[1] ANSYS LS-DYNA Keyword Manual Vol. I
[2] ANSYS LS-DYNA Keyword Manual Vol. II.
[3] ANSYS LS-DYNA Keyword Manual Vol. III.
[4] Borrvall, T., et al., Implicit analysis in LS-DYNA (course material), DYNAmore Nordic AB, Linköping 2019.
[5] Borrvall, T., A heuristic attempt to reduce transverse shear locking in fully integrated hexahedra with poor aspect ratio, 7th European LS-DYNA Users conference, 2009, http://www.dynalook.com/european-conf-2009/G-I-02.pdf
[6] Borrvall, T., Mortar contact algorithm for implicit stamping analyses in LS-DYNA, 10th International LS-DYNA Users conference, 2008, http://www.dynalook.com/international-conf-2008/MetalForming2-3.pdf
[7] Lilja, M., Benchmark of LS-DYNA for offshore applications according to DNV Recommended Practice C208, 13th International LS-DYNA Users conference, 2014.
[8] Huang, Y., Cui, Z., Frequency domain analysis in LS-DYNA, Oasys LS-DYNA UK User’s Meeting, 2013-01-16.
[9] Huang, Y., NVH and frequency domain analysis with LS-DYNA (Course material), Ansys, 2024.
[10] Erhart, T. and Schmied, C., Updated review of solid element formulations in LS-DYNA, LS-DYNA Forum 2018, Internet source: http://www.dynamore.de/de/download/papers/forum11/entwicklerforum-2011/erhart.pdf https://www.dynamore.de/de/download/papers/dynamore/de/download/papers/2018-ls-dyna-forum/papers-2018/mittwoch-17.-oktober-2018/simulation-isogeometric-and-fe-technology/a-study-on-the-new-higher-order-solid-elements-in-ls-dyna
[11] Livermore Software Technology Corporation, LS-DYNA Theory Manual, Livermore 2023.
[12] Segalman, D. J., et al., An efficient method for calculating RMS von Mises stress in a random vibration environment, Internet source: https://sem.org/wp-content/uploads/2016/01/sem.org-IMAC-XVI-16th-Int-160502-An-Efficient-Method-Calculating-RMS-von-Mises-Stress-Random.pdf
[13] Forsberg, J., LS-DYNA recommended settings explicit analyses, DYNAmore Nordic Document, 2016-06-17
[14] Haufe, A., et al., Properties & limits: Review of shell element formulations, Internet source: https://www.dynamore.de/de/download/papers/2013-ls-dyna-forum/documents/review-of-shell-element-formulations-in-ls-dyna-properties-limits-advantages-disadvantages
[15] Li, L., et al., Introduction of rotor dynamics using implicit method in LS-DYNA, 14th international LS-DYNA Users conference, 2016, http://www.dynalook.com/14th-international-ls-dyna-conference/simulation/introduction-of-rotor-dynamics-using-implicit-method-in-ls-dyna-r
[16] Fyhrman, D., 2D-simulations in LS-DYNA, 2018, Webinar available from files.dynamore.se > Client Area (login required).
[17] Gromer, A., Erhardt, T., and Borrvall, T., LS-DYNA implicit Workshop - nonlinear Solver, Bamberg 2016. Internet source: https://www.dynamore.de/de/download/papers/2016-ls-dyna-forum/Papers%202016/dienstag-11.10.16/workshops/tips-und-tricks-in-ls-dyna-implicit
[18] Karajan, N., et al., Modelling bolts in LS-DYNA using explicit and implicit time integration, 15th International LS-DYNA users conference, Dearborn 2018, internet source: https://www.dynalook.com/15th-international-ls-dyna-conference/implicit/modeling-bolts-in-ls-dyna-c-using-explicit-and-implicit-time-integration
[19] Borrvall, T., et al., Solution explorer in LS-PrePost - a GUI for nonlinear implicit FE, 12th European LS-DYNA Conference, Koblenz 2019, internet source: https://www.dynalook.com/conferences/12th-european-ls-dyna-conference-2019/workshops/workshop_solution_explorer_in_ls_prepost.pdf
[20] Cui, Z., Hunag, Y., and Grimes, R., Discussion on NVH analyses with various eigensolvers in LS-DYNA, 15th International LS-DYNA conference, Dearborn 2018, internet source: https://www.dynalook.com/conferences/15th-international-ls-dyna-conference/nvh/discussion-on-nvh-analysis-with-various-eigensolvers-in-ls-dyna
[21] Borrvall, T., Rubin MR, and Jabareen M., Cosserat Point elements in LS-DYNA, LS-DYNA User’s forum 2013, internet source: http://www.dynamore.de\de\download\papers\2013-ls-dyna-forum\documents\cosserat-point-elements-in-ls-dyna
[22] Engstrand, K., LS-DYNA Explicit Technical Guide - Reference models for explicit analyses using LS-DYNA (v 1.5), DYNAmore Nordic 2024 (available from files.dynamore.se > Client Area, login required).
[23] Bernhardsson, A., Damping in explicit LS-DYNA, DYNAmore Nordic document (Webinar 2019-12-10) available from files.dynamore.se > Client Area (login required).
[24] Lilja, M., Troubleshooting convergence problems in LS-DYNA implicit, DYNAmore Nordic document (Webinar 2021-12-16) available from files.dynamore.se > Client Area (login required).
[25] Aspenberg, D., Model checking in LS-DYNA - from pre to post simulation, Webinar, DYNAmore Nordic AB, 2020.
[26] Jonsson, A., Ultimate capacity analyses in LS-DYNA, Webinar, DYNAmore Nordic AB, 2017.
[27] Engstrand, K., and Jonsson, A., LS-DYNA Memory management, Webinar, DYNAmore Nordic AB, 2022.
[28] Zienkiewicz, O. C. and Zhu, J. Z., The superconvergent patch recovery and a posteriori error estimates. Part 1: The recovery technique, Int. J. Numerical Methods in Engineering, 33:7 (1992), 1331 - 1364
[29] Jonsson, A., Pre-tensioning techniques in LS-DYNA, DYNAmore Nordic document (Webinar 2021-01-28) available from files.dynamore.se > Client Area (login required).
[30] Engstrand, K., and Jonsson, A., A brief review of the continuation of analyses in LS-DYNA using restart, dynain-file and *CASE, Dynamore Nordic document (Webinar 2020-03-10) available from files.dynamore.se > Client Area (login required).
[31] Huang, Y., Cui, Z., New options in frequency domain analysis and fatigue analysis with LS-DYNA, 12th European LS-DYNA Conference, Koblenz 2019 (internet source: https://www.dynalook.com/conferences/12th-european-ls-dyna-conference-2019/implicit/huang_lstc-paper.pdf/view)
[32] Noh, G., and Bathe, K.-J., For direct time integration: A comparison of the Newmark and ρ∞-Bathe schemes, Computes and Structures 225 (2019)
[33] Hallén, A., Pre-tensioning and dynamic relaxation, Dynamore Nordic document (Webinar 2022-12-01) available from files.dynamore.se > Client Area (login required).
[34] Jonsson, A., Load history management using *CASE - with dynain.lsda and Mortar contact, Dynamore Nordic document (Webinar 2021-05-27) available from files.dynamore.se > Client Area (login required).
[35] Engstrand, K., Tied and tiebreak contacts in LS-DYNA - Explicit simulation (MPP), Dynamore Nordic document (Webinar 2022-03-10) available from files.dynamore.se > Client Area (login required).
[36] Jonsson, A., Memory management in LS-DYNA implicit, 2022-05-16, available from files.dynamore.se > Client Area (login required).
[37] Schill, M., and Jonsson, A., Viscoelasticity in LS-DYNA, DYNAmore Nordic document (Webinar 2020-12-10) available from files.dynamore.se > Client Area.
[38] Jonsson, A., Implicit/explicit switching in LS-DYNA, DYNAmore Nordic document (Webinar 2023-03-09) available from files.dynamore.se > Client Area (login required).
[39] Jonsson, A., Review of quadratic shell elements in LS-DYNA implicit, DYNAmore Nordic document (Webinar 2023-05-04) available from files.dynamore.se > Client Area (login required).
[40] Jonsson, A., Contacts for implicit analyses in LS-DYNA, DYNAmore Nordic document (Webinar 2023-04-20) available from files.dynamore.se > Client Area (login required).
[41] Ashcraft, C., et al., Increasing the scale of LS-DYNA, 15th International LS-DYNA Users Conference, Detroit 2018 (Internet source: https://www.dynalook.com/conferences/15th-international-ls-dyna-conference/implicit/increasing-the-scale-of-ls-dyna-r-implicit-analysis/view)
[42] Weckesser, T., and Karajan, N., A study of tied contacts in implicit stress analysis via a fire truck tip-over simulation, 14th European LS-DYNA User conference, Baden-Baden, 2023.
[43] Jonsson, A., Frequency domain analyses in LS-DYNA, DYNAmore Nordic document (Webinar 2022-11-16) available from files.dynamore.se > Client Area (login required).
[44] Bengzon, F., Borrvall, T., and Basu, U., An enhanced assumed strain (EAS) solid element for nonlinear implicit analyses, 15th International LS-DYNA Users Conference, Detroit 2018 (Internet source: an-enhanced-assumed-strain-eas-solid-element-for-nonlinear-implicit-analyses (dynalook.com) )
[45] Public Toyota Camry 2012 FE-model, from: https://lsdyna.ansys.com/implicit-roofcrush/, originally from NCAC FE model database (internet source https://www.ccsa.gmu.edu/models/2012-toyota-camry/)
[46] Borrvall, T., et al., Implementation of u-P elements for incompressible hyperelastic materials, North American LS-DYNA Users Forum, Detroit 2023 (internet source https://lsdyna.ansys.com/wp-content/uploads/2023/12/Implementation-of-u-P-elements-for-incompressible-hyperelastic-materials-Thomas-Borrvall-Ansys.pdf)
[47] Larid, G., and Pathy, S., "A roadmap to linear and nonlinear implicit analysis in LS-DYNA", 11th European LS-DYNA Conference, 2017 (internet source https://lsdyna.ansys.com/wp-content/uploads/attachments/a-roadmap-to-linear-and-nonlinear-implicit-analysis-with-ls-dyna.pdf)
[48] Craig, R.R., and Bampton, M.C.C, Coupling of substructures for dynamic analyses, AIAA Journal 1968, 6 (7), 1313-13139, Internet source: https://hal.science/hal-01537654/file/RCMB.pdf
[49] Lucas, R., et al., Speeding up LS-DYNA implicit with mixed precision, low rang approximations, and accelerators, 14th European LS-DYNA Conference, 2023.
[50] Friedrich, P., et al., Application of model order reduction techniques in LS-DYNA, 11th European LS-DYNA Conference, 2017.