Fakultas Teknik Sipil dan Lingkungan - [:id]itb[:en]Fakultas Teknik Sipil dan Lingkungan[:]

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Ir. Dedi Apriadi, MT., Ph.D
Research Interests
  • Advanced Constitutive modeling & computational geotechnics
  • Geotechnical earthquake engineering
  • Dynamic soil properties
  • Advanced Foundation Engineering
  • Landslide Risk Assessment
  • Soil-Structure interaction
Keywords

Numerical modelling, soil constitutive model, landslide risk assessment

Email : [at]si.itb.ac.id

Pendidikan

  • Ph.D, Doctor of Philosophy, Chulalongkorn University, Thailand, 2009
  • MT, Magister Teknik, Civil Engineering Department, Institut Teknologi Bandung, Indonesia, 1996
  • Ir, Sarjana Teknik, Civil Engineering Department, Institut Teknologi Bandung, Indonesia, 1990.

Experience & Achievement

Achievement/Award
  • Pemakalah terbaik pada Konferensi Nasional Teknik Sipil (2020)
Experience
  • Tim ahli pemeriksaan fisik tipikor ditangani oleh kejaksaan Tinggi Kalimantan Tengah (2018)
  • Pelaksanaan Kegiatan Survei Geoteknik untuk Mendukung Kegiatan Pra Studi Kelayakan Peningkatan Kecepatan Kereta Api Koridor Jakarta Surabaya (2017)
  • Speaker on Geotechnical Engineering Training – ConocoPhillips Indonesia Inc. Ltd. (2016)
Paten
Organization
  • Japan Society of Civil Engineering (JSCE)
  • Himpunan Ahli Teknik Tanah Indonesia (HATTI)
  • Building Construction Advisory Committee, Bandung

Research

  • Apriadi, D., Bernessa, R. A., Marsa, N. A. (2019). Finite Element Study of Vacuum Preloading and Prefabricated Vertical Drains Behavior for Soft Soil Improvement. Jurnal Teknik Sipil.
  • Yunita H., Hendriyawan, Apriadi D. (2015). An overview of soil models for earthquake response analysis. Journal of Engineering and Technological Sciences.
  • Apriadi D., Likitlersuang S., Pipatpongsa T. (2013). Loading path dependence and non-linear stiffness at small strain using rate-dependent multisurface. Computers and Geotechnics.
  • Apriadi, D., Likitlersuang, S., Pipatpongsa, T., Ohta, H. (2009). On the numerical implementation of hyperplasticity non-linear kinematic hardening modified cam clay. IES Journal Part A: Civil and Structural Engineering.
  • Apriadi, D. Tunita, H. Likitlersuang, S. (2011). Development of Pre-consolidation Pressure Dependence of Mixed Hardening Multisurface Hyperplasticity Model for Better Prediction of Earthquakes Ground Response Analysis Part I: Model Formulation. Jurnal Teknik Sipil.
  • Apriadi, D. (2004). Proposed New Strong Motion Attenuation Relations for Subduction Zone Earthquakes. Jurnal Teknik Sipil.
  • Apriadi, D., Sengara, I. W. (2001). Elasto-Viscoplastic Modeling for the Stress-Strain-Time Behavior of Clays. Jurnal Teknik Sipil.
  • Apriadi, D., Likitlersuang, S., and Konkong, N. (2007). Model Prediction of DSS Stress-Strain Behavior of Bangkok Clay. Proc. of International Symposium on Geotechnical Engineering, Ground Improvement and Geosynthetics for Human Security and Environmental Preservation, Bangkok, Thailand.
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