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New Features

LS-DY­NA New Fea­tures  - con­tact Yan­hua@lstc.com 
Up­dat­ed 06/­16/­2018

Table 1:  Met­al Form­ing New Fea­tures

1-1 A Cus­tomized Job Man­ag­er for Met­al Form­ing Sim­u­la­tions
Yuzhong Xi­ao, Xin­hai Zhu, Li Zhang, Hou­fu Fan
1-2 Con­ver­sion be­tween FLD and Stress Tri­ax­i­al Lim­it Curve
X.  Zhu, L. Zhang, Y. Xi­ao
1-3 Best Fit GUI for Met­al Form­ing in LS-Pre­Post® 4.5
      Q. Yan, X. Zhu, P. Ho, L. Zhang, Y.  Xi­ao
1-4 Im­prove­ment of Sand­wich Struc­ture Part Adap­tiv­i­ty in LS-DY­NA
        X.  Zhu, H. Fan, L. Zhang and Y.  Xi­ao
1-5 Defin­ing Hard­en­ing Curve in LS-DY­NA® 
       X. Zhu, L. Zhang, Yuzhong  Xi­ao
1-6 Lanc­ing fea­tures in LS-DY­NA
        Q. Yan, L. Zhang, Y. Xi­ao, X. Zhu, P. Ho
1-7 Im­prove­ments to One-Step Sim­u­la­tion in LS-DY­NA,
      X. Zhu, H. Fan, L. Zhang, Y. Xi­ao
1-8  Re­cent im­prove­ments in LS-DY­NA® hot stamp­ing sim­u­la­tions
          J. Zheng, X. Zhu and H. Fan
1-9  Im­prove Time Step Size Sen­si­tiv­i­ty in Tran­sient Me­chan­i­cal
       Sim­u­la­tions
       J. Zheng and X. Zhu
 1-10 In­tro­duc­ing *BOUND­ARY_­SPC_­SYM­ME­TRY_­PLANE (SET)
           X. Zhu, L., and Y. Xi­ao
1-11  On Mesh Fu­sion Scheme in LS-DY­NA®
         N. Ma, Os­a­ka Univ - H. Fan & X. Zhu, LSTC

1-12. A One Step Sim­u­la­tion Ap­proach Us­ing Iso­ge­o­met­ric Shells in LS-DY­NA
              L. Li, X. Zhu  

1-13. De­vel­op­ment of a One-Step Pre­form­ing Analy­sis for
         Wo­ven Car­bon Fiber Com­pos­ites

D. Zeng, X. Zhu,  L. Zhang,  J. Dahl   
1-14.  Two ma­te­r­i­al mod­el up­dates re­lat­ing to tem­per­a­ture-de­pen­dent be­hav­iors 
           J. Zheng, X. Zhu

Table 2:  Oth­er Ap­pli­ca­tion New Fea­tures

2-1 Dis­cus­sion on acoustic data­bas­es in LS-DY­NA

Z. Cui, Y. Huang

2-2  Mod­el­ing of Duc­tile Fail­ure in De­struc­tive Man­u­fac­tur­ing Process Us­ing the Smoothed Par­ti­cle Galerkin Method

Y. Wu, C.T. Wu, W. Hu

2-3 A non-or­thog­o­nal ma­te­r­i­al mod­el of wo­ven com­pos­ites in the pre­form­ing process
W. Zhang, H. Ren, B. Liang, D. Zeng, X. Su, J. Dahl, 
M. Mir­dama­di, 
Q. Zhao,  J. Cao

 

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2-4  LSTC Win­Suite – a com­plete so­lu­tion for the Win­dows plat­form

A. Jern­berg, DY­NAmore Nordic AB, D. Bhal­sod, G. Zhang,
G.  Blanken­horn, LSTC

2-5 Mod­el­ing and Nu­mer­i­cal Sim­u­la­tion of Af­ter­burn­ing of Ther­mo­bar­ic Ex­plo­sives In a Closed Cham­ber
     K.S Im, G. Cook, Jr., and Z-C Zhang

2-6 Thick Shell El­e­ment Form 5 in LS-DY­NA
         Lee P. Bin­der­man

2-7 New In­fla­tor Mod­els in LS-DY­NA®
     K-S. Im, Z-C. Zhang, and G. Cook, Jr.

2-8 New fea­tures of 3D adap­tiv­i­ty in LS-DY­NA
          W. Hu

 

2-9.  Ther­mal Cou­pling Method Be­tween SPH Par­ti­cles and Sol­id El­e­ments in LS-DY­NA
     J. Xu, J. Wang

2-10.  LS-DY­NA Smooth Par­ti­cle Galerkin (SPG) Method
           C.T. Wu, Y. Guo, W. Hu

 2-11.  Re­cent up­dates in fa­tigue analy­sis with LS-DY­NA
               Y. Huang, Z. Cui
 2-12.   LS-DY­NA's Lin­ear Solver De­vel­op­ment — Phase 1: El­e­ment
 Val­i­da­tion
                 A.T. Li (Ford)  Z. Cui, Y. Huang
2-13.   Scal­a­bil­i­ty study of par­ti­cle method with dy­nam­ic load
         bal­anc­ing in LS-DY­NA®
              Hai­long Teng, LSTC
2-14.  LS-DY­NA Lin­ear Solver De­vel­op­ment 
         Z. Cui and Y. Huang
 
2-15.  De­vel­op­ment of New Sim­u­la­tion Tech­nol­o­gy for Com­pres­sion Mold­ing of Long Fiber Re­in­forced Plas­tics us­ing LS-DY­NA®
         S. Hayashi, H Chen, Wi Hu
2-16.    Smoothed Par­ti­cle Galerkin Method with a Mo­men­tum-Con­sis­tent Smooth­ing Al­go­rithm for Cou­pled Ther­mal-Struc­tur­al Analy­sis                    
             X. Pan, C.T. Wu, W. Hu, Y.C. Wu
2-17.   Dy­nam­ic Load Bal­anc­ing Al­go­rithm for CPM in LS-DY­NA
           H. Teng