW DI LABORATORIUM
  12. Widjaja, B. (2010). Case study of mudflow using Flo2d. 
  13. Widjaja, B., & Dewanto, I. R. (2017). Simulasi mud volcano di Desa Napan Nusa Tenggara Timur menggunakan Program Flo2D dan RAMMS. 
  14. Widjaja, B. (2015). Studi Eksperimental Penentuan Viskositas pada Tanah Ekspansif (Experimental Study for Soil’s Viscosity in Expansive Soils). https://doi.org/10.13140/RG.2.1.2166.1281
  15. Widjaja, B., & Setiabudi, D. W. (2014). Penentuan Parameter Reologi Tanah Menggunakan Uji Geser Baling-Baling untuk Menjelaskan Pergerakan Mudflow. https://doi.org/10.13140/RG.2.1.3702.1284
  16. Hsien-Heng Lee, S., Widjaja, B., & Hsien Heng Lee, S. (2011). Numerical Simulation of Mudflow using Moving Ball Test Result.
  17. Widjaja, B., & Lee, S. H. H. (2013). Flow box test for viscosity of soil in plastic and viscous liquid states. Soils and Foundations, 53(1), 35–46. https://doi.org/10.1016/j.sandf.2012.12.002
  18. Widjaja, B., & Florentini, F. (2020). Determining Flow Limit using Fall Cone Penetration Test. 
  19. Lim, A., WIDJAJA, B., & Suryo, K. (2019). Numerical Modeling of the Casagrande Cup Test with Newmarks Method. 11–15. https://doi.org/10.15224/978-1-63248-166-5-02
  20. Lim, A., Pratama, I. T., Widjaja, B., Tjahjanto, H. H., Tjondro, J. A., Wijaya, O. T., Ginting, B. M., Setiawan, T. H., Adianto, Y. L. D., Hidayat, F., Hartieni, P., William, O., Aldrianita, T., & Fadhil, I. A. (2024). Landslide Treatment in the Al-Husainiyyah Junior High School Area using Cantilever-Geofoam Wall. Dinamisia : Jurnal Pengabdian Kepada Masyarakat, 8(4), 1139–1153. https://doi.org/10.31849/dinamisia.v8i4.19519
  21. Pascayulinda, D., Widjaja, B., & Wijaya, M. (2024). Analysis of Chloride Contaminant Transport in Tailings Storage Facility Dam (Case Study: Gold Mine in Sumatra). Journal of the Civil Engineering Forum, 183–194. https://doi.org/10.22146/jcef.9520
  22. Widjaja, B., Naba, S., & Amartiawati, N. (n.d.). Banjarnegara Landslide and Mudflow: Rheological parameters and numerical simulation using Bingham’s model. https://www.researchgate.net/publication/321005773
  23. Widjaja, B., & Justin Wismanto, V. (2019, November 17). Design of a Mechanically Stabilized Earth Wall with Geotextile Reinforcement in Accordance with the Federal Highway Administration Standard. https://doi.org/10.2991/icosite-19.2019.28
  24. Widjaja, B., & Stevanus Prakoso, J. (2017). Mass Movement Using the Bingham Fluid Model and the Voellmy Fluid Friction Model. (Case Study of Songan Village, Kintamani, Bali). https://www.researchgate.net/publication/326632530
  25. Widjaja, B., & Alfionida, V. (2018). KAJIAN STABILITAS TITIK P21 LERENG TANGGUL PENAHAN LUMPUR SIDOARJO. Jurnal Teknik Sipil, 14(2), 109–117. https://doi.org/10.24002/jts.v14i2.1529
  26. Widjaja, B., & Wibowo, D. M. (2019). Studi Kasus Aliran Lumpur di Desa Pasir Panjang Menggunakan Program FLO-2D. Jurnal Manajemen Aset Infrastruktur & Fasilitas, 3(0). https://doi.org/10.12962/j26151847.v3i0.5732
  27. I. R. Naikofi, M., Widjaja, B., & Rahardjo, P. P. (2020). STUDI ANGLE OF REPOSE MUD VOLCANO DI DESA NAPAN PULAU TIMOR. Jurnal Deformasi, 4(2), 92. https://doi.org/10.31851/deformasi.v4i2.3557
  28. Widjaja, B., Pratama, I. T., & Sutanto, D. (2023). Jurnal Aplikasi Teknik Sipil Studi Parametrik Pengaruh Spasi, Panjang, dan Kuat Tarik Geogrid Terhadap Mechanically Stabilized Earth Wall di Boyolali (Vol. 21, Issue 4). http://iptek.its.ac.id/index.php/jats
  29. Widjaja, B., & Pascayulinda, D. (2018). Initial recommendation criteria for distinguishing between landslides and mudflows based on several case studies in Java and Bali. 
  30. Widjaja, B., & Gautama, K. A. (n.d.). Debris Flow Threat in Poi Village after 2018 Palu Earthquake: Simulation and Recommendations. https://www.researchgate.net/publication/338417984
  31. Pratama, I. T., Widjaja, B., & Hutabarat, G. M. (2022). EVALUASI DAN DESAIN PERBAIKAN DINDING PENAHAN TANAH TIPE DINDING GRAVITASI DI CIKUPA, TANGERANG, BANTEN. Jurnal Arsip Rekayasa Sipil Dan Perencanaan, 5(4), 265–274. https://doi.org/10.24815/jarsp.v5i4.27492
  32. Widjaja, B., & Florencia, L. (n.d.). Empirical Relationship To Explicate Mudflow Behaviour. https://doi.org/10.15224/978-1-63248-195-5-13
  33. Widjaja, B., Utama, R., & Saerang, D. S. S. (2019). Drivability analysis based on the mathematical model of soil flow resistance. In IOP Conference Series: Materials Science and Engineering (Vol. 620, Issue 1). IOP Publishing Ltd. 
  34. Widjaja, B., Utama, R., & Saerang, D. S. S. (2019). Drivability analysis based on the mathematical model of soil flow resistance. In IOP Conference Series: Materials Science and Engineering (Vol. 620, Issue 1). IOP Publishing Ltd. 
  35. Widjaja, B., & Fransisca, F. (n.d.). AFFECTED AREA DUE TO DAM FAILURE: CASE STUDY SIDOARJO MUD-POINT P21. 
  36. Naba, S., Amartiawati, N., & Widjaja, B. (2015). Landslide and Mudflow: Behavior and Simulation. 
  37. Perguruan, P., Dalam Pembangunan, T., Untuk, B., Sunandar, C., & Widjaja, D. B. (2016). PENENTUAN PARAMETER REOLOGI LUMPUR SIDOARJO DENGAN FALL CONE PENETROMETER, MINI VANE SHEAR DAN FLOW BOX. In Seminar Nasional Teknologi dan Sains (SNTS) II.
  38. Widjaja, B. (2019). Landslide and Mudflow Behavior Case Study in Indonesia: Rheology Approach. IPTEK Journal of Proceedings Series, 0(3), 93. https://doi.org/10.12962/j23546026.y2019i3.5849
  39. Widjaja, B., & Setiawan, A. B. (2016). BACK ANALYSIS OF PARUNGPONTENG LANDSLIDE USING RHEOLOGICAL APPROACH. 
  40. Widjaja, B., & Rahardjo, P. P. (2017). STUDI REOLOGI MUD VOLCANO DI DESA NAPAN PULAU TIMOR DENGAN FLOW BOX TEST. 
  41. Widjaja, B., Andriani, D., Sutisna, R. A., & Fitri, A. D. (2015). Alternative Way for Determination of Yields Stress as Rheology Parameter for Mudflow. In International Journal of Civil and Structural Engineering-IJCSE (Vol. 2, Issue 2). 
  42. Johan, A., Sugianto, A., Arafianto, A., & Rahardjo, P. P. (2020). Kajian Penahan Aliran Debris Menggunakan Sistem Ring Net Barrier Sebagai Alternatif Sabo Dam di Indonesia. Proceedings of 24th Annual National Conference on Geotechnical Engineering, Jakarta:10-12 November 2020.  (P. 237-146). https://doi.org/10.5281/zenodo.10465958
  43. Widjaja, B., & Gautama, K. A. (n.d.). Prediksi Dampak Longsor Susulan di Desa Poi Palu dengan Model Bingham. Proceeding of “Seminar Nasional Teknik Sipil 2019”, Surakarta: 30th April 2019. (p. 95-99)
  44. Widjaja, B., Kurniawan, J., Ferry, H., & Dite, A. (2017). Rheological approach to determining the behavior of mass movement in Pangalengan, Indonesia . Proceeding of the 19th INternational Conference on Soil Mechanics and Geotechnical Engineering, Seoul, 17-22 September 2017. (P. 3541-3544)
  45. Setiadjie, S.J., Widjaja, B., Bning, B.B. (2024). Mudflow Simulation in Cipongkor, West Bandung Using Rheological Approach. Proceeding of International Joint Symposium (IJS) 2024, Surabaya: 4-6 December 2024. (p 184-189)
  46. Widjaja, B., Hafizudin, A. (2024). Assessing the Impact of Sidoarjo Mud Dam-Break: Developing A Hazard Rik Map for the West Site.Proceeding of International Joint Symposium (IJS) 2024, Surabaya: 4-6 December 2024. (p 190-196)
  47. Widjaja, B., Bning, B.B. (2024). Mudflow in Cibenda Village: Soil Characteristics and Numerical Simulation.Proceeding of International Joint Symposium (IJS) 2024, Surabaya: 4-6 December 2024. (p 207-212)