BOOK/BOOK-CHAPTER PUBLICATION

Mitra, N. “Marine Sandwich Structures” in “Wiley Encyclopedia of Composites – 2nd Edition”; 5 volume set edited by Luigi Nicolais and Assunta Borzacchiello and Stuart M. Lee, Published by John Wiley and Sons Inc. [ISBN-10: 0470128283; ISBN-13: 978-0470128282]

Mitra, N. “Explosion-induced shock waves through a medium and associated structural response” in “Blast Mitigation strategies in marine composite and sandwich structures”; – Springer transactions in civil and environmental engineering- 1st Edition. Edited by Srinivasan Gopalakrishnan and Yapa Rajapakse, Published by Springer Nature Singapore Pte. Ltd. [ISBN-10: 9811071691; ISBN-13: 978-98110716910]

REFERRED JOURNAL PUBLICATION

  • *Prasad, D., Mitra, N. (2022). “Surface reactivity of cementitious crystals: Alite and Belite.” Journal of Physical Chemistry C. 126(27): 11265-11276. doi: 10.1021/acs.jpcc.2c00992
  • *Prasad, D., Mitra, N. (2022). “High temperature-high pressure plastic phase of ice at the boundary of liquid water and ice VII.” Proceedings of the Royal Society of London A: Mathematical, Physical and Engineering Sciences, 478(2260): 20210958. doi: 10.1098/rspa.2021.0958
  • Ramesh, K.T., Graham-Brady, L., Goddard, W.A., Hurley, R.C., Robbins, M., Tonge, A.L., Bhattacharjee, A., Clemmer, J.T., Zeng, Q., Li, W., Shen, Y., An, Q., Mitra, N. (2021). “Models for the behavior of boron carbide in extreme dynamic environments.” Journal of the American Ceramic Society. 105(5):3043-3061. doi: 10.1111/jace.18071
  • *Sarkar, P.K., Mitra, N. (2021). “Molecular level study of uni/multi-axial deformation response of tobermorite 11 Å : A force field comparison study.” Cement and Concrete Research, 145, 106451. doi: 10.1016/j.cemconres.2021.106451
  • *Sindhu, P.S., Mitra, N., Ghindani, D., Prabhu, S.S. (2021). ” Epoxy resin (DGEBA/TETA) exposed to water: A spectroscopic investigation to determine water-epoxy interactions.” Journal of Infrared, Millimeter and Terahertz waves, 42(5): 558-571. doi: 10.1007/s10762-021-00788-5
  • *Pal, S., Mitra, N. (2021). “Shock wave propagation through air: A reactive molecular dynamics study.” Proceedings of the Royal Society of London A: Mathematical, Physical and Engineering Sciences, 477(2247): 20200676. doi: 10.1098/rspa.2020.0676
  • *Sarkar, P.K., Mitra, N. (2021). “Thermal conductivity of cement paste: Influence of macro-porosity.” Cement and Concrete Research, 143:106385. doi: 10.1016/j.cemconres.2021.106385
  • *Rawat, S., Mitra, N. (2021). “{10-12} twinning in single crystal titanium under shock loading” Philosophical Magazine, 101(7): 836-850. doi: 10.1080/14786435.2021.1873449
  • *Sarkar, P.K., Mitra, N. (2021). “Molecular deformation response of portlandite under compressive loading.” Construction and Building Materials, 274: 122020. doi: 10.1016/j.conbuildmat.2020.122020
  • *Rawat, S., Mitra, N. (2021). “Evolution of microstructural deformation mechanisms under equal-channel angular extrusion loading conditions: A molecular dynamics case study of single crystal titanium.” Philosophical Magazine, 101(4), 435-449. doi; 10.1080/14786435.2020.1844331
  • *Kasu, S.R., Mitra, N., Reddy, M.A. (2020). “Influence of polyester microfiber reinforcement on flexural fatigue characteristics of concrete.” Road Materials and Pavement Design, 22(12): 2866-2882. doi: 10.1080/14680629.2020.1808521.
  • *Pal, S., Mitra, N., *Sarkar, P.K., *Prasad, D. (2020). “Stretch induced helix to extended-coil transition of crystalline \alpha phase isotactic polypropylene: A molecular dynamics study.” Polymer Crystallization, 3(4), e10143. doi: 10.1002/pcr2.10143
  • *Deb, S., Mitra N., Basu Majumdar, S., Roy D. (2020). “Rate of hydration of lignocellulosic fiber reinforced hydrated cement.” ACI Materials Journal, 117(6), 177-186. doi: 
  • *Sindhu, P.S., Ghindani, D., Mitra, N., Prabhu, S.S. (2020). “Morphological changes in Epoxy resin (DGEBA/TETA) exposed to low temperatures.” Journal of Adhesion Science and Technology, 34(20), 2262-2273. doi: 10.1080/01694243.2020.1756157
  • *Ghoshal, R., and Mitra, N. (2020). “Underwater Oblique shock wave reflection from submerged hydraulic structures.” Ocean Engineering, 209, 107324. doi: 10.1016/j.oceaneng.2020.107324
  • *Rawat, S., Mitra, N. (2020). “Twinning, phase transformation and dislocation evolution in single crystal Titanium under uniaxial strain conditions: A molecular dynamics study.” Computational Materials Science, 172, 109325. doi: 10.1016/j.commatsci.2019.109325
  • *Deb, S., Mitra N., Maitra, S., Basu Majumdar, S. (2020). “Comparison of mechanical performance and life cycle cost of natural and synthetic fiber reinforced cementitious composites.” Journal of Materials in Civil Engineering ASCE, 32(6), 04020150. 
  • *Deb, S., Mitra N., Basu Majumdar, S. (2020). “Influence of surface morphology of fibers on the tensile and flexural ductility of polypropylene reinforced cementitious composites.” Journal of Materials in Civil Engineering ASCE, 32(4), 04020042. 
  • Mitra, N., *Patra A., *Singh, S.P., *Mondal S., Datta, P.K., Varshney, S.K. (2020). “Interfacial delamination in glass-fiber/polymer-foam-core sandwich composites using Singlemode-multimode-singlemode optical fiber sensors: Identification based on experimental investigation.” Journal of Sandwich Structures and Materials. 22(1). 40-54.   
  • *Sarkar, P.K., Mitra N., *Prasad, D. (2019). “Molecular level deformation mechanism of Ettringite.” Cement and Concrete Research, 124, 105836
  • *Kasu, S.R., *Deb, S., Mitra, N., Reddy, M.A., Reddy, K.S. (2019). “Influence of aggregate size on flexural fatigue response of concrete.” Construction and Building Materials, 229, 116922.
  • Dey, U., Mitra, N., and Taraphder, A. (2019). “High temperature – High pressure phase transformation of Cu.” Computational Materials Science, 170, 109154
  • *Prasad, D., Mitra, N., and Bandopadhyay, S. (2019). “Intermolecular dynamics of water: Suitability of Reactive Interatomic Potential.” The Journal of Physical Chemistry B, 123, 6529-6535.
  • Mitra, N., *Prasad, D., and Banerjee, S. (2019). “Identification of molecular vibrations associated with tacticity in polypropylene: Density functional theory based simulations.” Journal of Polymer Science, Part B: Polymer Physics, 57(20), 1378-1385. 
  • *Sarkar, P.K., and Mitra N. (2019). “Compressive response of tricalcium aluminate crystal: Molecular Dynamics investigations.” Construction and Building Materials, 224, 188-197. 
  • Mitra, N., *Sarkar, P.K. and *Prasad, D. (2019). “Intermolecular dynamics of ultraconfined interlayer water in Tobermorite: influence on mechanical performance.” Physical Chemistry Chemical Physics, 21, 11416. 
  • Mitra, N., *Patra A., *Mondal, S., and Datta, P.K. (2019). “Interfacial delamination crack profile estimation in polymer foam-cored sandwich composites.”  Engineering Structures, 189, 635-643.  
  • *Sarkar, P.K., and Mitra N. (2019). “Role of confined interstitial water in compressive response of calcium sulfate (CaSO4. n H2O) [n = 0, 0.5, 1.0].” Journal of Solid State Chemistry, 274, 188-198.  
  • *Sindhu, P.S., *Prasad, D, Peli, S., Mitra, N., Datta, P.K. (2019). “Terahertz spectroscopy of diglycidylether of bisphenol A: Experimental investigations and Density functional theory based simulations.” Journal of Molecular Structure, 1184, 114-122.  
  • Bisht, A., *Neogi, A., Mitra, N., Jagadeesh, G., Suwas, S. (2019). “Investigation of the elastically shock-compressed region and elastic-plastic shock transition in single crystalline copper to understand the dislocation nucleation mechanism under shock compression.” Shock Waves, 29(7), 913-927.  
  • *Sarkar, P.K., and Mitra N. (2019). “Gypsum under tensile loading: A molecular dynamics study.” Construction and Building Materials, 201, 1-10.  
  • *Prasad, D., and Mitra N. (2019). “An atomistic study of phase transition in cubic diamond Si single crystal subjected to static compression.” Computational Materials Science, 156, 232-240.  
  • Mitra N., *Sarkar, P.K., *Deb, S., Basu Majumdar, S. (2019). “Multiscale estimation of elastic constants of hydrated cement.” Journal of Engineering Mechanics ASCE, 145(4), 04019014.  
  • *Deb, S., Mitra N., Basu Majumdar, S., Maitra, S. (2018). “Improvement in tensile and flexural ductility with addition of different types of polypropylene fibers in cementitious composites.” Construction and Building Materials, 180, 405-411.  
  • *Deb, S., Samuelraj, I.O., Mitra N., Jagadeesh, G. (2019). “Microstructural response of shock loaded concrete, mortar and cementitious composite materials in a shock tube setup.” Journal of Materials in Civil Engineering ASCE, 31(4), 04019029.  
  • Mitra, S., Mitra, N., Lakshminarayana, K.S.V. (2018). “Pedestrian injury severity in the event of collision with a truck: are energy absorbing adaptive deformable fronts suitable?” International Journal of Vehicle Safety, 10(3), 235-252.  
  • *Sarkar, P.K., and Mitra N. (2018). “Molecular mechanisms of Tricalcium Aluminate under tensile loads.” Computational Materials Science, 154, 547-556.  
  • *Ghoshal, R., and Mitra, N. (2018). “Underwater Oblique shock wave reflection.” Physical Review Fluids. 3, 013403.  
  • *Neogi, A., Mitra, N., Talreja, R. (2018). “Cavitation in epoxies under composite-like stress state.” Composites Part A. 106, 52-58.  
  • *Rawat, S., Mitra, N. (2018). “Evolution of tension twinning in single crystal Ti under compressive uniaxial strain conditions.” Computational Materials Science. 141, 302-312.  
  • *Rawat, S., and Mitra, N. (2018). “Molecular dynamics investigation of c-axis deformation of single crystal Ti under uniaxial stress conditions: Evolution of compression twinning and dislocations.” Computational Materials Science. 141, 19-29.  
  • *Neogi, A., and Mitra, N. (2017). “A metastable phase of shocked bulk single crystal copper: an atomistic simulation study.” Scientific Reports. 7, 7337.  
  • *Neogi, A., and Mitra, N. (2017). “Shock induced deformation response of single crystal copper: Effect of crystallographic orientations.” Computational Materials Science. 135, 141-151.  
  • *Neogi, A., and Mitra, N. (2017). “Evolution of dislocation mechanism in single crystal Cu under shock loading in different directions.” Modelling and Simulation in Materials Science and Engineering. 25, 025013.  
  • *Rawat, S., and Mitra, N. (2017). “Compression twinning and structural phase transformation of single crystal titanium under uniaxial compressive strain conditions: Comparison of interatomic potentials.” Computational Materials Science. 126, 228-237.  
  • *Ghoshal, R., and Mitra, N. (2016). “Underwater explosion induced shock loading of structures: Influence of water depth, salinity and temperature.” Ocean Engineering. 126, 22-28.  
  • *Patra, A., and Mitra, N. (2016). “Mixed mode fracture of sandwich composites: performance improvement with multiwalled carbon nanotube sonicated resin.” Journal of Sandwich Structures and Materials. 20(3), 379-395.  
  • *Neogi, A., and Mitra, N. (2016). “Shock compression of poly-vinyl-chloride.” Journal of Applied Physics. 119, 165903.  
  • *Neogi, A., and Mitra, N. (2016). “Shock induced Phase transition in water: Molecular Dynamic investigation.” Physics of Fluids. 28, 027104.  
  • *Ghoshal, R., and Mitra, N. (2015). “High-intensity air-explosion-induced shock loading of structures: consideration of a real-gas in modeling a nonlinear compressible medium.” Proceedings of the Royal Society of London A: Mathematical, Physical and Engineering Sciences, 471, 20140825.  
  • Mondal, S., *Patra, A., Chakraborty, S., Mitra, N. (2015). “Dynamic performance of sandwich composite plates with circular hole/cut-out: A mixed experimental–numerical study.” Composite Structures, 131, 479-489. 
  • *Patra, A., and Mitra, N. (2014). “Interface fracture of sandwich composites: Influence on MWCNT sonicated epoxy resin.” Composites Science and Technology, 101, 94-101.     
  • *Neogi, A., and Mitra N. (2014). “On shock response of nano-void closed/open cell Copper material: Non-equilibrium molecular dynamic simulations.” Journal of Applied Physics, 115(1), 013504.                    
  • *Ghoshal, R., and Mitra, N. (2014). “On core compressibility of sandwich composite panels subjected to intense underwater shock loads.” Journal of Applied Physics, 115(2), 024905.   
  • *Ghoshal, R. Mitra, N. (2012). “Non-contact near field underwater explosion induced shock wave loading of submerged rigid structures: nonlinear compressibility effects in fluid structure interaction.” Journal of Applied Physics, 112(2), 024911.    
  • Mitra, N., *Raja, B.R. (2012). “Improving delamination resistance capacity of sandwich composite columns with initial face/core debond.” Composites Part B: Engineering, 43(3), 1602-1612.  
  • Kang, T.H.-K., Mitra, N. (2012). “Prediction of performance of exterior beam-column connections with headed bars subjected to load reversal.” Engineering Structures, 41, 209-217.   
  • Mitra, N. and Samui, P. (2012). “Prediction of Inelastic mechanisms leading to seismic failure of interior reinforced concrete beam-column connections.” ASCE Practice Periodical on Structural Design and Construction, 173(3), 110-118.   
  • Mitra, N. (2012). “Failure Initiation of reinforced concrete beam-column connections – Binomial logistic regression based probabilistic model.” Advances in Structural Engineering, 15(1), 121-137.  
  • Mitra, N., Mitra, S. and Lowes, L. N. (2011). “Probabilistic model for failure initiation of reinforced concrete interior beam-column connections subjected to seismic loading.” Engineering Structures, 33, 154-162. 
  • Mitra, N. (2010). “A methodology for improving shear performance of marine grade sandwich composites: Sandwich Composite panel with Shear-key.” Composite Structures, 92, 1065-1072.   
  • Kang T. H.-K., Shin M., Mitra N. and J. F. Bonacci (2009). “Seismic Design of Reinforced Concrete Beam-Column Joints with Headed Bars.” ACI Structural Journal, 106(6), 868-877.  
  • Martin, J., Stanton, J., Mitra, N., and Lowes, L. N. (2007). “Experimental testing to determine concrete fracture energy using simple laboratory test setup.” ACI Materials Journal, 104(6), 575-584. 
  • Mitra, N., and Lowes, L.N. (2007). “Evaluation, calibration and verification of a reinforced concrete beam-column joint model.” Journal of Structural Engineering ASCE, 133(1), 105-120.  
  • Lowes, L. N., Altoontash, A., and Mitra, N. (2005). “Closure to “Modeling Reinforced Concrete Beam-Column Joints Subjected to Cyclic Loading” by Lowes, L.N. and Altoontash, A.” Journal of Structural Engineering ASCE, 131(6), 993-994.  
  • Hagedorn, P., Mitra, N., and Hadulla, T. (2002). “Vortex-excited vibrations in bundled conductors: A mathematical model.” Journal of Fluids and Structures, 16(7), 843-854.   

* Indicates my students (past/present).

ORAL PRESENTATIONS & CONFERENCE PROCEEDINGS

  • Mitra, N., (2021). “Shock compression through different media: air, water and their interface”, American Physical Society March Meeting, Online, March 2021.
  • Mitra, N., (2020). “A new metastable phase of shock compressed Copper”, American Physical Society March Meeting, Denver, March 2020.
  • Mitra, N., Pal, S. (2020). “Shock compression of dry air”, American Physical Society March Meeting, Denver, March 2020.
  • Suma-Sindhu, P., Mitra, N. (2019). “Epoxy resin (DGEBA/TETA) under extreme environment.”, American Society for Composites: 34th Technical Conference, Georgia, Atlanta, September 2019.
  • Suma-Sindhu, P., Mitra, N. (2019). “Mitigation of mechanical property degradation of epoxy resin subjected to UV with addition of different nanofillers.”, American Society for Composites: 34th Technical Conference, Georgia, Atlanta, September 2019. 
  • Mitra, N., Prasad, D. (2019). “Role of hydrogen bonding in phase transformation of bulk liquid water to ice VII under shock loading”, American Physical Society March Meeting, Boston, March 2019.
  • Mitra, N., Prasad, D. (2019). “Anisotropy in shock compression of different polymorphs of SiC”, American Physical Society March Meeting, Boston, March 2019.
  • Mitra, N., Deb, S., Basu Majumdar, S. (2019). “Modulating the rate of hydration in cement with addition of fibers”, Transportation Research Board meetings, Washington DC, January 2019.
  • Mitra, N., Prasad, D. (2018). “Shock induced phase transformation of single crystal Silicon – Molecular Dynamic Investigations”, American Physical Society March Meeting, Los Angeles, March 2018.
  • Deb, S., Sarkar P., Mitra, N., BasuMajumdar S. (2017). “Elastic property estimation of the hydrated cement paste”, ASCE Engineering Mechanics Institute Conference, San Diego, June 2017.
  • Neogi, A., Mitra, N. (2017). “Shock induced phase transition of single crystal copper”, AIP Conference Proceedings 1832(1) 030011.
  • Rawat, S., Mitra, N. (2017). “Twinning assisted α to ω phase transition in titanium single crystal”, AIP Conference Proceedings 1832(1) 030018.
  • Neogi, A., Mitra, N. (2017). “Effects of crystal orientation on shock induced dislocation dynamics on single crystalline copper”, TMS 2017, 146th Annual Meeting and Exhibition, San Diego, CA, Feb 26 – Mar 2, 2017.
  • Neogi, A., Mitra, N. (2017). “Orientational dependence of shock induced phase transition of single crystal copper”, TMS 2017, 146th Annual Meeting and Exhibition, San Diego, CA, Feb 26 – Mar 2, 2017.
  • Rawat, S., Mitra, N. (2017). “Behaviour of single crystal titanium under high strain rate deformation: a molecular dynamics study”, TMS 2017, 146th Annual Meeting and Exhibition, San Diego, CA, Feb 26 – Mar 2, 2017.
  • Neogi, A., Rawat, S., Mitra, N. (2017). “Molecular dynamics simulations of shock induced deformation twinning of FCC single crystal copper”, American Physical Society March Meeting, New Orleans, March 2017.
  • Neogi, A., Mitra, N. (2017). “Anisotropic shock response of single crystal titanium: Molecular dynamics investigations”, American Physical Society March Meeting, New Orleans, March 2017.
  • Mondal, S., Chakraborty, S., Mitra, N. (2016). “Estimation of elastic parameters of sandwich composite plates using gradient based finite element model updating approach”, ASME 2016 Conference on Smart Materials, Adaptive Structures and Intelligent Systems, Stowe, Vermont, September 2016.
  • Patra, A., Mitra, N. (2016). “Influence of multiwalled carbon nanotube on interfacial fatigue performance of glass epoxy polyvinyl chloride core sandwich composite”, American Society for Composites: 31st Technical Conference, Virginia, September 2016.
  • Mitra, N. (2016). “Interfacial delamination of sandwich composite panels: Real time detection and methodologies for performance improvement”, 11th International conference on Sandwich Structures, Florida, March 2016.
  • Mitra, N., Neogi, A. (2016). “Atomistic simulation of shock induced structural phase transition of single crystal copper”, American Physical Society March Meeting, Baltimore, March 2016.
  • Neogi, A., Mitra, N. (2016). “Atomistic simulation of shock induced dislocation dynamics and evolution of different plasticity mechanisms in Single crystal copper”, American Physical Society March Meeting, Baltimore, March 2016.
  • Patra, A., Mitra, N. (2015). “Influence of multiwalled carbon nanotube on mixed mode fracture of sandwich composite”, American Society for Composites: 30th Technical Conference, Michigan, August 2015.
  • Mitra, N. (2015). “Explosion induced shock wave through a medium and structural response”, Indo-USA workshop on recent advances in blast mitigation strategies for civil and marine structures, Bangalore, India, August 2015.
  • Mitra, N. (2015). “Intense shock wave through water and impulse transmission in submerged structures”, 30th International Symposium on Shock waves, Tel Aviv, Israel, July 2015.
  • Mitra, N., Neogi, A. (2015). “A molecular dynamic investigation for shock induced phase transition of water”, 19th biennial American Physical Society of Shock compression of condensed matter, Tampa, Florida, June 2015.
  • Neogi, A., Mitra, N. (2015). “Molecular dynamic study of shock wave response of bulk amorphous polyvinyl chloride: effect of chain length and force field”, 19th biennial American Physical Society of Shock compression of condensed matter, Tampa, Florida, June 2015.
  • Mitra, N. (2012). “Binomial logistic regression model for probabilistic assessment of failure of reinforced concrete beam-column joints subjected to seismic action”, 15th World Conference in Earthquake Engineering, Lisbon, Portugal, September 2012. 
  • Mitra, N., Ghoshal, R. (2012) “Nonlinear compressibility effects of medium in simulation of submerged rigid plates subjected to underwater explosion”, 10th World Congress on Computational Mechanics, Sao Paulo, Brazil, July 2012.
  • Lakshminarayana, K.S.V., Mitra, S. and Mitra, N. (2011) “Trucks with Different External Frontal Frames: Comparing Vulnerable Road User’s Injury Severities Using Madymo”, 3rd International Conference on Road Safety and Simulation, Indianapolis, Indiana, USA, September 2011. 
  • Mitra, N. (2011). “Marine grade sandwich composite panel with shear keys.” 16th International Conference on Composite Structures, Porto, Portugal, 201. 
  • LaFave, J.M., Shin, M. and Mitra, N. (2009). “Behavior and design of reinforced concrete beam column connections with joint eccentricity”. Structures Congress, Austin , Texas, USA 2009
  • Kang, T.H.K., Mitra, N. and Shin, M. (2009). “Headed reinforcement applications for reinforced concrete beam-column connections”. Structures Congress, Austin Texas, USA 2009
  • Mitra, N. (2008). “Uncertainty in analytical structural response associated with high level modeling decisions” 14th. World Conference in Earthquake Engineering, Beijing, China, Paper no. 14-0110. 
  • Mitra, N., and Lowes, L.N. (2008). “Factors influencing analytical continuum simulation of three-point bend test of a concrete notched beam” 14th. World Conference in Earthquake Engineering, Beijing, China, Paper no. 05-01-0175.
  • Mitra, N. (2008). “Continuum model for RC interior beam-column connection regions” 14th. World Conference in Earthquake Engineering, Beijing, China, Paper no. 14-0111.
  • Bhattacharya, S., Dash, S.R., Mitra, N., Adhikari, S. and Blakeborough, A. (2008). “Investigation of bending-buckling interaction of piles in liquefiable soils” 14th. World Conference in Earthquake Engineering, Beijing, China, Paper no. 04-02-0106.
  • Mitra, N., Lowes, L. N. (2007). “A macroscopic model for beam-column joint regions” ACI Spring Convention, April 22-26, 2007.
  • Lowes, L.N., Mitra, N., Theiss, A. and Paspuleti, C. (2006). “Modeling nonductile RC components and application to the PEER Van-Nuys test-bed.” 8th. National Conference in Earthquake Engineering, San-Francisco, California, April 2006, Paper No. 1792. 
  • Mitra, N., and Lowes, L.N. (2006). “Modeling the behavior of reinforced concrete beam-column building joints subjected to earthquake loading.” 8th. National Conference in Earthquake Engineering, San-Francisco, California, April 2006, Paper No. 530.
  • Mitra, N., and Lowes, L.N. (2004). “Evaluation and advancement of a reinforced concrete beam-column joint model.” 13th. World Conference in Earthquake Engineering, Vancouver, British Columbia, Canada, Paper No. 1001.
  • Mitra, N., and Lowes, L.N. (2004). “Evaluation and advancement of a RC beam-column joint model.” 5th. International PhD. Symposium in Civil Engineering, Delft, The Netherlands, Eds. Walraven, J., Blaauwendraad, J., Scarpas, T., and Snijder, B., Balkema Publishers, 325-333.