People Rachmadian Wulandana

Lecturer, Department of Mechanical Engineering and Materials Science

Phone: 412-624-3221
Fax: 412-624-4846
Office: BENDM 640

Education

PhD, University of Pittsburgh, 2003
MS, University of Pittsburgh, 1996
BS, Bandung Institute of Technology, Indonesia, 1992

Professional Interests

Dr. Wulandana’s research interest has been focused on elucidating the effects of physiologically abnormal stresses on the structure and mechanical properties of vascular tissues using in vitro model systems.  His aim is to develop constitutive models that incorporate the structural components of tissues as well as their responses to normal and abnormal loading conditions introduced by pathological geometrical alteration, damaged, or surgical procedures. The constitutive models are expected to help predicting tissue behavior under these abnormal circumstances. Dr. Wulandana is also interested in mechanics of valvular tissues, blood rheology and problems involving complex fluid and heat transfer.

Selected Publications

Wulandana, R., and A.M. Robertson, An Inelastic and Nonlinear Multi-Mechanism Constitutive Equation for Inflation of Cerebral Arterial Segment, Biomechanics and Modeling in Mechanobiology (2005) 4: 235-248

R. Wulandana and A. M. Robertson: A Model of Early Stage Aneurysm Development Based on an Inelastic Multi-Mechanism Constitutive Model, BED-Vol. 50, ASME 2001 Bioengineering Conference, p. 419-420, 2001

 R. Wulandana and A. M. Robertson: Use of A Multi-Mechanism Constitutive Model for Inflation of Cerebral Arteries, Proceedings of the First Joint BMES/EMBS Conference, p.235, 1999

Chung, B. J., R. Wulandana and A. Vaidya, Stability of Steady Channel Flow with Temperature Dependent Viscosity, International Journal of Applied Mathematics and Mechanics, (2006) 2(1): 34-40

A. Vaidya and R. Wulandana, Nonlinear Stability for Convection with Quadratic Temperature Dependent Viscosity (Mathematical Methods in the Applied Sciences, accepted for publication on February 2006).

M. Massoudi, A. Vaidya and Wulandana, R., Natural Convection Flow of a Generalized Second Grade Fluid between Two Vertical Plates (Nonlinear Analysis: Real World Applications; in press).

Faculty

• John A. Barnard
• Sung Kwon Cho
• Minking K. Chyu
• William W. Clark
• Daniel G. Cole
• Anthony J. DeArdo
• Pradeep P. Fulay
• Giovanni P. Galdi
• Peyman Givi
• Brian Gleeson
• Jennifer Gray
• Prashant Kumta
• Jung-Kun Lee
• John P. Leonard
• Scott X. Mao
• Gerald H. Meier
• Ian Nettleship
• Anne M. Robertson
• Laura Schaefer
• William S. Slaughter
• Patrick Smolinski
• Jeffrey S. Vipperman
• Qing-Ming Wang
• Lisa Mauck Weiland
• Jörg M. K. Wiezorek
• Sylvanus N. Wosu
• Judith C. Yang

Adjunct/Joint Faculty

• Larry Foulke
• Freddie Fu
• Howard A. Kuhn
• Henry R. Pieler
• George A. Richards
• Scott Tashman
• Phuoc X. Tran
• James H-C Wang
• Savio L-Y. Woo
• Xudong Zhang

Emeritus Faculty

• Jean R. Blachère
• James L. Chen
• Richard S. Dougall
• Nicholas G. Eror
• Charles C. Hwang
• Michael J. Kolar
• Norman Laws
• Roy D. Marangoni
• Joseph H. Magill
• Frederick S. Pettit
• Donald J. Plazek
• T. C. Woo

Research Faculty

• Ram Darolia
• C. Isaac Garcia
• Mingjian Hua
• Mark C. Miller
• Meltem Yanar

Lecturers

• David L. Aumiller Jr.
• Vincent J. Esposito
• David P. Griesheimer
• David W. Helling
• Stephen J. Ludwick Jr.
• John D. Metzger
• Rachmadian Wulandana