Patents:

1. US 9,464,000 B2: Augmented cementitious binder compositions and related methods

   Inventor: Parviz Soroushian; Iman Harsini; Amirpasha Peyvandi

2. US 8,951,343 B2: Ultra high-performance concrete reinforced with low-cost graphite nanomaterials and microfibers, and method for production thereof

   Inventor: Muhammad Maqbool Sadiq; Anagi Manjula Balachandra; Parviz Soroushian

3. US 9,605,181 B2: Micropatterned structures for forming a seal with the face skin and other surfaces and method of make

            Inventor: Jue Lu; Amirpasha Peyvandi; Saqib Ul Abideen; Anagi Balachandra

4. US 8,474,553 B1: Self-loading locomotion mechanism and application thereof

   Inventor: Amirpasha Peyvandi; Parviz Soroushian; Jue Lu

5. US 2014/0338323 A1: Perching mechnism employing shape-memory effect

   Inventor: Amirpasha Peyvandi; Parviz Soroushian; Jue Lu

6. US 2007/0246353 A1: Self-healing and adaptive materials and systems

   Inventor: Parviz Soroushian; Anagi Balachandra

7. US 2015/0217535 A1: Prestressed Rod Stiffened Composite Structures

   Inventor: Mohammad Sayyar Bidgoli; Anagi Manjula Balachandra; Parviz Soroushian

8. US 9,387,655 B2: Nano-engineered structural joints: materials, procedures and applications thereof

   Inventor: Anagi Manjula Balachandra; Parviz Soroushian; Mohammad Sayyar Bidgoli

9. US 8,017,227 B2: Adaptive composite materials

   Inventor: Parviz Soroushian; Anagi Manjula Balachandra

10. US 2016/0059534 A1: Joining via Slender Nanomaterials: Materials, Procedures and Applications Thereof

    Inventor: Anagi Manjula Balachandra; Parviz Soroushian

11. US 2019/0315654 A1: Beneficiation of Inorganic Matrices with Wet, Non-Agglomerated, High-Concentration and Stable Graphite Nanoplatelets without Any Extra Measures to Disperse the Nanoplatelets

    Inventor: Anagi Manjula Balachandra

12. US 9,227,274 B1: Joining via nano-scale reinforced bonding media: materials, procedures and applications thereof

    Inventor: Anagi Manjula Balachandra; Parviz Soroushian; Mohammad Sayyar Bidgoli

13. US 2014/0329061 A1: Durable Hydrophilic Dry Adhesives with Hierarchical Structure and Method of Making

    Inventor: Jue Lu; Parviz Soroushian; Amirpasha Peyvandi

14. US 5,744,078: Accelerated processing of cement-bonded particleboard and fiberboard

    Inventor: Parviz Soroushian; Khodabakhsh Ostovari

15. US 5,935,317: Accelerated curing of cement-based materials

    Inventor: Parviz Soroushian; Jer-Wen Hsu

16. US 4,902,347: Polyamide fibers, microsilica and Portland cement composites and method for production

    Inventor: Parviz Soroushian; Mohamad Z. Bayasi

17. US 5,547,504: Non-shrink grout composition with gas forming additive

    Inventor: Parviz Soroushian

18. US 6,509,056 B2: Preparation of concrete samples for microscopic analysis

    Inventor: Parviz Soroushian; Ali Nossoni

19. WO 96/12588: Shape-memory material repair system and method of use therefor

    Inventor: Parviz Soroushian; Jer-Wen Hsu

20. US 5,489,333: Shrinkage compensating concrete with expansive additive

    Inventor: Parviz Soroushian; Augustine C. Okwuegbu

Publications:

2024

1. Balachandra, A.M. and Soroushian, P. “Formulation of high‐recycled‐content hydraulic cements based on alkali aluminosilicate chemistry and mechanochemical processing techniques”, Construction and Building Materials, vol. 437, Article 137017, 2024.

2. Alamara, K., Balachandra, A.M., Soroushian, P., and Ghebrab, T. “Performance evaluation of innovative self‐healing corrosion protection coatings for prestressing strands”, Heliyon, vol. 10(23), 2024.

3. Soroushian, P., Ghebrab, T., and Sufyan-Ud-Din, M. “Development and evaluation of mixture formulations to enhance concrete resistance to microbial-induced corrosion”, Results in Materials, vol. 24, Article 100644, 2024.

4. Nassar, R.U.D., Balachandra, A.M., and Soroushian, P. “Mechanochemical processing of landfilled coal fly ash for enhanced CO₂ sequestration and heavy metal immobilization in sustainable hydraulic cements”, International Journal of Coal Preparation and Utilization, vol. 44(11), pp. 1976–2001, 2024.

2023

1. Balachandra, A.M., Nassar, R.U.D., and Soroushian, P. “Development and experimental verification of innovative corrosion protection epoxy coatings for steel”, Anti-Corrosion Methods and Materials, vol. 70(5), pp. 294–303, 2023.

2. Matalkah, F. and Soroushian, P. “Role of CO₂ in enhancing geopolymer properties formulated with fluidized bed combustion ash”, Journal of CO₂ Utilization, vol. 71, Article 102462, 2023.

2022

1. Marple, M.A.T., Koroglu, B., Morrison, K., Crowhurst, J., Balachandra, A.M., et al. “Accelerated carbonation and structural transformation of blast furnace slag by mechanochemical alkali-activation”, Cement and Concrete Research, vol. 156, Article 106760, 2022.

2. Soroushian, P., Balachandra, A., Nassar, S., Weerasiri, R.R., and Darsanasiri, N. “Effect of fiber type and content on the performance of extruded wood fiber cement products”, in Case Studies in Construction Materials, vol. 16, Article e00968, 2022.

3. Wu, W., Matalkah, F., Darsanasiri, A., and Soroushian, P. “Fluidized bed combustion coal fly ash: comparative evaluation for potential use in alkali-activated binders”, International Journal of Coal Preparation and Utilization, 2022.

4. Nassar, R.U.D., Dominguez, G.D., Soroushian, P., Balachandra, A.M., and Weerasiri, R.R., et al. “Factors influencing strength loss of glass‐fiber‐reinforced composite bars in highly alkaline environment of concrete”, Structural Concrete, vol. 23(2), pp. 1005–1017, 2022.

5. Soroushian, P., Balachandra, A., Weerasiri, R.R., and Darsanasiri, N. “a sustainable approach to improvement of corrosion protection coatings for steel structures”, Stavební obzor–Civil Engineering Journal, vol. 31(1), pp. 1–15, 2022.

2021

1. Soroushian, P. and Sufyan-Ud-Din, M. “Long-term field performance of concrete produced with powder waste glass as partial replacement of cement”, Case Studies in Construction Materials, vol. 15, Article e00745, 2021.

2. Balachandra, A.M., Abdol, N., Darsanasiri, A., Zhu, K., and Soroushian, P., et al. “Landfilled coal ash for carbon dioxide capture and its potential as a geopolymer binder for hazardous waste remediation”, Journal of Environmental Chemical Engineering, vol. 9(4), Article 105385, 2021.

3. Sadiq, M.M., Soroushian, P., Bakker, M.G., and Balachandra, A.M. “Ultra-high-performance cementitious composites with enhanced mechanical and durability characteristics”, SN Applied Sciences, vol. 3, pp. 1–16, 2021.

4. Soroushian, P., Balachandra, A., Nassar, R.U.D., and Darsanasiri, N. “Evaluation of refined cement-based matrix systems for extrusion of wood fiber cement”, in Case Studies in Construction Materials, vol. 15, Article e00714, 2021.

5. Matalkah, F., Jaradat, Y., and Soroushian, P., Weerasiri, R.R. “Effect of additives on carbon dioxide uptake and compressive strength of dry-cast concrete”, Magazine of Concrete Research, vol. 73(6), pp. 288–301, 2021.

6. Wang, X., Matalkah, F., Abdol, N., Ramli, S., and Soroushian, P., with Balachandra, A.M. “Effects of the Duration of Landfill Disposal on the Physicochemical, Mineralogical and Toxicity Characteristics of Coal Ash”, International Journal of Coal Preparation and Utilization, 2021.

7. Meldrum, T., Kim, E., Copeman, K., Keating, K., Abdol, N., Soroushian, P., et al. “Evaluating epoxy cure through single-sided NMR measurements of molecular mobility”, presented at SAMPE 2021 Conference and Exhibition, pp. 1076–1084, 2021.

8. Soroushian, P. and Jahangirnejad, S. “Enhancement of concrete pipes through reinforcement with discrete fibers”, Stavební obzor–Civil Engineering Journal, vol. 30(1), 2021.

2020

1. Matalkah, F. and Soroushian, P. “Graphene nanoplatelet for enhancement the mechanical properties and durability characteristics of alkali activated binder”, Construction and Building Materials, vol. 249, Article 118773, 2020.

2. Kelley, M., Abdol, N., Soroushian, P., Keating, K., Balachandra, A.M., and Meldrum, T. “Monitoring real‐time curing of epoxies in situ using single‐sided NMR”, Journal of Polymer Science, vol. 58(4), pp. 616–623, 2020.

3. Matalkah, F., Alomari, A.H., and Soroushian, P. “Scaled-up production of alkali-activated cement in the presence of carbon dioxide for concrete construction”, Case Studies in Construction Materials, vol. 13, Article e00463, 2020.

4. Aouadi, F., Ghebrab, T., and Soroushian, P., with Nassar, R.U.D. “Effect of helical surface area on the performance of a multi-helix anchor”, International Journal of Civil Engineering, vol. 18, pp. 439–448, 2020.

5. de Felice, G., Carloni, C., Nanni, A., Aldea, C.M., Banthia, N., Bentz, D.P., et al. “Guide to Design and Construction of Externally Bonded FRCM and SRG Systems for Repair and Strengthening Masonry …”, ACI 549.6 R-20, pp. 1–159, 2020.

2019

1. Matalkah, F., Salem, T., Shaafaey, M., and Soroushian, P. “Drying shrinkage of alkali activated binders cured at room temperature”, Construction and Building Materials, vol. 201, pp. 563–570, 2019.

2. Almalkawi, A.T., Balachandra, A., and Soroushian, P. “Potential of using industrial wastes for production of geopolymer binder as green construction materials”, Construction and Building Materials, vol. 220, pp. 516–524, 2019.

3. Matalkah, F., Jaradat, Y., and Soroushian, P. “Plastic shrinkage cracking and bleeding of concrete prepared with alkali activated cement”, Heliyon, vol. 5(4), 2019.

4. Chen, Y., Matalkah, F., Soroushian, P., Weerasiri, R.R., and Balachandra, A. “Optimization of ultra-high performance concrete, quantification of characteristic features”, Cogent Engineering, vol. 6(1), Article 1558696, 2019.

5. Matalkah, F., Soroushian, P., Weerasiri, R.R., and Peyvandi, A. “Development of indigenous binders as construction materials”, in Proceedings of the Institution of Civil Engineers – Construction Materials, 2019.

6. Soroushian, P. and Almalkawi, A.T. “Aerated cement slurry and controlling fungal growth of low-cost biomass-based insulation materials”, Scientific Reports, vol. 9(1), Article 19237, 2019.

7. Matalkah, F. and Soroushian, P. “Shelf life of alkali activated cement: Effects of storage condition and duration”, Construction and Building Materials, vol. 222, pp. 664–672, 2019.

8. Farhadi, N., Peyvandi, A., Holmes, D., Soroushian, P., and Balachandra, A.M. “Effects of graphite nanoplatelets on the structure of cementitious materials”, Iranian Journal of Science and Technology, Transactions of Civil Engineering, 2019.

9. Matalkah, F., Chen, Y., Balachandra, A.M., and Soroushian, P. “Ultra-High-Performance Concrete: Development of On-Site Fresh Mix Rheology Test Methods”, Journal of Advanced Research in Applied Mechanics, vol. 55(1), pp. 1–11, 2019.

10. Awan, M.M.S., Soroushian, P., Ali, A., and Awan, M.Y.S. “Carbon nano fibre reinforcements in concrete”, Indonesian Journal of Science and Technology, vol. 4(1), pp. 1–16, 2019.

11. Chen, Y., Matalkah, F., Rankothge, W., Balachandra, A., and Soroushian, P. “Improvement of the surface quality and aesthetics of ultra-high-performance concrete”, in Proceedings of the Institution of Civil Engineers – Construction Materials, 2019.

2018

1. Kodur, V., Solhmirzaei, R., Agrawal, A., Aziz, E.M., and Soroushian, P. “Analysis of flexural and shear resistance of ultra high performance fiber reinforced concrete beams without stirrups”, Engineering Structures, vol. 174, pp. 873–884, 2018.

2. Darsanasiri, A., Matalkah, F., Ramli, S., Al-Jalode, K., Balachandra, A., et al. “Ternary alkali aluminosilicate cement based on rice husk ash, slag and coal fly ash”, Journal of Building Engineering, vol. 19, pp. 36–41, 2018.

3. Matalkah, F. and Soroushian, P. “Freeze thaw and deicer salt scaling resistance of concrete prepared with alkali aluminosilicate cement”, Construction and Building Materials, vol. 163, pp. 200–213, 2018.

4. Matalkah, F. and Soroushian, P. “Synthesis and characterization of alkali aluminosilicate hydraulic cement that meets standard requirements for general use”, Construction and Building Materials, vol. 158, pp. 42–49, 2018.

5. Matalkah, F., Salem, T., and Soroushian, P. “Acid resistance and corrosion protection potential of concrete prepared with alkali aluminosilicate cement”, Journal of Building Engineering, vol. 20, pp. 705–711, 2018.

6. Xu, L., Matalkah, F., Soroushian, P., Darsanasiri, N., Hamadneh, S., and Wu, W. “Effects of citric acid on the rheology, hydration and strength development of alkali aluminosilicate cement”, Advances in Cement Research, vol. 30(2), pp. 75–82, 2018.

7. Almalkawi, A.T., Hong, W., Hamadna, S., and Soroushian, P., with Al-Chaar, G. “Behavior of a lightweight frame made with aerated slurry-infiltrated chicken mesh under cyclic lateral loading”, Construction and Building Materials, vol. 160, pp. 679–686, 2018.

8. Matalkah, F. and Soroushian, P. “A Step Toward Practical Geopolymer Concrete”, Concrete International, vol. 40(8), pp. 39–43, 2018.

9. Matalkah, F. and Soroushian, P. “Carbon dioxide integration into alkali aluminosilicate cement particles for achievement of improved properties”, Journal of Cleaner Production, vol. 196, pp. 1478–1485, 2018.

2017

1. Matalkah, F., Xu, L., Wu, W., and Soroushian, P. “Mechanochemical synthesis of one-part alkali aluminosilicate hydraulic cement”, Materials and Structures, vol. 50, pp. 1–12, 2017.

2. Almalkawi, A.T., Hamadna, S., and Soroushian, P. “One-part alkali activated cement based volcanic pumice”, Construction and Building Materials, vol. 152, pp. 367–374, 2017.

3. Sbia, L.A., Peyvandi, A., Soroushian, P., Abideen, S.U., Weerasiri, R.R., and Balachandra, A.M. “Production methods for reliable construction of ultra-high-performance concrete (UHPC) structures”, Materials and Structures, vol. 50, pp. 1–19, 2017.

4. Soroushian, P. and Marikunte, S. “Reinforcement of cement-based materials with cellulose fibers”, Special Publication 124, pp. 99–124, 2017.

5. Soroushian, P., Ostovari, K., Nossoni, A., and Chowdhury, H. “Repair and strengthening of concrete structures through application of corrective posttensioning forces with shape memory alloys”, Transportation Research Record, vol. 1770(1), pp. 20–26, 2017.

6. Soroushian, P., Won, J.P., and Hassan, M. “Durability and microstructure analysis of CO₂-cured cement-bonded wood particleboard”, Cement and Concrete Composites, vol. 41, pp. 34–44, 2017.

7. Chen, Y., Matalkah, F., Weerasiri, R.R., Balachandra, A., and Soroushian, P. “Dispersion of fibers in ultra-high-performance concrete”, Int., vol. 39(12), pp. 45–50, 2017.

8. Sbia, L.A., Peyvandi, A., Harsini, I., Lu, J., Abideen, S.U., and Weerasiri, R.R. “Study on field thermal curing of ultra-high-performance concrete employing heat of hydration”, ACI Materials Journal, vol. 114(5), pp. 733–744, 2017.

9. Wu, W., Matalkah, F., Soroushian, P., Almalkawi, A., Wang, X., and Xu, L. “Influence of admixtures on rheological properties and heat of hydration of alkali aluminosilicate cement”, Advances in Cement Research, vol. 29(9), pp. 397–403, 2017.

10. Matalkah, F., Bharadwaj, H., Balachandra, A., and Soroushian, P. “Development and characterization of gypsum-based binder”, European Journal of Advances in Engineering and Technology, vol. 4(3), pp. 153–157, 2017.

11. Chen, Y., Matalkah, F., Yu, Y., Rankothge, W., Balachandra, A., and Soroushian, P. “Experimental investigations of the dimensional stability and durability of ultra-high-performance concrete”, Advances in Materials Science and Applications, vol. 6, pp. 1–8, 2017.

12. Masuda, K., Jue, T., and Hamidie, R.D.R. “Mitochondrial biogenesis induced by exercise and nutrients: implication for performance and health benefits”, Indonesian Journal of Science and Technology, vol. 2(2), pp. 221–229, 2017.

13. Awan, M.M.S., Soroushian, P., Ali, A., and Awan, M.Y.S. “High-performance cementitious matrix using carbon nanofibers”, Indonesian Journal of Science and Technology, vol. 2(1), pp. 57–75, 2017.

14. Matalkah, F., Darsanasiri, A., Abideen, S., Balachandra, A., and Soroushian, P. “Alkali-Activation of Non-wood biomass Ash: effects of Ash characteristics on concrete performance”, Civil Engineering Journal, vol. 3(5), pp. 365–371, 2017.

15. Harsini, I., Sadiq, M.M., and Soroushian, P., with Balachandra, A.M. “Polymer nanocomposites processed via self-assembly through introduction of nanoparticles, nanosheets, and nanofibers”, Journal of Materials Science, vol. 52, pp. 1969–1980, 2017.

16. Awan, M.M.S., Soroushian, P., Ali, A., and Awan, M.Y.S. “Use of carbon nano-fibers in cementitious mortar”, Indonesian Journal of Science and Technology, vol. 2(2), pp. 134–151, 2017.

17. Matalkah, F., Bharadwaj, H., Balachandra, A., and Soroushian, P. “Aerated Concrete Produced Using Locally Available Raw Materials”, Civil Engineering Journal, vol. 3(4), pp. 214–220, 2017.

18. Wang, X., Zhu, K., Ramli, S., Xu, L., Matalkah, F., and Soroushian, P. “Conversion of landfilled ash into hydraulic cements under different environments”, in Advances in Recycling & Waste Management, vol. 2(144), p. 2, 2017.

19. Balachandra, A.M., Zhu, K., Ramli, S., Soroushian, P., Matalkah, F., and Abdol, N. “Development of refined chemistries and processing methods for integration of carbon dioxide into a hydraulic binder for effective heavy metal immobilization”, JOJ Material Science, vol. 2, pp. 555–593, 2017.

2016

1. Matalkah, F., Soroushian, P., Abideen, S.U., and Peyvandi, A. “Use of non-wood biomass combustion ash in development of alkali-activated concrete”, Construction and Building Materials, vol. 121, pp. 491–500, 2016.

2. Kodur, V.K.R., Bhatt, P.P., Soroushian, P., and Arablouei, A. “Temperature and stress development in ultra-high performance concrete during curing”, Construction and Building Materials, vol. 122, pp. 63–71, 2016.

3. Nassar, R.U.D. and Soroushian, P. “Use of recycled aggregate concrete in pavement construction”, The Journal of Solid Waste Technology and Management, vol. 42(2), pp. 137–144, 2016.

4. Peyvandi, A., Harsini, I., Sbia, L.A., Rankothge, R.W., Abideen, S.U., et al. “Performance evaluation of precast concrete beams reinforced with multifunctional graphite nanomaterials”, published in PCI Journal, 2016.

5. Peyvandi, A., Harsini, I., Holmes, D., Balachandra, A.M., and Soroushian, P. “Characterization of ASR in Concrete by MAS NMR Spectroscopy”, Journal of Materials in Civil Engineering, vol. 28(2), Article 04015096, 2016.

2015

1. Peyvandi, A. and Soroushian, P. “Structural performance of dry-cast concrete nanocomposite pipes”, Materials and Structures, vol. 48, pp. 461–470, 2015.

2. Soroushian, P., Chowdhury, H., and Ghebrab, T. “Evaluation of water-repelling additives for use in concrete-based sanitary sewer infrastructure”, Journal of Infrastructure Systems, vol. 15(2), pp. 106–110, 2015.

3. Peyvandi, A. and Soroushian, P., with Lu, J. “A versatile perching mechanism employing shape memory wires and bio-inspired adhesives”, Journal of Micro-Bio Robotics, vol. 10, pp. 55–67, 2015.

4. Peyvandi, A., Holmes, D., Balachandra, A.M., and Soroushian, P. “Quantitative Analysis of Chloride Ion Diffusion in Cementitious Materials Using NMR Spectroscopy”, Journal of Infrastructure Systems, vol. 21(3), Article 04014047, 2015.

5. Balachandra, A.M. and Soroushian, P. “Catalytic Reactions of the Carbon Dioxide Emissions and the Solid Residues of Clean Coal Combustion to Beneficiate the Residues for Construction Applications”, Metna Co., Lansing, MI, USA, 2015.

2014

1. Sayyar, M., Weerasiri, R.R., Soroushian, P., and Lu, J. “Experimental and numerical study of shape-stable phase-change nanocomposite toward energy-efficient building constructions”, Energy and Buildings, vol. 75, pp. 249–255, 2014.

2. Sbia, L.A., Peyvandi, A., Soroushian, P., Lu, J., and Balachandra, A.M. “Enhancement of ultrahigh performance concrete material properties with carbon nanofiber”, Advances in Civil Engineering, 2014, Article 854729.

3. Peyvandi, A., Soroushian, P., and Jahangirnejad, S. “Structural design methodologies for concrete pipes with steel and synthetic fiber reinforcement”, ACI Structural Journal, vol. 111(1), p. 83, 2014.

4. Sbia, L.A., Peyvandi, A., Soroushian, P., and Balachandra, A.M. “Optimization of ultra-high-performance concrete with nano- and micro-scale reinforcement”, Cogent Engineering, vol. 1(1), Article 990673, 2014.

5. Peyvandi, A., Abideen, S.U., Huang, Y., Lee, I., and Soroushian, P., Lu, J. “Surface treatment of polymer microfibrillar structures for improved surface wettability and adhesion”, Applied Surface Science, vol. 289, pp. 586–591, 2014.

6. Sayyar, M., Soroushian, P., Abdol, N., Staggemeier, K., Bakker, M.G., et al. “High performance pseudoelastic metal nanowire reinforced elastomeric composite”, Industrial & Engineering Chemistry Research, vol. 53(34), pp. 13329–13339, 2014.

7. Sayyar, M., Soroushian, P., and Weerasiri, R.R. “Evaluation of the prestressing effects on the fatigue life of composite box sections”, Journal of Composite Materials, vol. 48(1), pp. 71–79, 2014.

8. Sayyar, M., Soroushian, P., and Weerasiri, R.R. “Prestressing effects on the ultimate flexural strength of composite box sections”, Composite Structures, vol. 106, pp. 806–814, 2014.

2013

1. Peyvandi, A., Soroushian, P., Abdol, N., and Balachandra, A.M. “Surface-modified graphite nanomaterials for improved reinforcement efficiency in cementitious paste”, Carbon, vol. 63, pp. 175–186, 2013.

2. Peyvandi, A., Soroushian, P., Balachandra, A.M., and Sobolev, K. “Enhancement of the durability characteristics of concrete nanocomposite pipes with modified graphite nanoplatelets”, Construction and Building Materials, vol. 47, pp. 111–117, 2013.

3. Peyvandi, A., Sbia, L.A., Soroushian, P., and Sobolev, K. “Effect of the cementitious paste density on the performance efficiency of carbon nanofiber in concrete nanocomposite”, Construction and Building Materials, vol. 48, pp. 265–269, 2013.

4. Soroushian, P., Plasencia, J., and Ravanbakhsh, S. “Assessment of reinforcing effects of recycled plastic and paper in concrete”, Materials Journal, vol. 100(3), pp. 203–207, 2013.

5. Soroushian, P., Won, J.P., and Hassan, M. “Durability and microstructure analysis of CO₂-cured cement-bonded wood particleboard”, Cement and Concrete Composites, vol. 41, pp. 34–44, 2013.

6. Nassar, R.U.D. and Soroushian, P. “Use of milled waste glass in recycled aggregate concrete”, in Proceedings of the Institution of Civil Engineers – Construction Materials, 2013.

7. Soroushian, P., Nassar, R.U.D., and Balachandra, A.M. “Piezo-driven self-healing by electrochemical phenomena”, Journal of Intelligent Material Systems and Structures, vol. 24(4), pp. 441–453, 2013.

8. Soroushian, P., Won, J.P., and Hassan, M. “Sustainable Processing of Cellulose Fiber Cement Composites”, ACI Materials Journal, vol. 110(3), 2013.

9. Soroushian, P. and A. “Recycled glass concrete”, Concrete International, vol. 35(1), pp. 29–32, 2013.

10. Sayyar, M., Soroushian, P., and Weerasiri, R.R. “Prestressing effects on the ultimate flexural strength of composite box sections”, Composite Structures, vol. 106, pp. 806–814, 2013.