Dr. John van de Lindt

Publications

  Journal Articles Top
152 Linton, D., R. Gupta, D. Cox, and J.W. van de Lindt. (2014). “Load Distribution in Light-Frame Wood Buildings under Experimentally Simulated Tsunami Loads”. ASCE Journal of Performance of Constructed Facilities, 10.1061/(ASCE)CF.1943-5509.0000487 , 04014030. 2014
151 Park, S., J.W. van de Lindt, and Y. Li. (2014). “ABV Hybrid Procedure for Hurricane Wind-Surge Loss Analysis.”, Journal of Performance of Constructed Facilities. 28(2), 206-215 2014
150 Pei, S.,, J.W. van de Lindt, S. Hartzell, and N. Luco. (2014). “Variability in Woodframe Building Damage using Broadband Synthetic Ground Motion: A Comparative Numerical Study with Recorded Motions.” Journal of Earthquake Engineering, 10(3), 389-406. 2014
149 C. Standohar-Alfano and J.W. van de Lindt. (2014). “An Empirically-Based Probabilistic Tornado Hazard Analysis of the U.S. using 1973-20142011 Data.”, ASCE Natural Hazards Review, 10.1061/(ASCE)NH.1527-6996.0000138 , 04014013. 2014
148 Bahmani, P., van de Lindt, J., and Dao, T. (2014). ”Displacement-Based Design of Buildings with Torsion: Theory and Verification.” J. Struct. Eng., 140(6), 04014020. 2014
147 Nazari, N., J.W. van de Lindt, and Y. Li. (2014). “Effect of Mainshock-Aftershock Sequences on Woodframe Building Damage Fragilities.”, ASCE Journal of Performance of Constructed Facilities, , 10.1061/(ASCE)CF.1943-5509.0000512 , 04014036. 2014
146 Amini, M.O. and J.W. van de Lindt. (2014) “Quantitative Insight into a Rational Tornado Design Wind Speed for Woodframe Residential Design using a Fragility Approach.” ASCE Journal of Structural Engineering, 140(7), 04014033. 2014
145 Jennings, E. and J.W. van de Lindt. (2014). “Numerical Seismic Retrofit Study of Light-frame Wood Buildings using Shape Memory Alloy Devices for Response Modification”. ASCE Journal of Structural Engineering, 140(7), 04014041. 2014
144 van de Lindt, J.W. and Y. Jiang. (2014). “Regressive Model for Friction Pendulum Isolation Bearing Selection Based on Woodframe Building Performance.”, ASCE Structural Design and Construction, 19(3), 04014010. 2014
143 Song, R., Y. Li, and J.W. van de Lindt. (2014). “Assessment of Seismic Performance of Buildings with Incorporation of Aftershocks.” ASCE Journal of Performance of Constructed Facilities, 10.1061/(ASCE)CF.1943-5509.0000596 , 04014088. 2014
142 Shao, X., J.W. van de Lindt, P. Bahmani, W. Pang, E. Ziaei, M.D. Symans, J. Tian, and T. Dao. (2014). “.” “Real Time Hybrid Simulation of a Multi-Story Wood Shear Wall with First-Story Experimental Substructure Incorporating a Rate-Dependent Seismic Energy Dissipating Device”, Special Issue on Real Time Hybrid Testing in Smart Structures and Systems; Vol. 14, No. 6 (2014) 1031-1054. 2014
141 Do, T., H. Mahmoud, and J.W. van de Lindt. (2014). “Sensitivity of Wind Turbine Tower Base Fatigue Life to Locations in Colorado.” ASCE Journal of Performance of Constructed Facilities, 10.1061/(ASCE)CF.1943-5509.0000612 , 04014109. 2014
140 Han, R., Y. Li, and J.W. van de Lindt. (2014). “Seismic Risk of Base Isolated Non-ductile Reinforced Concrete Buildings Considering Uncertainties and Mainshock-Aftershock Sequences”, Structural Safety, 50(9), 39–56. 2014
139 Dao, T. and van de Lindt, J. (2014). ”Numerical Seismic Performance of an Innovative CFS Midrise Building Designed Using DDD.” J. Perform. Constr. Facil., 28(5), 04014018 2014
138 Bahmani, P. and J.W. van de Lindt. (2014). “Experimental Study of Layering Sheathing for Woodframe Walls.” ASCE Journal of Structural Engineering; Special Issue on Seismic Resistant Timber Structures, 10.1061/(ASCE)ST.1943-541X.0001134 , E4014001. 2014
137 Jennings, E.N., E. Ziaei, W. Pang, J.W. van de Lindt, X. Shao, and P. Bahmani. (2014). “Full-Scale Experimental Investigation of an Over-Retrofitted Soft-Story Woodframe Building”. ASCE Journal of Performance of Constructed Facilities, In Press. 2014
136 Park, S. and J.W. van de Lindt. (2014). “Genetic Optimization for Seismic Retrofit of Soft-Story Woodframe Buildings using FEMA P-807 Methodology.”, ASCE Journal of Performance of Constructed Facilities, 10.1061/(ASCE)CF.1943-5509.0000637 , 04014153. 2014
135 Do, T., J.W. van de Lindt, and H. Mahmoud. (2014). “Fatigue Life Estimates and Performance-Based Design of Wind Turbine Towers Bases”. ASCE Journal of Structural Engineering, 10.1061/(ASCE)ST.1943-541X.0001150 , 0 2014
134 Li, Y., R. Song, and J.W. van de Lindt. (2014). “Collapse Fragility of Steel Structures Subjected to Earthquake Mainshock-Aftershock Sequences.”, Journal of Structural Engineering, 140(12), 04014095. 2014
133 Jennings, E.N., J.W. van de Lindt, E. Ziaei, G. Mochizuki, W. Pang, X. Shao. (2014). “Retrofit of a Soft-Story Woodframe Building using SMA Devices with Full-Scale Hybrid Test Verification.”, Engineering Structures, 80(1), 469-485. 2014
132 van de Lindt, J.W., P. Bahmani, G. Mochizuki, S.E. Pryor, M. Gershfeld, Jingjing Tian, D. Rammer, and M.D. Symans. (2013). “Experimental Seismic Behavior of a Full-Scale Four-Story Soft-Story Woodframe Building II: Shake Table Test Results”. ASCE Journal of Structural Engineering, 10.1061/(ASCE)ST.1943-541X.0001206 , E4014004. 2014
131 Han, R., Y. Li, and J.W. van de Lindt. (2014). “Assessment of Seismic Performance of Buildings with incorporation of Aftershocks.”, Journal of Performance of Constructed Facilities, 10.1061/(ASCE)CF.1943-5509.0000596 , 04014088. 2014
130 Bahmani, P., J.W. van de Lindt, M. Gershfeld, G. Mochizuki, S.E. Pryor, M., D. Rammer. (2013). “Experimental Seismic Behavior of a Full-Scale Four-Story Soft-Story Woodframe Building I: Building Design and Retrofit Methodology”. ASCE Journal of Structural Engineering, 10.1061/(ASCE)ST.1943-541X.0001207 , E4014003. 2014
129 Song, R., Y. Li, and J.W. van de Lindt. (2014). “Impact of Earthquake Ground Motion Characteristics on Collapse Risk of Post-Mainshock Buildings Considering Aftershock.”, Engineering Structures, 81(12), 349-361, 10.1016/j.engstruct.2014.09.047 . 2014
128 Bahmani, P., J.W. van de Lindt, G. Mochizuki, M. Gershfeld, and S.E. Pryor. (2014). “Experimental Seismic Collapse Study of a Full-Scale Four-Story Soft-Story Woodframe Building.”, ASCE Journal of Architectural Engineering, , 10.1061/(ASCE)AE.1943-5568.0000166 , B4014009. 2014
127 S. Pei, J.W van de Lindt, M. Popovski, J. W Berman, J.D. Dolan, J. M Ricles, R. Sause, H-E Blomgren; D.R Rammer. (2014). Cross Laminated Timber for Seismic Regions: Progress and Challenges for Research and Implementation 10.1061/(ASCE)ST.1943-541X.0001192 , E2514001. 2014
126 van de Lindt, J.W., S. Pei, T.N. Dao, A. Graettinger, D.O. Prevatt, R. Gupta, and W. Coulbourne. (2013). “Dual Objective-Based Tornado Design Philosophy.” ASCE Journal of Structural Engineering, 139(2); 251-263. 2013
125 van de Lindt, J.W., D.V. Rosowsky, W. Pang, and S. Pei. (2013). “Performance-Based Seismic Design of Mid-Rise Woodframe Buildings.”, ASCE Journal of Structural Engineering, 139 (8), 1294-1302. 2013
124 Li, Y., R. Song, J.W. van de Lindt, and N. Luco. (2013). “Collapse Fragility of Steel Structures Subjected to Earthquake Mainshock-Aftershock Sequences”, Journal of Structural Engineering. Accepted. 2013
123 Dao, T.N. and J.W. van de Lindt. (2013). “Seismic Performance of an Innovative Light-Frame Cold-Formed Steel Frame for Mid-Rise Construction.”, ASCE Journal of Structural Engineering, 139 (5), Special Issue: Cold-Formed Steel Structures, 837-848.

2013
122 Linton, D., R. Gupta, D. Cox, J.W. van de Lindt, M.E. Oshnack, and M. Clauson.. (2013). “Tsunami Wave Forces on a Wood Wall at Full-Scale.”, ASCE Journal of Structural Engineering, 139(8), 1318-1325. 2013
121 Vengala, J. and J.W. van de Lindt. (2013). “Seismic Performance of Single Family Dwellings Constructed using Bamboo-Mortar Composite.”, Asian Journal of Civil Engineering, 14 (1), 33-45. 2013
120 Lucksiri, K., T.H. Miller, R. Gupta, S, Pei, and J.W. van de Lindt. (2013). “Rapid Screening for Plan Irregularity in Single-Family, Wood-Frame Dwellings.” Journal of Earthquake Engineering, 17(2013); 497-516. 2013
119 Pei, S., J. W van de Lindt, N. Wehbe, and H. Liu. (2013). “Experimental Study of Collapse Limits for Woodframe Shear Walls”. ASCE Journal of Structural Engineering, 139(9); 1489-1497. 2013
118 Park, S., J.W. van de Lindt, and Y. Li. (2013). “Application of the Hybrid ABV Procedure for Assessing Community Risk to Hurricanes Spatially”, Natural Hazards, 68(2), 981-1000. 2013
117 Li, Y., R. Song, and J.W. van de Lindt. (2014). “Collapse Fragility of Steel Structures Subjected to Earthquake Mainshock-Aftershock Sequences.”, Journal of Structural Engineering, 140(12), 04014095.

2013
116 Park, S., J.W. van de Lindt, D. Cox, and R. Gupta. (2013). “Concept of Community Survival Fragilities for Tsunami Coastal Inundation”. ASCE Natural Hazards Review, 14 (4), 220-228. 2013
115 Pei, S., M. Popovski, and J.W. van de Lindt. (2013). “Analytical Study on Seismic Force Modification Factors for Cross Laminated Timber Buildings for NBCC.”, Canadian Journal of Civil Engineering, 40(9), 887-896. 2013
114 Pei, S., J.W. van de Lindt, M. Popovski. (2013). “Approximate R-Factor for Cross Laminated Walls in Multi-Story Buildings”, 19(4), 245-255, ASCE Journal of Architectural Engineering. 2013
113 van de Lindt, J.W., R. Gupta, S. Pei, K. Tachibana, Y. Araki, D. Rammer, and H. Isoda. (2012). “Damage assessment of a Full-Scale Six-Story Light-Frame Wood Building Following Tri-Axial Shake Table Tests”, ASCE Journal of Performance of Constructed Facilities, 26(1), 1-9. 2012
112 Wu, J., S. Chen, and J.W. van de Lindt. (2012). “Fatigue Assessment of Slender Long Span Bridges: A Reliability Approach.” Journal of Bridge Engineering, 17 (1), 47-57. 2012
111 van de Lindt, J.W., S. Pei, W. Pang, and S. Sharazi. (2012). “Collapse Testing and Analysis of a Light-Frame Wood Garage Wall”, ASCE Journal of Structural Engineering, 138 (4), 492-501. 2012
110 Park, S., J.W. van de Lindt, D. Cox, R. Gupta , and F. Aguiniga. (2012). “Successive earthquake-tsunami analysis to develop collapse fragilities.”, Journal of Earthquake Engineering, 16 (2012); 851-863. 2012
109 Li, Y. and J.W. van de Lindt. (2012). “Loss-Based Formulation for Multiple Hazards with Application to Residential Buildings.”, Engineering Structures, 38 (2012), 123-133 2012
108 Park, S., J.W. van de Lindt, R. Gupta, and D. Cox. (2012). “Method to Determine Location for Tsunami Vertical Evacuation Shelters.” Natural Hazards, 63 (2), 891-908. 2012
107 Prevatt, D.O., J.W. van de Lindt, E.W. Back, A.J. Graettinger, S. Pei, R. Gupta, W, Coulbourne, D. James, and D. Agdas. (2012). “Making the Case for Improved Structural Design: The Tornado Outbreaks of 2011.” ASCE Journal of Leadership and Management in Engineering, 12 (4), 254-270.

2012
106 Pei, S., J.W. van de Lindt, M. Popovski. (2012). “Approximate R-Factor for Cross Laminated Walls in Multi-Story Buildings”., ASCE Journal of Architectural Engineering, May, 2012. 2012
105 Martin, K., R. Gupta, D. Prevatt, P.L. Datin, J.W. van de Lindt. (2012). “Evaluation of System Effects and Structural Load Paths in a Wood Framed Structure.”, ASCE Journal of Architectural Engineering, J. Archit. Eng. 17, 134 (2011). 2012
104 Li, Y., J.W. van de Lindt, T.N. Dao, S. Bjarnadottir, and A. Ahuja. (2012). “Loss Analysis for Combined Wind and Surge in Hurricanes”, ASCE Natural Hazards Review, 13 (1), 1-10. 2012
103 Lucksiri, K., T.H. Miller, R. Gupta, S, Pei, and J.W. van de Lindt. (2012). “Effect of Plan Configuration on the Seismic Performance of Wood-Frame, Single Family Dwellings.” Natural Hazards Review, 13(1). 2012
102 van de Lindt, J.W. and T.N. Dao. (2012) “Loss Analysis for Woodframe Buildings During Hurricanes. II: Loss Estimation”. ASCE Journal of Performance of Constructed Facilities, 26 (6), 739-747.

2012
101 Dao, T.N. and J.W. van de Lindt. (2012) “Loss Analysis for Woodframe Buildings During Hurricanes I: Structure and Hazard Modeling”. ASCE Journal of Performance of Constructed Facilities, 26 (6), 729-738. 2012
100 Dao, T.N., J.W. van de Lindt, D. Prevatt, and R. Gupta. (2012). “Probabilistic Procedure for Wood-frame Roof Sheathing Panel Debris Impact to Windows in Hurricanes.” Engineering Structures, 35 (2), 178-187. 2012
99 van de Lindt, J.W., M.O. Amini, C. Standohar-Alfano, and T.N. Dao. (2012). “Systematic Study of the Loss of a Residential Roof System in a Tornado.”, Buildings, 2012 (2); 519-533. 2012
98 Amini, M.O. and J.W. van de Lindt. (2012) “Determination of Rational Tornado Design Wind Speed for Woodframe Residential Design.” Submitted to ASCE Journal of Structural Engineering, September, 2012. 2012
97 Dao, T.N. and J.W. van de Lindt. (2012). “New Nonlinear Shear Element for use in Structural Dynamics Finite Element Applications”. Submitted to Earthquake Engineering and Structural Dynamics, July 2012. 2012
96 Bahmani, P., J.W. van de Lindt, and T.N. Dao. (2012). “Direct Displacement Design of Buildings with Torsion: Theory and Verification”. Submitted to the ASCE Journal of Structural Engineering, July 2012. 2012
95 Pei, S., J.W. van de Lindt, C. Ni, and S.E. Pryor. (2011). “Seismic Behavior of a Five-Story Double-Midply Wood Shear Wall Stack within a Full-Scale Building.”, Canadian Journal of Civil Engineering, 37(9), 1261-1269. 2011
94 Liu, S. and J.W. van de Lindt. (2011). “Prescriptive Approach to the Performance-Based Seismic Design of Low-Rise Residential Buildings.” ASCE Journal of Performance of Constructed Facilities, 25(4), 268-276. 2011
93 Mensah, A.F., P.L. Datin, D.O. Prevatt, R. Gupta, and J.W. van de Lindt. (2011). “Database-Assisted Design Methodology to Predict Wind-Induced Structural Behavior of a Light-Framed Wood Building.” Engineering Structures, 33(2), 674-684. 2011
92 Riley, C.E., R. A. Atadero, J.W. van de Lindt, and P. R. Heyliger. (2011). “Cementitous SDA-Tire Fiber Material for Maximizing Waste Product Diversion.” Advances in Civil Engineering, Volume 2011 (2011), Article ID 354305. 2011
91 van de Lindt, J.W., S.E. Pryor, and S. Pei. (2011). “Shake Table Testing of a Full-Scale Seven-Story Steel-Wood Apartment Building”, Engineering Structures, 33(3), 757-766. 2011
90 Pei, S. and J.W. van de Lindt. (2011). “Numerical Modeling of a Six-Story Light-Frame Wood Building: Comparison with Experiments.”, Journal of Earthquake Engineering, 15 (2011); 924-941. 2011
89 Ni, C., S. Pei, J.W. van de Lindt, S. Kuan, and M. Popovski. (2011). “Nonlinear Time History Analysis of Six-Story Wood Platform Frame Buildings in Vancouver, B.C.” Earthquake Spectra, 28 (2), 621-637. 2011
88 Goode, J.S. and J.W. van de Lindt. (2011). “Reliability-Based Design of Medium Mast Lighting Structural Supports.” Structure and Infrastructure Engineering; In Press. 2011
87 Dao, T. and J.W. van de Lindt. (2011). “Direct Displacement Design and Seismic Performance Assessment of an Innovative Light-Gauge CFS Building.”, Submitted to Engineering Structures, November 2011. 2011
86 Rechan, R. K. and J.W. van de Lindt. (2011). “Seismic Performance Comparison of a High Content SDA Frame and Standard RC Frame.” Earthquake Analysis and Design of Structures, December 1-3, Coimbatore, India. 2011
85 Stone, A., J.W. van de Lindt, and S. Chen. (2010). “Design and Costs for Rolled Section Simple-Made-Continuous Steel Bridges: A Literature Review.” ASCE Practice Periodical on Structural Design and Construction, 15(3), 231-235. 2010
84 van de Lindt, J.W., S. Pei, S.E. Pryor, H. Shimizu, and H. Isoda. (2010). “Experimental Seismic Response of a Full-Scale Six-Story Light-frame Wood Building.”ASCE Journal of Structural Engineering, 136(10), 1262-1272; American Society of Civil Engineers Raymond C. Reese Research Prize. 2010
83 van de Lindt, J.W., H. Liu, M.D. Symans, and J. Shinde. (2010). “Seismic Performance of a Half-Scale Base Isolated Wood Frame Building.”. Journal of Earthquake Engineering, 15(3), 469-490. 2010
82 Stone, A., J.W. van de Lindt, and S. Chen. (2010). “Design and Costs for Rolled Section Simple-Made-Continuous Steel Bridges: A Literature Review.” ASCE Practice Periodical on Structural Design and Construction, 15(3), 231-235. 2010
81 Pei, S. and J.W. van de Lindt. (2010). “Influence of Structural Properties and Hazard Level in Seismic Loss Estimation.” Engineering Structures: The Journal of Earthquake, Wind, and Ocean Engineering, 32(8), 2183-2191. 2010
80 Filiatrault, A, I. Christovasilis, A. Wanitkorkul, and J.W. van de Lindt. (2010). “Experimental Seismic Response of a Full-Scale Light-Frame Wood Building”, ASCE Journal of Structural Engineering, 136(3), 246-254. 2010
79 van de Lindt, J.W., S. Pei, H. Liu, and A. Filiatrault. (2010). “‘Seismic Response of a Full-Scale Light-Frame Wood Building: A Numerical Study”, ASCE Journal of Structural Engineering, 136(1), 56-65. 2010
78 Dao, T.N. and J.W. van de Lindt. (2010). “Methodology for Probabilistic Modeling and Quantification of Wind-Driven Rain Water Intrusion to Roof Systems During Hurricanes.”. ASCE Journal of Structural Engineering, 136(6), 700-706. 2010
77 Pang, W., D.V. Rosowsky, S, Pei, and J.W. van de Lindt. (2010). “Simplified Direct Displacement Design of a Six-Story Woodframe Building and Pre-Test Performance Assessment.” Journal of Structural Engineering, 136 (7), 813-825. 2010
76 van de Lindt, J.W. and A. Stone. (2010). “Rapid Girder Selection and Cost Estimation for Simple Made Continuous Steel Bridge Design.”, ASCE Practice Periodical on Structural Design and Construction, 15(4), 287-293). 2010
75 Black, G., R.A. Davidson, S. Pei, and J.W. van de Lindt. (2010). “Empirical Loss Analysis to Support Selection of Seismic Performance Objectives in Woodframe Building Design.” Structural Safety, 32(3), 209-219. 2010
74 van de Lindt, J.W. and T.N. Dao. (2010). “Construction Quality Issues in Performance-Based Wind Engineering: Effect of Missing Fasteners.”, Wind and Structures, 13(3), 221-234. 2010
73 van de Lindt, J.W., S. Pei, W. Pang, and D.V. Rosowsky. (2010). “IDA Comparison of an IBC-Designed and the DDD Six-Story NEESWood Building.”, ASCE Journal of Performance of Constructed Facilities, 25(2), 138-142. 2010
72 Park, S. and J.W. van de Lindt. (2009). “Seismic Fragilities for Light-Frame Wood Buildings Based on Damaged Indices.” ASCE Journal of Performance of Constructed Facilities, 23 (5), 346-352. 2009
71 van de Lindt, J.W. and T.N. Dao. (2009). “Performance-Based Wind Engineering for Woodframe Buildings.” ASCE Journal of Structural Engineering, 135 (2), 169-177. 2009
70 Pei, S. and J.W. van de Lindt. (2009). “Methodology for Long-Term Seismic Loss Estimation: An Application to Woodframe Buildings.” Structural Safety, 31 (2009), 31-42. 2009
69 van de Lindt, J.W. and M. Taggart. (2009). “Fragility Analysis Framework for Performance-Based Analysis of Wood Frame Buildings for Flood.” ASCE Natural Hazards Review, 10(3), 113-123. 2009
68 Pei, S. and J.W. van de Lindt. (2009). “Coupled Shear-Bending Formulation for Seismic Analysis of Stacked Shear Wall Systems”, Earthquake Engineering and Structural Dynamics, 38 (2009), 1631-1647. 2009
67 Pei, S. and J.W. van de Lindt. (2009). “Systematic seismic design of woodframe structures for manageable loss”, Earthquake Spectra, 25(4), 851-868. 2009
66 Taggart, M. and J.W. van de Lindt. (2009). “Design of Residential Buildings for Flood Based on Manageable Loss.” ASCE Journal of Performance of Constructed Facilities, 23(2), 56-64. 2009
65 van de Lindt, J.W., Y. Li, W.M. Bulleit, R. Gupta, P. Morris. (2009) “The Next Step for ASCE 16: Performance-Based Design of Wood Structures.”, Journal of Structural Engineering, 135(6), 611-618 2009
64 van de Lindt, J.W., R. Gupta, R. Garcia, and J. Wilson. (2009). “Tsunami Bore Forces on a Compliant Residential Building Model.” Engineering Structures, 31 (2009), 2534-2539. 2009
63 Oshnack, M.B., F. Aguiniga, D. Cox, R. Gupta, and J.W. van de Lindt. (2009). “Experimental Measure of the Effectiveness of Small Seawalls in Reducing Tsunami Forces.”,Journal of Disaster Research, 4(6), 382-390. 2009
62 van de Lindt, J.W., R. Gupta, D.T. Cox, and J.S. Wilson. (2009). “Wave Impact Study on a Residential Building.”, Journal of Disaster Research, 4(6), 419-426. 2009
61 Wilson, J, R. Gupta, J.W. van de Lindt, M. Clauson, and R. Garcia. (2009).”Behavior of a One-Sixth Scale, Wood-Framed Residential Structure Under Wave Loading.” ASCE Journal of Performance of Constructed Facilities, 23 (5), 336-345.

2009
60 van de Lindt, J.W., R. Gupta, D.T. Cox, and J.S. Wilson. (2009). “Wave Impact Study on a Residential Building.”, Journal of Disaster Research, 4(6), 419-426. 2009
59 Taggart, M. and J.W. van de Lindt. (2009). “Design of Residential Buildings for Flood Based on Manageable Loss.” ASCE Journal of Performance of Constructed Facilities, 23(2), 56-64. 2009
58 S. Pei and J.W. van de Lindt. (2009). “Systematic seismic design of woodframe structures for manageable loss”, Earthquake Spectra, 25(4), 851-868. 2009
57 van de Lindt, J.W., Y. Li, W.M. Bulleit, R. Gupta, and P. I. Morris. (2009). “The Next Step for ASCE 16 : Performance-Based Design of Wood Structures.” ASCE Journal of Structural Engineering, 135(6), 611-618. 2009
56 S. Pei and J.W. van de Lindt. (2009). “Coupled Shear-Bending Formulation for Seismic Analysis of Stacked Shear Wall Systems”, Earthquake Engineering and Structural Dynamics, 38 (2009), 1631-1647. 2009
55 van de Lindt, J.W. and M. Taggart. (2009). “Fragility Analysis Framework for Performance-Based Analysis of Wood Frame Buildings for Flood.” ASCE Natural Hazards Review, 10(3), 113-123. 2009
54 van de Lindt, J.W., R. Gupta, R. Garcia, and J. Wilson. (2009). “Tsunami Bore Forces on a Compliant Residential Building Model.” Engineering Structures, 31 (2009), 2534-2539. 2009
53 S. Park and J.W. van de Lindt. (2009). “Seismic Fragilities for Light-Frame Wood Buildings Based on Visually Determined Damaged Indices.” ASCE Journal of Performance of Constructed Facilities, 23 (5), 346-352. 2009
52 Pei, S. and J.W. van de Lindt. (2009). “Methodology for Long-Term Seismic Loss Estimation: An Application to Woodframe Buildings.” Structural Safety, 31 (2009), 31-42. 2009
51 Wilson, J, R. Gupta, J.W. van de Lindt, M. Clauson, and R. Garcia. (2009).“Behavior of a One-Sixth Scale, Wood-Framed Residential Structure Under Wave Loading.” ASCE Journal of Performance of Constructed Facilities, 23 (5), 336-345. 2009
50 van de Lindt, J.W. and T.N. Dao. (2009). “Performance-Based Wind Engineering for Woodframe Buildings.” ASCE Journal of Structural Engineering, 135 (2), 169-177. 2009
49 van de Lindt and J.W., S. Pei, and H. Liu. (2008). “Performance-Based Seismic Design of Woodframe Buildings using a Probabilistic System Identification Concept.” ASCE Journal of Structural Engineering, 134(2), 240-247. 2008
48 van de Lindt, J.W. and R. Atadero. (2008). “Shake Table Test Results for a Half-Scale Indonesian RC House with and without Economical Base Isolation.” The Asian Journal of Civil Engineering, 9(1). 2008
47 van de Lindt, J.W. (2008). “Experimental Investigation of the Effect of Multiple Earthquakes on Woodframe Structural Integrity.” ASCE Practice Periodical on Structural Design and Construction, 13(3), 111-117. 2008
46 Dao, T.N. and J.W. van de Lindt. (2008). “New Roof Sheathing Nail Model for use in FE Wind Applications.” ASCE Journal of Structural Engineering, 134(10), 1168-1674. 2008
45 van de Lindt, J.W. and A. Potts. (2008). “Shake Table Testing of a Superelastic Shape Memory Alloy Response Modification Device in a Wood Shearwall”. ASCE Journal of Structural Engineering, 134(4), 1343-1352. 2008
44 10. van de Lindt, J.W., A. Cararro, C. Choi, P.R. Heyliger, and. (2008). “Application and Feasibility of Coal Fly Ash for Wood Wall Insulation in Residential Buildings”. Resources, Conservation & Recycling, 52 (10), 1235-1240. 2008
43 van de Lindt, J.W., C. Choi, A. Carraro, and P.R. Heyliger. (2008). “Application of Fly Ash as a Wood Wall Insulator.” Report to the American Public Power Association, Washington D.C., 94p. 2008
42 van de Lindt, J.W. (2008). “Energy-Based Similitude for Dynamic Scaling of Woodframe Structures.” Journal of Earthquake Engineering, 12 (2), 281-292. 2008
41 van de Lindt, J.W. and T.N. Dao. (2007). Evolutionary Algorithm for Performance-Based Shearwall Design in Buildings Subjected to Multiple Load Types, ASCE Journal of Structural Engineering; 133(8); 1156-1167. 2007
40 van de Lindt, J.W. (2007). “Experimental Behavior of Mechanical In-Flange Connectors.” The Open Civil Engineering Journal, 2007(1); 13-24. 2007
39 W.C. Pang, D.V. Rosowsky, S. Pei, and J.W. van de Lindt. (2007). Evolutionary Parameter hysteretic Model for PBSD Applications, ASCE Journal of Structural Engineering; 133(8); 1118-1129. 2007
38 Agarwal, V.K., J.M. Niedzwecki, and J.W. van de Lindt. (2007). Earthquake Induced Pounding in Friction Varying Base Isolated Buildings, Engineering Structures: The Journal of Earthquake, Wind, and Ocean Engineering, 2007(29), 2825-2832. 2007
37 Goode, J.S. and J.W. van de Lindt. (2007). Development of a Semi-Prescriptive Selection Procedure for Reliability-Based Fatigue Design of High Mast Lighting Structural Supports, ASCE Journal of Performance of Constructed Facilities; 21(3); 193-206. 2007
36 van de Lindt J.W. and H. Liu. (2007), Non-Structural Elements in Performance-Based Seismic Design of Woodframe Structures, ASCE Journal of Structural Engineering; 133(3); 432-439. 2007
35 van de Lindt, J.W., H. Liu, and S. Pei. (2007). Performance of a Woodframe Structure During Full-Scale Shake Table Tests: Drift, Damage, and Effect of Partition Wall, ASCE Journal of Performance of Constructed Facilities; 21(1); 35-43. 2007
34 van de Lindt, J.W., A. Graettinger, R. Gupta, T. Skaggs, S. Pryor, and K. Fridley. (2007), Performance of Woodframe Structures During Hurricane Katrina, ASCE Journal of Performance of Constructed Facilities; 21(2); 108-116. 2007
33 van de Lindt, J.W. and M.W. Drewek. (2007), Inverse-FORM Modeling for Initial Seismic Retrofit, International Journal of Modeling and Simulation; 27(3); 1-11. 2007
32 S. Pei and J.W. van de Lindt. (2007). “Systematic seismic design of woodframe structures for manageable loss”, submitted to Earthquake Spectra, December, 2007. 2007
31 Taggart, M. and J.W. van de Lindt. (2007). “Design of Residential Buildings for Flood Based on Manageable Loss.” Submitted to the ASCE Journal of Performance of Constructed Facilities, November 2007. 2007
30 van de Lindt, J.W. and M. Taggart. (2007). “Fragility Analysis Framework for Performance-Based Analysis of Wood Frame Buildings for Flood.” Submitted to ASCE Natural Hazards Review, November 2007. 2007
29 Goode, J.S. and J.W. van de Lindt. (2007). “Fully-Coupled 3-D Time Domain Simulation of Slender Flexible Cylinders.” Submitted to Engineering Structures: The Journal of Earthquake, Wind, and Ocean Engineering, April 2007. 2007
28 Goode, J.S. and J.W. van de Lindt. (2007). “Fatigue Life Estimation of Flexible Slender Cylinders under Three-Dimensional Wind Excitation.” Submitted to the ASCE Journal of Structural Engineering, June 2007. 2007
27 van de Lindt, J.W. and A. Potts. (2007). “Shake Table Testing of a Superelastic Shape Memory Alloy Response Modification Device in a Wood Shearwall”. Submitted to the ASCE Journal of Structural Engineering, July 2007. 2007
26 van de Lindt, J.W., C. Choi, P.R. Heyliger, and A. Cararro. (2007). “Application and Feasibility of Coal Fly Ash for Wood Wall Insulation in Residential Buildings”. Submitted to Resources, Conservation & Recycling, August 2007. 2007
25 van de Lindt, J.W. and S. Pei. (2006). “Buckling Reliability of Deteriorating Steel Beam Ends.” Electronic Journal of Structural Engineering, 2006(6), 1- 7. 2006
24 van de Lindt, J.W. and R. Gupta. (2006). “Damage and Damage Prediction for Wood Shearwalls Subjected to Simulated Earthquake Loads.” ASCE Journal of Performance of Constructed Facilities, 20(2), 176-184. 2006
23 van de Lindt, J.W. (2005). “Modeling Earthquake Risk Based on Approximate Nonlinear Reliability Estimates.” International Journal of Modeling and Simulation, 25(3), 202-209. 2005
22 van de Lindt, J.W., T.M. Ahlborn, and S. Kethu. (2005). “Alternate Approach to Approximate Deteriorated Steel Beam End Capacity.” Transportation Research Record: Journal of the Transportation Research Board, 2005. 2005
21 van de Lindt, J.W., J.N. Huart. and D.V. Rosowsky. (2005). “Strength-Based Seismic Reliability of Wood Shearwalls.” ASCE Journal of Structural Engineering, 131(8), 1307-1312. 2005
20 van de Lindt, J.W., T.M. Ahlborn, and M.E. Lewis. (2005). “Practical Fatigue/Cost Assessment of Steel Overhead Sign Support Structures Subjected to Wind Load.” Wind and Structures, an International Journal, 8(5), 343-356. 2005
19 van de Lindt, J.W. and H.A. de Melo e Silva. (2005). “Uniform Serviceability Load Limits for Mechanical Flange Connectors.” ASCE Practice Periodical on Structural Design and Construction, 10(1), 34-39. 2005
18 van de Lindt, J.W., G. Fu, Y. Zhou, and R.M. Pablo Jr. (2005). “Locality of Truck Loads and Adequacy of Bridge Design Loads.” ASCE Journal of Bridge Engineering, 10(5), 622-629. 2005
17 van de Lindt, J.W. (2005). “Damage-Based Seismic Reliability Concept for Woodframe Structures.” ASCE Journal of Structural Engineering, 131(4), 668-675. 2005
16 van de Lindt, J.W. and D.V. Rosowsky. (2005). “Strength-Based Reliability of Wood Shearwalls Subjected to Wind Load.” ASCE Journal of Structural Engineering, 131(2), 359-363. 2005
15 van de Lindt, J.W. and J.M. Niedzwecki (2005). “Structural Response and Reliability Estimates: A Slepian Model Approach.” ASCE Journal of Structural Engineering, 131(10), 1620-1628. 2005
14 van de Lindt, J.W. (2005). “Evolution of Wood Shear Wall Testing, Modeling, and Reliability Analysis: A Bibliography.” ASCE Practice Periodical on Structural Design and Construction, 9(1), 44-53. 2005
13 van de Lindt, J.W., H. A. de Melo e Silva, J.N. Huart, and D.V. Rosowsky. (2004). “Reliability of Wood Shearwalls to Natural Hazard Loading.” Wood Design Focus: A Journal of Contemporary Wood Engineering, 15(1), 16-18. 2005
12 van de Lindt, J.W. and G-H Goh. (2004). “Effect of Total Earthquake Duration on Structural Reliability.” Engineering Structures, 26 (2004), 1585-1597. 2004
11 Ahlborn, T.M., J.W. van de Lindt, and M.E. Lewis. (2004). “Cost and Performance Comparison of the Nation’s Overhead Sign Support Structures.” Transportation Research Record: Journal of the Transportation Research board. 2004
10 van de Lindt, J.W. and G. Goh. (2004). “An Earthquake Duration Effect on Structural Reliability.” Journal of Structural Engineering, 130(5), 821-826. 2004
9 van de Lindt, J.W. (2004). “Evolution of Wood Shear Wall Testing, Modeling, and Reliability Analysis: A Bibliography.” ASCE Practice Periodical on Structural Design and Construction, 9(1), 44-53. 2004
8 van de Lindt, J.W. and M.A. Walz (2003) “Development and Application of a Wood Shear Wall Reliability Model.” ASCE Journal of Structural Engineering, Vol. 129, No. 3, 405-413. 2003
7 van de Lindt, J.W. and Niedzwecki, J.M. (2002) “An Inverse-Reliability Approach to Generating Composite Seismic Response Spectra.” International Journal of Modeling and Simulation, Vol.22, No.1, 47-56. 2002
6 van de Lindt, J.W. and J.M. Niedzwecki (2000) “Methodology for Reliability-Based Design Earthquake Identification.” ASCE Journal of Structural Engineering, Vol. 126, No.12, 1420-1426. 2000
5 van de Lindt, J.W. and J.M. Niedzwecki (2000) “Environmental Contour Analysis in Earthquake Engineering.” Engineering Structures, Vol. 22, No. 12, 1661-1676. 2000
4 Niedzwecki, J.M., J.W. van de Lindt, J.H. Gage, and P.S. Teigen. (2000) “Design Estimates of Surface Wave Interaction with Compliant Deepwater Platforms.” Journal of Ocean Engineering, 27, 867-888. 2000
3 van de Lindt, J.W. and J.M. Niedzwecki (1999) “Reliability Estimates for Multi-peaked Random Seas.” International Journal of Offshore and Polar Engineering, Vol.9, No.3, 12-17. 1999
2 Niedzwecki, J.M., J.W. van de Lindt, and E.W. Sandt, (1999) “Characterizing Random Wave Surface Elevation Data.” Journal of Ocean Engineering, 26, 401-430. 1999
1 Niedzwecki, J.M., J.W. van de Lindt, and J.T.P. Yao, (1998) “Estimating Extreme Tendon Response Using Environmental Contours.” Engineering Structures, Vol. 20, No. 7, 601-607. 1998
 
  Book Chapters and Books Top
3 van de Lindt, J.W., P. Line, M. Popovski, D. Rammer, and S. Pei. (2013). “Chapter 4: Lateral Design of Cross Laminated Timber.” U.S. Edition of the Cross Laminated Timber Handbook, FPInnovations and the American Wood Council. 2013
2 van de Lindt, J.W. and S. Pei. (2008). “Seismic Reliability of Nonlinear Structural Systems. Nova Publishers, In Press. 2009
1 van de Lindt, J.W. and S. Pei (2009). “Progress in the Performance-Based Seismic Design of Light-Frame Wood Buildings.”. Developing Trends in Seismic design of Structures, Ed.: N.D. Lagaros, Y. Tsompanakis, and M. Papadrakakis. 2009