Moment release spec vs Truss member Spec on a Space frame analysis

Is there a difference between a full moment release spec vs a Truss member spec when conducting 3D truss analysis? I'm currently doing a truss analysis and I assigned all vertical and diagonal members as Truss spec. Does Truss spec and Full moment release at start and end node have the same function?

Parents
  • Actually, truss only allows axial force in the members i.e. 1 DOF is there. There will be no bending moment in the member. This is the representation of what we do for truss analysis. Self-weight and transverse loads may induce shear/moment distributions in the member. On the other hand release allows us to control the different DOF of a member. So, releasing moment will only release moment in directions you provide. So, in 3D analysis there will be difference depending upon the release you provide.

    Thanks & Regards,
    Abhisek Mandal
    Global Technical Support

    Answer Verified By: Karl R. 

Reply
  • Actually, truss only allows axial force in the members i.e. 1 DOF is there. There will be no bending moment in the member. This is the representation of what we do for truss analysis. Self-weight and transverse loads may induce shear/moment distributions in the member. On the other hand release allows us to control the different DOF of a member. So, releasing moment will only release moment in directions you provide. So, in 3D analysis there will be difference depending upon the release you provide.

    Thanks & Regards,
    Abhisek Mandal
    Global Technical Support

    Answer Verified By: Karl R. 

Children
  • @Abhisek

    I would like clarify this statement: In 3D analysis there will be difference depending upon the release you provide

    1. Does this mean that if I fully release local MX MY and MZ in start and end nodes of a particular member, the idealization / computation of staad wil be the same as truss spec setup?

  • Not Actually. You can make a model and see the difference. but let me try to help you. For truss specification, only axial force exists as there is only 1 DOF. So, due to S/W or transverse loading there may be some shear force in the member but that will not be considered for member design. Those forces will only be transferred at end nodes. In short, with truss specification the members will be designed for axial force only.

    On the other hand, with end releases in a member, moments will be released at the ends only. The member will experience shear force and bending moments for the transverse loading if any and it will be designed for those cases. Also note, do not make MX, MY & MZ release at both ends of a member as it will introduce rotation in that beam. Rather release MY & MZ in both ends and Mx at one end only.

    Thanks & Regards,
    Abhisek Mandal
    Global Technical Support

  • Sir indeed this was a great help.

    But still, i have a problem.As per my understanding if in a truss specified member ,transverse nodal load comes then it will not transfer the load to the end nodes .Thus should  show a non zero value in static check.But in my model for load case 11 it is showing  static difference 0. For your information , i will like to add that in  for that load in the girder beam i have not done any triangulation as well.(triangulation of members has been done only for verticle loads).Can you please enlighten me why static difference is 0 ?TIA (PFA)

    STAAD SPACE FRAME
    START JOB INFORMATION
    JOB CLIENT PGCB
    JOB PART 132 KV TOWER
    ENGINEER DATE 17-07-2017
    JOB NAME T1P-T2P
    ENGINEER NAME UM
    CHECKER NAME DPK
    APPROVED NAME SNC
    JOB REV R1
    END JOB INFORMATION
    INPUT WIDTH 79
    UNIT METER KN
    JOINT COORDINATES
    1 1 0 1; 2 1 0 -1; 3 -1 0 -1; 4 -1 0 1; 5 0.5 12.625 0.5; 6 0.5 12.625 -0.5;
    7 -0.5 12.625 -0.5; 8 -0.5 12.625 0.5; 9 0.5 13.375 0.5; 10 0.5 13.375 -0.5;
    11 -0.5 13.375 -0.5; 12 -0.5 13.375 0.5; 13 0.1 16 0.1; 14 0.1 16 -0.1;
    15 -0.1 16 -0.1; 16 -0.1 16 0.1; 17 0.93 1.8 0.93; 18 0.93 1.8 -0.93;
    19 -0.93 1.8 -0.93; 20 -0.93 1.8 0.93; 21 0.86 3.6 0.86; 22 0.86 3.6 -0.86;
    23 -0.86 3.6 -0.86; 24 -0.86 3.6 0.86; 25 0.798 5.2 0.798; 26 0.798 5.2 -0.798;
    27 -0.798 5.2 -0.798; 28 -0.798 5.2 0.798; 29 0.736 6.8 0.736;
    30 0.736 6.8 -0.736; 31 -0.736 6.8 -0.736; 32 -0.736 6.8 0.736;
    33 0.682 8.2 0.682; 34 0.682 8.2 -0.682; 35 -0.682 8.2 -0.682;
    36 -0.682 8.2 0.682; 37 0.629 9.5 0.629; 38 0.629 9.5 -0.629;
    39 -0.629 9.5 -0.629; 40 -0.629 9.5 0.629; 41 0.582 10.625 0.582;
    42 0.582 10.625 -0.582; 43 -0.582 10.625 -0.582; 44 -0.582 10.625 0.582;
    45 0.541 11.625 0.541; 46 0.541 11.625 -0.541; 47 -0.541 11.625 -0.541;
    48 -0.541 11.625 0.541; 49 0.367 14.25 0.367; 50 0.367 14.25 -0.367;
    51 -0.367 14.25 -0.367; 52 -0.367 14.25 0.367; 53 0.233 15.125 0.233;
    54 0.233 15.125 -0.233; 55 -0.233 15.125 -0.233; 56 -0.233 15.125 0.233;
    61 0.5 12.625 1.33; 62 -0.5 12.625 1.33; 63 -0.5 13.375 1.33;
    64 0.5 13.375 1.33; 65 0.5 12.625 2.17; 66 -0.5 12.625 2.17;
    67 -0.5 13.375 2.17; 68 0.5 13.375 2.17; 69 0.5 12.625 3; 70 -0.5 12.625 3;
    71 -0.5 13.375 3; 72 0.5 13.375 3; 73 0 12.625 3; 74 -0.5 13 3; 75 0 13.375 3;
    76 0.5 13 3; 77 0.5 12.625 4; 78 -0.5 12.625 4; 79 -0.5 13.375 4;
    80 0.5 13.375 4; 81 0.5 12.625 5; 82 -0.5 12.625 5; 83 -0.5 13.375 5;
    84 0.5 13.375 5; 85 0.5 12.625 6; 86 -0.5 12.625 6; 87 -0.5 13.375 6;
    88 0.5 13.375 6; 89 0 12.625 6; 90 -0.5 13 6; 91 0 13.375 6; 92 0.5 13 6;
    93 0.5 12.625 7; 94 -0.5 12.625 7; 95 -0.5 13.375 7; 96 0.5 13.375 7;
    97 0.5 12.625 8; 98 -0.5 12.625 8; 99 -0.5 13.375 8; 100 0.5 13.375 8;
    101 0.5 12.625 9; 102 -0.5 12.625 9; 103 -0.5 13.375 9; 104 0.5 13.375 9;
    105 0 12.625 9; 106 -0.5 13 9; 107 0 13.375 9; 108 0.5 13 9;
    109 0.5 12.625 9.83; 110 -0.5 12.625 9.83; 111 -0.5 13.375 9.83;
    112 0.5 13.375 9.83; 113 0.5 12.625 10.67; 114 -0.5 12.625 10.67;
    115 -0.5 13.375 10.67; 116 0.5 13.375 10.67; 121 1 0 13; 122 1 0 11;
    123 -1 0 11; 124 -1 0 13; 125 0.5 12.625 12.5; 126 0.5 12.625 11.5;
    127 -0.5 12.625 11.5; 128 -0.5 12.625 12.5; 129 0.5 13.375 12.5;
    130 0.5 13.375 11.5; 131 -0.5 13.375 11.5; 132 -0.5 13.375 12.5;
    133 0.1 16 12.1; 134 0.1 16 11.9; 135 -0.1 16 11.9; 136 -0.1 16 12.1;
    137 0.93 1.8 12.93; 138 0.93 1.8 11.07; 139 -0.93 1.8 11.07;
    140 -0.93 1.8 12.93; 141 0.86 3.6 12.86; 142 0.86 3.6 11.14;
    143 -0.86 3.6 11.14; 144 -0.86 3.6 12.86; 145 0.798 5.2 12.798;
    146 0.798 5.2 11.202; 147 -0.798 5.2 11.202; 148 -0.798 5.2 12.798;
    149 0.736 6.8 12.736; 150 0.736 6.8 11.264; 151 -0.736 6.8 11.264;
    152 -0.736 6.8 12.736; 153 0.682 8.2 12.682; 154 0.682 8.2 11.318;
    155 -0.682 8.2 11.318; 156 -0.682 8.2 12.682; 157 0.629 9.5 12.629;
    158 0.629 9.5 11.371; 159 -0.629 9.5 11.371; 160 -0.629 9.5 12.629;
    161 0.582 10.625 12.582; 162 0.582 10.625 11.418; 163 -0.582 10.625 11.418;
    164 -0.582 10.625 12.582; 165 0.541 11.625 12.541; 166 0.541 11.625 11.459;
    167 -0.541 11.625 11.459; 168 -0.541 11.625 12.541; 169 0.367 14.25 12.367;
    170 0.367 14.25 11.633; 171 -0.367 14.25 11.633; 172 -0.367 14.25 12.367;
    173 0.233 15.125 12.233; 174 0.233 15.125 11.767; 175 -0.233 15.125 11.767;
    176 -0.233 15.125 12.233; 181 0.5 12.625 13.33; 182 -0.5 12.625 13.33;
    183 -0.5 13.375 13.33; 184 0.5 13.375 13.33; 185 0.5 12.625 14.17;
    186 -0.5 12.625 14.17; 187 -0.5 13.375 14.17; 188 0.5 13.375 14.17;
    189 0.5 12.625 15; 190 -0.5 12.625 15; 191 -0.5 13.375 15; 192 0.5 13.375 15;
    193 0 12.625 15; 194 -0.5 13 15; 195 0 13.375 15; 196 0.5 13 15;
    197 0.5 12.625 16; 198 -0.5 12.625 16; 199 -0.5 13.375 16; 200 0.5 13.375 16;
    201 0.5 12.625 17; 202 -0.5 12.625 17; 203 -0.5 13.375 17; 204 0.5 13.375 17;
    205 0.5 12.625 18; 206 -0.5 12.625 18; 207 -0.5 13.375 18; 208 0.5 13.375 18;
    209 0 12.625 18; 210 -0.5 13 18; 211 0 13.375 18; 212 0.5 13 18;
    213 0.5 12.625 19; 214 -0.5 12.625 19; 215 -0.5 13.375 19; 216 0.5 13.375 19;
    217 0.5 12.625 20; 218 -0.5 12.625 20; 219 -0.5 13.375 20; 220 0.5 13.375 20;
    221 0.5 12.625 21; 222 -0.5 12.625 21; 223 -0.5 13.375 21; 224 0.5 13.375 21;
    225 0 12.625 21; 226 -0.5 13 21; 227 0 13.375 21; 228 0.5 13 21;
    229 0.5 12.625 21.83; 230 -0.5 12.625 21.83; 231 -0.5 13.375 21.83;
    232 0.5 13.375 21.83; 233 0.5 12.625 22.67; 234 -0.5 12.625 22.67;
    235 -0.5 13.375 22.67; 236 0.5 13.375 22.67; 241 1 0 25; 242 1 0 23;
    243 -1 0 23; 244 -1 0 25; 245 0.5 12.625 24.5; 246 0.5 12.625 23.5;
    247 -0.5 12.625 23.5; 248 -0.5 12.625 24.5; 249 0.5 13.375 24.5;
    250 0.5 13.375 23.5; 251 -0.5 13.375 23.5; 252 -0.5 13.375 24.5;
    253 0.1 16 24.1; 254 0.1 16 23.9; 255 -0.1 16 23.9; 256 -0.1 16 24.1;
    257 0.93 1.8 24.93; 258 0.93 1.8 23.07; 259 -0.93 1.8 23.07;
    260 -0.93 1.8 24.93; 261 0.86 3.6 24.86; 262 0.86 3.6 23.14;
    263 -0.86 3.6 23.14; 264 -0.86 3.6 24.86; 265 0.798 5.2 24.798;
    266 0.798 5.2 23.202; 267 -0.798 5.2 23.202; 268 -0.798 5.2 24.798;
    269 0.736 6.8 24.736; 270 0.736 6.8 23.264; 271 -0.736 6.8 23.264;
    272 -0.736 6.8 24.736; 273 0.682 8.2 24.682; 274 0.682 8.2 23.318;
    275 -0.682 8.2 23.318; 276 -0.682 8.2 24.682; 277 0.629 9.5 24.629;
    278 0.629 9.5 23.371; 279 -0.629 9.5 23.371; 280 -0.629 9.5 24.629;
    281 0.582 10.625 24.582; 282 0.582 10.625 23.418; 283 -0.582 10.625 23.418;
    284 -0.582 10.625 24.582; 285 0.541 11.625 24.541; 286 0.541 11.625 23.459;
    287 -0.541 11.625 23.459; 288 -0.541 11.625 24.541; 289 0.367 14.25 24.367;
    290 0.367 14.25 23.633; 291 -0.367 14.25 23.633; 292 -0.367 14.25 24.367;
    293 0.233 15.125 24.233; 294 0.233 15.125 23.767; 295 -0.233 15.125 23.767;
    296 -0.233 15.125 24.233;
    MEMBER INCIDENCES
    1 1 17; 2 2 18; 3 3 19; 4 4 20; 5 17 21; 6 18 22; 7 19 23; 8 20 24; 9 21 25;
    10 22 26; 11 23 27; 12 24 28; 13 25 29; 14 26 30; 15 27 31; 16 28 32; 17 29 33;
    18 30 34; 19 31 35; 20 32 36; 21 33 37; 22 34 38; 23 35 39; 24 36 40; 25 37 41;
    26 38 42; 27 39 43; 28 40 44; 29 41 45; 30 42 46; 31 43 47; 32 44 48; 33 45 5;
    34 46 6; 35 47 7; 36 48 8; 37 5 9; 38 6 10; 39 7 11; 40 8 12; 41 9 49;
    42 10 50; 43 11 51; 44 12 52; 45 49 53; 46 50 54; 47 51 55; 48 52 56; 49 53 13;
    50 54 14; 51 55 15; 52 56 16; 53 1 20; 54 2 19; 55 3 18; 56 4 17; 57 17 24;
    58 18 23; 59 19 22; 60 20 21; 61 21 28; 62 22 27; 63 23 26; 64 24 25; 65 25 32;
    66 26 31; 67 27 30; 68 28 29; 69 29 36; 70 30 35; 71 31 34; 72 32 33; 73 33 40;
    74 34 39; 75 35 38; 76 36 37; 77 37 44; 78 38 43; 79 39 42; 80 40 41; 81 41 48;
    82 42 47; 83 43 46; 84 44 45; 85 45 8; 86 46 7; 87 47 6; 88 48 5; 89 5 12;
    90 6 11; 91 7 10; 92 8 9; 93 9 52; 94 10 51; 95 11 50; 96 12 49; 97 49 56;
    98 50 55; 99 51 54; 100 52 53; 101 53 16; 102 54 15; 103 55 14; 104 56 13;
    105 1 18; 106 2 17; 107 3 20; 108 4 19; 109 17 22; 110 18 21; 111 19 24;
    112 20 23; 113 21 26; 114 22 25; 115 23 28; 116 24 27; 117 25 30; 118 26 29;
    119 27 32; 120 28 31; 121 29 34; 122 30 33; 123 31 36; 124 32 35; 125 33 38;
    126 34 37; 127 35 40; 128 36 39; 129 37 42; 130 38 41; 131 39 44; 132 40 43;
    133 41 46; 134 42 45; 135 43 48; 136 44 47; 137 45 6; 138 46 5; 139 47 8;
    140 48 7; 141 5 10; 142 6 9; 143 7 12; 144 8 11; 145 9 50; 146 10 49;
    147 11 52; 148 12 51; 149 49 54; 150 50 53; 151 51 56; 152 52 55; 153 53 14;
    154 54 13; 155 55 16; 156 56 15; 157 5 6; 158 6 7; 159 7 8; 160 8 5; 161 9 10;
    162 10 11; 163 11 12; 164 12 9; 165 13 14; 166 14 15; 167 15 16; 168 16 13;
    169 5 7; 170 6 8; 171 9 11; 172 10 12; 173 5 61; 174 8 62; 175 12 63; 176 9 64;
    177 61 65; 178 62 66; 179 63 67; 180 64 68; 181 65 69; 182 66 70; 183 67 71;
    184 68 72; 185 101 109; 186 102 110; 187 103 111; 188 104 112; 189 109 113;
    190 110 114; 191 111 115; 192 112 116; 193 113 126; 194 114 127; 195 115 131;
    196 116 130; 197 69 77; 198 70 78; 199 71 79; 200 72 80; 201 77 81; 202 78 82;
    203 79 83; 204 80 84; 205 81 85; 206 82 86; 207 83 87; 208 84 88; 209 85 93;
    210 86 94; 211 87 95; 212 88 96; 213 93 97; 214 94 98; 215 95 99; 216 96 100;
    217 97 101; 218 98 102; 219 99 103; 220 100 104; 221 5 62; 222 9 63; 223 62 65;
    224 63 68; 225 65 70; 226 68 71; 227 102 109; 228 103 112; 229 109 114;
    230 112 115; 231 114 126; 232 115 130; 233 70 77; 234 71 80; 235 77 82;
    236 80 83; 237 82 85; 238 83 88; 239 85 94; 240 88 95; 241 94 97; 242 95 100;
    243 97 102; 244 100 103; 245 12 62; 246 9 61; 247 62 63; 248 61 64; 249 63 66;
    250 64 65; 251 66 67; 252 65 68; 253 67 70; 254 68 69; 255 102 111;
    256 101 112; 257 110 115; 258 109 116; 259 110 111; 260 109 112; 261 114 131;
    262 113 130; 263 114 115; 264 113 116; 265 71 78; 266 72 77; 267 78 79;
    268 77 80; 269 79 82; 270 80 81; 271 82 83; 272 81 84; 273 83 86; 274 84 85;
    275 82 87; 276 81 88; 277 86 95; 278 85 96; 279 87 94; 280 88 93; 281 94 99;
    282 93 100; 283 94 95; 284 93 96; 285 98 103; 286 97 104; 287 98 99;
    288 97 100; 289 69 73; 290 73 70; 291 70 74; 292 74 71; 293 71 75; 294 75 72;
    295 72 76; 296 76 69; 297 73 75; 298 74 76; 299 85 89; 300 89 86; 301 86 90;
    302 90 87; 303 87 91; 304 91 88; 305 88 92; 306 92 85; 307 89 91; 308 90 92;
    309 101 105; 310 105 102; 311 102 106; 312 106 103; 313 103 107; 314 107 104;
    315 104 108; 316 108 101; 317 105 107; 318 106 108; 319 73 74; 320 74 75;
    321 75 76; 322 76 73; 323 89 90; 324 90 91; 325 91 92; 326 92 89; 327 105 106;
    328 106 107; 329 107 108; 330 108 105; 331 121 137; 332 122 138; 333 123 139;
    334 124 140; 335 137 141; 336 138 142; 337 139 143; 338 140 144; 339 141 145;
    340 142 146; 341 143 147; 342 144 148; 343 145 149; 344 146 150; 345 147 151;
    346 148 152; 347 149 153; 348 150 154; 349 151 155; 350 152 156; 351 153 157;
    352 154 158; 353 155 159; 354 156 160; 355 157 161; 356 158 162; 357 159 163;
    358 160 164; 359 161 165; 360 162 166; 361 163 167; 362 164 168; 363 165 125;
    364 166 126; 365 167 127; 366 168 128; 367 125 129; 368 126 130; 369 127 131;
    370 128 132; 371 129 169; 372 130 170; 373 131 171; 374 132 172; 375 169 173;
    376 170 174; 377 171 175; 378 172 176; 379 173 133; 380 174 134; 381 175 135;
    382 176 136; 383 121 140; 384 122 139; 385 123 138; 386 124 137; 387 137 144;
    388 138 143; 389 139 142; 390 140 141; 391 141 148; 392 142 147; 393 143 146;
    394 144 145; 395 145 152; 396 146 151; 397 147 150; 398 148 149; 399 149 156;
    400 150 155; 401 151 154; 402 152 153; 403 153 160; 404 154 159; 405 155 158;
    406 156 157; 407 157 164; 408 158 163; 409 159 162; 410 160 161; 411 161 168;
    412 162 167; 413 163 166; 414 164 165; 415 165 128; 416 166 127; 417 167 126;
    418 168 125; 419 125 132; 420 126 131; 421 127 130; 422 128 129; 423 129 172;
    424 130 171; 425 131 170; 426 132 169; 427 169 176; 428 170 175; 429 171 174;
    430 172 173; 431 173 136; 432 174 135; 433 175 134; 434 176 133; 435 121 138;
    436 122 137; 437 123 140; 438 124 139; 439 137 142; 440 138 141; 441 139 144;
    442 140 143; 443 141 146; 444 142 145; 445 143 148; 446 144 147; 447 145 150;
    448 146 149; 449 147 152; 450 148 151; 451 149 154; 452 150 153; 453 151 156;
    454 152 155; 455 153 158; 456 154 157; 457 155 160; 458 156 159; 459 157 162;
    460 158 161; 461 159 164; 462 160 163; 463 161 166; 464 162 165; 465 163 168;
    466 164 167; 467 165 126; 468 166 125; 469 167 128; 470 168 127; 471 125 130;
    472 126 129; 473 127 132; 474 128 131; 475 129 170; 476 130 169; 477 131 172;
    478 132 171; 479 169 174; 480 170 173; 481 171 176; 482 172 175; 483 173 134;
    484 174 133; 485 175 136; 486 176 135; 487 125 126; 488 126 127; 489 127 128;
    490 128 125; 491 129 130; 492 130 131; 493 131 132; 494 132 129; 495 133 134;
    496 134 135; 497 135 136; 498 136 133; 499 125 127; 500 126 128; 501 129 131;
    502 130 132; 503 125 181; 504 128 182; 505 132 183; 506 129 184; 507 181 185;
    508 182 186; 509 183 187; 510 184 188; 511 185 189; 512 186 190; 513 187 191;
    514 188 192; 515 221 229; 516 222 230; 517 223 231; 518 224 232; 519 229 233;
    520 230 234; 521 231 235; 522 232 236; 523 233 246; 524 234 247; 525 235 251;
    526 236 250; 527 189 197; 528 190 198; 529 191 199; 530 192 200; 531 197 201;
    532 198 202; 533 199 203; 534 200 204; 535 201 205; 536 202 206; 537 203 207;
    538 204 208; 539 205 213; 540 206 214; 541 207 215; 542 208 216; 543 213 217;
    544 214 218; 545 215 219; 546 216 220; 547 217 221; 548 218 222; 549 219 223;
    550 220 224; 551 125 182; 552 129 183; 553 182 185; 554 183 188; 555 185 190;
    556 188 191; 557 222 229; 558 223 232; 559 229 234; 560 232 235; 561 234 246;
    562 235 250; 563 190 197; 564 191 200; 565 197 202; 566 200 203; 567 202 205;
    568 203 208; 569 205 214; 570 208 215; 571 214 217; 572 215 220; 573 217 222;
    574 220 223; 575 132 182; 576 129 181; 577 182 183; 578 181 184; 579 183 186;
    580 184 185; 581 186 187; 582 185 188; 583 187 190; 584 188 189; 585 222 231;
    586 221 232; 587 230 235; 588 229 236; 589 230 231; 590 229 232; 591 234 251;
    592 233 250; 593 234 235; 594 233 236; 595 191 198; 596 192 197; 597 198 199;
    598 197 200; 599 199 202; 600 200 201; 601 202 203; 602 201 204; 603 203 206;
    604 204 205; 605 202 207; 606 201 208; 607 206 215; 608 205 216; 609 207 214;
    610 208 213; 611 214 219; 612 213 220; 613 214 215; 614 213 216; 615 218 223;
    616 217 224; 617 218 219; 618 217 220; 619 189 193; 620 193 190; 621 190 194;
    622 194 191; 623 191 195; 624 195 192; 625 192 196; 626 196 189; 627 193 195;
    628 194 196; 629 205 209; 630 209 206; 631 206 210; 632 210 207; 633 207 211;
    634 211 208; 635 208 212; 636 212 205; 637 209 211; 638 210 212; 639 221 225;
    640 225 222; 641 222 226; 642 226 223; 643 223 227; 644 227 224; 645 224 228;
    646 228 221; 647 225 227; 648 226 228; 649 193 194; 650 194 195; 651 195 196;
    652 196 193; 653 209 210; 654 210 211; 655 211 212; 656 212 209; 657 225 226;
    658 226 227; 659 227 228; 660 228 225; 661 241 257; 662 242 258; 663 243 259;
    664 244 260; 665 257 261; 666 258 262; 667 259 263; 668 260 264; 669 261 265;
    670 262 266; 671 263 267; 672 264 268; 673 265 269; 674 266 270; 675 267 271;
    676 268 272; 677 269 273; 678 270 274; 679 271 275; 680 272 276; 681 273 277;
    682 274 278; 683 275 279; 684 276 280; 685 277 281; 686 278 282; 687 279 283;
    688 280 284; 689 281 285; 690 282 286; 691 283 287; 692 284 288; 693 285 245;
    694 286 246; 695 287 247; 696 288 248; 697 245 249; 698 246 250; 699 247 251;
    700 248 252; 701 249 289; 702 250 290; 703 251 291; 704 252 292; 705 289 293;
    706 290 294; 707 291 295; 708 292 296; 709 293 253; 710 294 254; 711 295 255;
    712 296 256; 713 241 260; 714 242 259; 715 243 258; 716 244 257; 717 257 264;
    718 258 263; 719 259 262; 720 260 261; 721 261 268; 722 262 267; 723 263 266;
    724 264 265; 725 265 272; 726 266 271; 727 267 270; 728 268 269; 729 269 276;
    730 270 275; 731 271 274; 732 272 273; 733 273 280; 734 274 279; 735 275 278;
    736 276 277; 737 277 284; 738 278 283; 739 279 282; 740 280 281; 741 281 288;
    742 282 287; 743 283 286; 744 284 285; 745 285 248; 746 286 247; 747 287 246;
    748 288 245; 749 245 252; 750 246 251; 751 247 250; 752 248 249; 753 249 292;
    754 250 291; 755 251 290; 756 252 289; 757 289 296; 758 290 295; 759 291 294;
    760 292 293; 761 293 256; 762 294 255; 763 295 254; 764 296 253; 765 241 258;
    766 242 257; 767 243 260; 768 244 259; 769 257 262; 770 258 261; 771 259 264;
    772 260 263; 773 261 266; 774 262 265; 775 263 268; 776 264 267; 777 265 270;
    778 266 269; 779 267 272; 780 268 271; 781 269 274; 782 270 273; 783 271 276;
    784 272 275; 785 273 278; 786 274 277; 787 275 280; 788 276 279; 789 277 282;
    790 278 281; 791 279 284; 792 280 283; 793 281 286; 794 282 285; 795 283 288;
    796 284 287; 797 285 246; 798 286 245; 799 287 248; 800 288 247; 801 245 250;
    802 246 249; 803 247 252; 804 248 251; 805 249 290; 806 250 289; 807 251 292;
    808 252 291; 809 289 294; 810 290 293; 811 291 296; 812 292 295; 813 293 254;
    814 294 253; 815 295 256; 816 296 255; 817 245 246; 818 246 247; 819 247 248;
    820 248 245; 821 249 250; 822 250 251; 823 251 252; 824 252 249; 825 253 254;
    826 254 255; 827 255 256; 828 256 253; 829 245 247; 830 246 248; 831 249 251;
    832 250 252;
    SUPPORTS
    1 TO 4 121 TO 124 241 TO 244 PINNED
    START GROUP DEFINITION
    MEMBER
    *TOWER T1P - 1
    _T1L1 1 TO 12
    _T1L2 13 TO 24
    _T1L3 25 TO 40
    _T1L4 41 TO 52
    _T1BL1 53 TO 64
    _T1BL2 65 TO 76
    _T1BL3 77 TO 88
    _T1BL4 89 TO 92
    _T1BL5 93 TO 104
    _T1BT1 105 TO 116
    _T1BT2 117 TO 128
    _T1BT3 129 TO 140
    _T1BT4 141 TO 144
    _T1BT5 145 TO 156
    _T1H1 157 TO 164
    _T1H2 165 TO 168
    _T1D1 169 TO 172
    *TOWER T2P
    _T2L1 331 TO 342
    _T2L2 343 TO 354
    _T2L3 355 TO 370
    _T2L4 371 TO 382
    _T2BL1 383 TO 394
    _T2BL2 395 TO 406
    _T2BL3 407 TO 418
    _T2BL4 419 TO 422
    _T2BL5 423 TO 434
    _T2BT1 435 TO 446
    _T2BT2 447 TO 458
    _T2BT3 459 TO 470
    _T2BT4 471 TO 474
    _T2BT5 475 TO 486
    _T2H1 487 TO 494
    _T2H2 495 TO 498
    _T2D1 499 TO 502
    *TOWER T1P-2
    _T12L1 661 TO 672
    _T12L2 673 TO 684
    _T12L3 685 TO 700
    _T12L4 701 TO 712
    _T12BL1 713 TO 724
    _T12BL2 725 TO 736
    _T12BL3 737 TO 748
    _T12BL4 749 TO 752
    _T12BL5 753 TO 764
    _T12BT1 765 TO 776
    _T12BT2 777 TO 788
    _T12BT3 789 TO 800
    _T12BT4 801 TO 804
    _T12BT5 805 TO 816
    _T12H1 817 TO 824
    _T12H2 825 TO 828
    _T12D1 829 TO 832
    *BEAM B1 - 1
    _B11L1 173 TO 196
    _B11L2 197 TO 220
    _B11H1 221 TO 232
    _B11H2 233 TO 244
    _B11V1 245 TO 264
    _B11V2 265 TO 288
    _B11DVDH 289 TO 318
    _B11DD 319 TO 330
    *BEAM B1 -2
    _B12L1 503 TO 526
    _B12L2 527 TO 550
    _B12H1 551 TO 562
    _B12H2 563 TO 574
    _B12V1 575 TO 594
    _B12V2 595 TO 618
    _B12DVDH 619 TO 648
    _B12DD 649 TO 660
    END GROUP DEFINITION
    MEMBER PROPERTY INDIAN
    *TOWER T1P - 1
    _T1L1 TABLE ST ISA100X100X8
    _T1L2 TABLE ST ISA80X80X8
    _T1L3 TABLE ST ISA75X75X6
    _T1L4 TABLE ST ISA65X65X6
    _T1BL1 TABLE ST ISA45X45X5
    _T1BL2 TABLE ST ISA45X45X5
    _T1BL3 TABLE ST ISA45X45X5
    _T1BL4 TABLE ST ISA45X45X5
    _T1BL5 TABLE ST ISA45X45X5
    _T1BT1 TABLE ST ISA45X45X5
    _T1BT2 TABLE ST ISA45X45X5
    _T1BT3 TABLE ST ISA45X45X5
    _T1BT4 TABLE ST ISA45X45X5
    _T1BT5 TABLE ST ISA45X45X5
    _T1H1 TABLE ST ISA65X65X6
    _T1H2 TABLE ST ISA45X45X5
    _T1D1 TABLE ST ISA45X45X5
    *TOWER T1P - 2
    _T12L1 TABLE ST ISA100X100X8
    _T12L2 TABLE ST ISA80X80X8
    _T12L3 TABLE ST ISA75X75X6
    _T12L4 TABLE ST ISA65X65X6
    _T12BL1 TABLE ST ISA45X45X5
    _T12BL2 TABLE ST ISA45X45X5
    _T12BL3 TABLE ST ISA45X45X5
    _T12BL4 TABLE ST ISA45X45X5
    _T12BL5 TABLE ST ISA45X45X5
    _T12BT1 TABLE ST ISA45X45X5
    _T12BT2 TABLE ST ISA45X45X5
    _T12BT3 TABLE ST ISA45X45X5
    _T12BT4 TABLE ST ISA45X45X5
    _T12BT5 TABLE ST ISA45X45X5
    _T12H1 TABLE ST ISA65X65X6
    _T12H2 TABLE ST ISA45X45X5
    _T12D1 TABLE ST ISA45X45X5
    *TOWER T2P
    _T2L1 TABLE ST ISA110X110X10
    _T2L2 TABLE ST ISA100X100X8
    _T2L3 TABLE ST ISA75X75X6
    _T2L4 TABLE ST ISA65X65X6
    _T2BL1 TABLE ST ISA45X45X5
    _T2BL2 TABLE ST ISA45X45X5
    _T2BL3 TABLE ST ISA45X45X5
    _T2BL4 TABLE ST ISA45X45X5
    _T2BL5 TABLE ST ISA45X45X5
    _T2BT1 TABLE ST ISA45X45X5
    _T2BT2 TABLE ST ISA45X45X5
    _T2BT3 TABLE ST ISA45X45X5
    _T2BT4 TABLE ST ISA55X55X5
    _T2BT5 TABLE ST ISA45X45X5
    _T2H1 TABLE ST ISA65X65X6
    _T2H2 TABLE ST ISA45X45X5
    _T2D1 TABLE ST ISA45X45X5
    *BEAM B1 - 1
    _B11L1 TABLE ST ISA75X75X6
    _B11L2 TABLE ST ISA75X75X6
    _B11H1 TABLE ST ISA45X45X5
    _B11H2 TABLE ST ISA45X45X5
    _B11V1 TABLE ST ISA45X45X5
    _B11V2 TABLE ST ISA45X45X5
    _B11DVDH TABLE ST ISA50X50X6
    _B11DD TABLE ST ISA45X45X5
    *BEAM B1 -2
    _B12L1 TABLE ST ISA75X75X6
    _B12L2 TABLE ST ISA75X75X6
    _B12H1 TABLE ST ISA45X45X5
    _B12H2 TABLE ST ISA45X45X5
    _B12V1 TABLE ST ISA45X45X5
    _B12V2 TABLE ST ISA45X45X5
    _B12DVDH TABLE ST ISA50X50X6
    _B12DD TABLE ST ISA45X45X5
    MEMBER TRUSS
    53 TO 172 221 TO 288 297 298 307 308 317 TO 330 383 TO 502 551 TO 618 627 -
    628 637 638 647 TO 660 713 TO 832
    DEFINE MATERIAL START
    ISOTROPIC STEEL
    E 2.05e+008
    POISSON 0.3
    DENSITY 76.8195
    ALPHA 1.2e-005
    DAMP 0.03
    TYPE STEEL
    STRENGTH FY 253200 FU 407800 RY 1.5 RT 1.2
    END DEFINE MATERIAL
    CONSTANTS
    MATERIAL STEEL ALL
    LOAD 1 DEAD LOAD
    *WEIGHT OF CONDUCTOR
    JOINT LOAD
    76 108 196 228 FY -7.9
    92 212 FY -7.9
    SELFWEIGHT Y -1.1
    *WEIGHT OF GROUND WIRE
    JOINT LOAD
    *200MTR SPAN =200/2 MTR SPAN LOAD ON NODES
    *WEIGHT/M = 0.2822 KG/M
    *DIA OF WIRE = 11.77MM = 0.0117M
    *WEIGHT ON EACH NODE = 100*.2822/4 = 7.055*2 = 14.11kg
    *14.11 x 9.81 / 1000 = .138
    13 TO 16 133 TO 136 253 TO 256 FY -0.138
    LOAD 2 LIVE LOAD
    **MAN WITH TOOLS
    JOINT LOAD
    91 211 FY -1.5
    LOAD 3 CONDUCTOR TENSION FOR NORMAL CONDITION
    *AS PER STRUCTURAL LAYOUT DIAGRAM 1*9.81
    JOINT LOAD
    76 92 108 196 212 228 FX 9.81
    *74 90 106 194 210 226 FX -9.81
    LOAD 4 CONDUCTOR TENSION FOR SHORT CKT CONDITION
    *AS PER STRUCTURAL LAYOUT DIAGRAM 1.58*9.81
    JOINT LOAD
    74 90 106 194 210 226 FX -15.499
    LOAD 5 CONDUCTOR TENSION FOR NC WITH HORIZONTAL+45
    **AS PER STRUCTURAL LAYOUT DIAGRAM 1*9.81
    **FORCE IN X DIRECTION 1*9.81*COS45=6.936
    **FORZE IN Z DIRECTION 1*9.81*SIN45=6.936
    JOINT LOAD
    76 92 108 196 212 228 FX 6.936 FZ 6.936
    LOAD 6 CONDUCTOR TENSION FOR NC WITH VERTICAL+30
    **AS PER STRUCTURAL LAYOUT DIAGRAM 1*9.81
    **FORCE IN X DIRECTION 1*9.81*COS30=8.49
    **FORZE IN Y DIRECTION 1*9.81*SIN30=+4.905
    JOINT LOAD
    76 92 108 196 212 228 FX 8.49 FY 4.905
    LOAD 7 CONDUCTOR TENSION FOR NC WITH VERTICAL-30
    **AS PER STRUCTURAL LAYOUT DIAGRAM 1*9.81
    **FORCE IN X DIRECTION 1*9.81*COS30=8.49
    **FORZE IN Y DIRECTION 1*9.81*SIN30=-4.905
    JOINT LOAD
    76 92 108 196 212 228 FX 8.49 FY -4.905
    LOAD 8 CONDUCTOR TENSION FOR NC WITH HOR+45 VER+30
    **AS PER STRUCTURAL LAYOUT DIAGRAM 1*9.81
    **FORCE IN X DIRECTION 1*9.81*COS45*COS30=6.007
    **FORZE IN Z DIRECTION 1*9.81*COS30*SIN45=6.007
    **FORCE IN Y DIRECTION 1*9.81*SIN30=4.905
    JOINT LOAD
    76 92 108 196 212 228 FX 6.007 FY 4.905 FZ 6.007
    LOAD 9 LOADTYPE None TITLE CONDUCTOR TENSION FOR NC WITH HOR+45 VER-30
    **AS PER STRUCTURAL LAYOUT DIAGRAM 1*9.81
    **FORCE IN X DIRECTION 1*9.81*COS45*COS30=6.007
    **FORZE IN Z DIRECTION 1*9.81*COS30*SIN45=6.007
    **FORCE IN Y DIRECTION 1*9.81*SIN30=-4.905
    JOINT LOAD
    76 92 108 196 212 228 FX 6.007 FY -4.905 FZ 6.007
    LOAD 10 LOADTYPE None TITLE WIND LOAD IN X DIRECTION
    ***TOWER T1P
    JOINT LOAD
    3 4 FX 0
    19 20 FX 1.59
    23 24 FX 0.99
    27 28 FX 0.87
    31 32 FX 0.76
    35 36 FX 0.69
    39 40 FX 0.63
    43 44 FX 0.59
    47 48 FX 0.61
    7 8 FX 0.65
    11 12 FX 0.73
    51 52 FX 0.66
    55 56 FX 0.6
    15 16 FX 0.26
    ***TOWER T1P-2
    243 244 FX 0
    259 260 FX 1.59
    263 264 FX 0.99
    267 268 FX 0.87
    271 272 FX 0.76
    275 276 FX 0.69
    279 280 FX 0.63
    283 284 FX 0.59
    287 288 FX 0.61
    247 248 FX 0.65
    251 252 FX 0.73
    291 292 FX 0.66
    295 296 FX 0.6
    255 256 FX 0.26
    **TOWER T2P
    123 124 FX 0
    139 140 FX 1.61
    143 144 FX 1
    147 148 FX 0.91
    151 152 FX 0.82
    155 156 FX 0.76
    159 160 FX 0.66
    163 164 FX 0.57
    167 168 FX 0.58
    127 128 FX 0.63
    131 132 FX 0.71
    171 172 FX 0.63
    175 176 FX 0.58
    135 136 FX 0.25
    ***WIND PERPENDICULAR TO BEAM 12.5 m
    MEMBER LOAD
    174 175 178 179 182 183 186 187 190 191 194 195 198 199 202 203 206 207 210 -
    211 214 215 218 219 504 505 508 509 512 513 516 517 520 521 524 525 528 529 -
    532 533 536 537 540 541 544 545 548 549 UNI GX 0.575
    **WIND ON INSULATORS AND CONDUCTORS 12.5 m
    JOINT LOAD
    73 89 105 193 209 225 FX 1.296
    LOAD 11 LOADTYPE None TITLE WIND LOAD IN Z DIRECTION
    **TOWER T1P
    JOINT LOAD
    2 3 FZ 0
    18 19 FZ 1.59
    22 23 FZ 0.99
    26 27 FZ 0.87
    30 31 FZ 0.76
    34 35 FZ 0.69
    38 39 FZ 0.63
    42 43 FZ 0.59
    46 47 FZ 0.61
    6 7 FZ 0.65
    10 11 FZ 0.73
    50 51 FZ 0.66
    54 55 FZ 0.6
    14 15 FZ 0.26
    *TOWER T1P-2
    242 243 FZ 0
    258 259 FZ 1.59
    262 263 FZ 0.99
    266 267 FZ 0.87
    270 271 FZ 0.76
    274 275 FZ 0.69
    278 279 FZ 0.63
    282 283 FZ 0.59
    286 287 FZ 0.61
    246 247 FZ 0.65
    250 251 FZ 0.73
    290 291 FZ 0.66
    294 295 FZ 0.6
    254 255 FZ 0.26
    **TOWER T2P
    122 123 FZ 0
    138 139 FZ 1.61
    142 143 FZ 1
    146 147 FZ 0.91
    150 151 FZ 0.82
    154 155 FZ 0.76
    158 159 FZ 0.66
    162 163 FZ 0.57
    166 167 FZ 0.58
    126 127 FZ 0.63
    130 131 FZ 0.71
    170 171 FZ 0.63
    174 175 FZ 0.58
    134 135 FZ 0.25
    **WIND PARALLEL TO BEAM 12.5 m
    74 76 90 92 106 108 194 196 210 212 226 228 FZ 0.952
    *WIND ON INSULATORS AND CONDUCTORS 16.2 m
    JOINT LOAD
    76 92 108 196 212 228 FZ 9.272
    ****GROUND WIRE WIND FORCE
    **DESIGN WIND PRESSURE = 1.21KN/M2
    **THICKNESS OF CONDUCTOR = 0.011M
    **POWER LAW FACTOR(a) = .095
    *(H/10)^(2^a) = 1.269
    **PRESSURE = 1.269 X 1.21 = 1.535KN/M2
    **FORCE ON WIRE = 1.535*100*0.011=1.6885
    **PER NODAL POINT = 1.6885/4=0.422KN
    **FOR TWO SHIELD WIRES = .109*2 = .844KN
    13 TO 16 133 TO 136 253 TO 256 FZ 0.844
    LOAD 12 LOADTYPE None TITLE SHIELD WIRE NC WITHOUT DEVIATION
    JOINT LOAD
    *0.6 T TENSION / 4 NODAL POINTS ON PEAK
    13 TO 16 133 TO 136 253 TO 256 FX 1.5
    LOAD 13 LOADTYPE None TITLE SHIELD WIRE NC WITH HORIZONTAL+45
    JOINT LOAD
    *0.6 T TENSION / 4 NODAL POINTS ON PEAK = 0.15
    *0.15 X COS45 = 0.106*2*10
    *0.15 X SIN45 = 0.106*2*10
    13 TO 16 133 TO 136 253 TO 256 FX 2.12 FZ 2.12
    LOAD 14 LOADTYPE None TITLE SHIELD WIRE NC WITH VERTICAL+30
    JOINT LOAD
    **0.6 T TENSION / 4 NODAL POINTS ON PEAK
    **0.15 X COS30 = 0.129*2*10
    **0.15 X SIN30 = 0.075*2*10
    13 TO 16 133 TO 136 253 TO 256 FX 2.59 FY 1.5
    LOAD 15 LOADTYPE None TITLE SHIELD WIRE NC WITH VERTICAL-30
    JOINT LOAD
    **0.6 T TENSION / 4 NODAL POINTS ON PEAK
    **0.15 X COS30 = 0.129*2*10
    **0.15 X SIN30 = 0.075*2*10
    13 TO 16 133 TO 136 253 TO 256 FX 2.59 FY -1.5
    LOAD 16 LOADTYPE None TITLE SHIELD WIRE NC WITH VERTICAL+30 HORIZONTAL+45
    JOINT LOAD
    **0.6 KN TENSION / 4 NODAL POINTS ON PEAK
    **0.6 KN TENSION / 4 NODAL POINTS ON PEAK
    **0.15 X COS45 X COS30 = 0.091*2*10
    **0.15 X SIN45XCOS30 = 0.0918*2*10
    **0.15 x SIN30=.075*2*10
    13 TO 16 133 TO 136 253 TO 256 FX 1.837 FY 1.5 FZ 1.837
    LOAD 17 LOADTYPE None TITLE SHIELD WIRE NC WITH VERTICAL-30 HORIZONTAL+45
    JOINT LOAD
    **0.6 T TENSION / 4 NODAL POINTS ON PEAK
    **0.6 T TENSION / 4 NODAL POINTS ON PEAK
    **0.15 X COS45 X COS30 = 0.091*2*10
    **0.15 X SIN45XCOS30 = 0.0918*2*10
    **0.15 x SIN30=.075*2*10
    13 TO 16 133 TO 136 253 TO 256 FX 1.837 FY -1.5 FZ 1.837
    *****
    *LOAD COMBINATION FOR STRUCTURE DESIGN
    LOAD COMB 101 1.35DL+1.35WL(X)+1.35NC
    1 1.35 10 1.35 3 1.35 12 1.35
    LOAD COMB 102 1.35DL+1.35WL(X)+1.35NC HOR+15
    1 1.35 10 1.35 5 1.35 13 1.35
    LOAD COMB 103 1.35DL+1.35WL(X)+1.35NC VER+15
    1 1.35 10 1.35 6 1.35 14 1.35
    LOAD COMB 104 1.35DL+1.35WL(X)+1.35NC VER-15
    1 1.35 10 1.35 7 1.35 15 1.35
    LOAD COMB 105 1.35DL+1.35WL(X)+1.35NC HOR+15 VER+15
    1 1.35 10 1.35 8 1.35 16 1.35
    LOAD COMB 106 1.35DL+1.35WL(X)+1.35NC HOR+15 VER-15
    1 1.35 10 1.35 9 1.35 17 1.35
    LOAD COMB 107 1.35DL+1.35WL(Z)+1.35NC
    1 1.35 11 1.35 3 1.35 12 1.35
    LOAD COMB 108 1.35DL+1.35WL(Z)+1.35NC HOR+15
    1 1.35 11 1.35 5 1.35 13 1.35
    LOAD COMB 109 1.35DL+1.35WL(Z)+1.35NC VER+15
    1 1.35 11 1.35 6 1.35 14 1.35
    LOAD COMB 110 1.35DL+1.35WL(Z)+1.35NC VER-15
    1 1.35 11 1.35 7 1.35 15 1.35
    LOAD COMB 111 1.35DL+1.35WL(Z)+1.35NC HOR+15 VER+15
    1 1.35 11 1.35 8 1.35 16 1.35
    LOAD COMB 112 1.35DL+1.35WL(Z)+1.35NC HOR+15 VER-15
    1 1.35 11 1.35 9 1.35 17 1.35
    LOAD COMB 113 1.0DL+1.0SC+1.0SW NC
    1 1.0 4 1.0 12 1.0
    LOAD COMB 114 1.0DL+1.0SC+1.0SW NC HOR+15
    1 1.0 4 1.0 13 1.0
    LOAD COMB 115 1.0DL+1.0SC+1.0SW NC VER+15
    1 1.0 4 1.0 14 1.0
    LOAD COMB 116 1.0DL+1.0SC+1.0SW NC VER-15
    1 1.0 4 1.0 15 1.0
    LOAD COMB 117 1.0DL+1.0SC+1.0SW NC HOR+15 VER+15
    1 1.0 4 1.0 16 1.0
    LOAD COMB 118 1.0DL+1.0SC+1.0SW NC HOR+15 VER-15
    1 1.0 4 1.0 17 1.0
    LOAD COMB 119 1.5DL+1.5LL+1.5NC
    1 1.5 2 1.5 3 1.5 12 1.5
    LOAD COMB 120 1.5DL+1.5LL+1.5NC HOR+15
    1 1.5 2 1.5 5 1.5 13 1.5
    LOAD COMB 121 1.5DL+1.5LL+1.5NC VER+15
    1 1.5 2 1.5 6 1.5 14 1.5
    LOAD COMB 122 1.5DL+1.5LL+1.5NC VER-15
    1 1.5 2 1.5 7 1.5 15 1.5
    LOAD COMB 123 1.5DL+1.5LL+1.5NC HOR+15 VER+15
    1 1.5 2 1.5 8 1.5 16 1.5
    LOAD COMB 124 1.5DL+1.5LL+1.5NC HOR+15 VER-15
    1 1.5 2 1.5 9 1.5 17 1.5
    ****************************
    LOAD COMB 201 1.0DL+1.0WL(X)+1.0NC
    1 1.0 10 1.0 3 1.0 12 1.0
    LOAD COMB 202 1.0DL+1.0WL(X)+1.0NC HOR+15
    1 1.0 10 1.0 5 1.0 13 1.0
    LOAD COMB 203 1.0DL+1.0WL(X)+1.0NC VER+15
    1 1.0 10 1.0 6 1.0 14 1.0
    LOAD COMB 204 1.0DL+1.0WL(X)+1.0NC VER-15
    1 1.0 10 1.0 7 1.0 15 1.0
    LOAD COMB 205 1.0DL+1.0WL(X)+1.0NC HOR+15 VER+15
    1 1.0 10 1.0 8 1.0 16 1.0
    LOAD COMB 206 1.0DL+1.0WL(X)+1.0NC HOR+15 VER-15
    1 1.0 10 1.0 9 1.0 17 1.0
    LOAD COMB 207 1.0DL+1.0WL(Z)+1.0NC
    1 1.0 11 1.0 3 1.0 12 1.0
    LOAD COMB 208 1.0DL+1.0WL(Z)+1.0NC HOR+15
    1 1.0 11 1.0 5 1.0 13 1.0
    LOAD COMB 209 1.0DL+1.0WL(Z)+1.0NC VER+15
    1 1.0 11 1.0 6 1.0 14 1.0
    LOAD COMB 210 1.0DL+1.0WL(Z)+1.0NC VER-15
    1 1.0 11 1.0 7 1.0 15 1.0
    LOAD COMB 211 1.0DL+1.0WL(Z)+1.0NC HOR+15 VER+15
    1 1.0 11 1.0 8 1.0 16 1.0
    LOAD COMB 212 1.0DL+1.0WL(Z)+1.0NC HOR+15 VER-15
    1 1.0 11 1.0 9 1.0 17 1.0
    LOAD COMB 213 1.0DL+1.0SC+1.0SW NC
    1 1.0 4 1.0 12 1.0
    LOAD COMB 214 1.0DL+1.0SC+1.0SW NC HOR+15
    1 1.0 4 1.0 13 1.0
    LOAD COMB 215 1.0DL+1.0SC+1.0SW NC VER+15
    1 1.0 4 1.0 14 1.0
    LOAD COMB 216 1.0DL+1.0SC+1.0SW NC VER-15
    1 1.0 4 1.0 15 1.0
    LOAD COMB 217 1.0DL+1.0SC+1.0SW NC HOR+15 VER+15
    1 1.0 4 1.0 16 1.0
    LOAD COMB 218 1.0DL+1.0SC+1.0SW NC HOR+15 VER-15
    1 1.0 4 1.0 17 1.0
    LOAD COMB 219 1.0DL+1.0LL+1.0NC
    1 1.0 2 1.0 3 1.0 12 1.0
    LOAD COMB 220 1.0DL+1.0LL+1.0NC HOR+15
    1 1.0 2 1.0 5 1.0 13 1.0
    LOAD COMB 221 1.0DL+1.0LL+1.0NC VER+15
    1 1.0 2 1.0 6 1.0 14 1.0
    LOAD COMB 222 1.0DL+1.0LL+1.0NC VER-15
    1 1.0 2 1.0 7 1.0 15 1.0
    LOAD COMB 223 1.0DL+1.0LL+1.0NC HOR+15 VER+15
    1 1.0 2 1.0 8 1.0 16 1.0
    LOAD COMB 224 1.0DL+1.0LL+1.0NC HOR+15 VER-15
    1 1.0 2 1.0 9 1.0 17 1.0
    ***
    PERFORM ANALYSIS
    LOAD LIST 101 TO 124
    PRINT MAXFORCE ENVELOPE ALL
    LOAD LIST 201 TO 224
    PRINT SUPPORT REACTION LIST 1 TO 4 121 TO 124 241 TO 244
    STEEL TAKE OFF LIST 173 TO 330
    STEEL TAKE OFF LIST 661 TO 832
    STEEL TAKE OFF LIST 331 TO 502
    FINISH

  • @Abhisek M

    Sir indeed this was a great help.

    But still, i have a problem.As per my understanding if in a truss specified member ,transverse nodal load comes then it will not transfer the load to the end nodes .Thus should  show a non zero value in static check.But in my model for load case 11 it is showing  static difference 0. For your information , i will like to add that in  for that load in the girder beam i have not done any triangulation as well.(triangulation of members has been done only for verticle loads).Can you please enlighten me why static difference is 0 ?TIA (PFA)

    STAAD SPACE FRAME
    START JOB INFORMATION
    JOB CLIENT PGCB
    JOB PART 132 KV TOWER
    ENGINEER DATE 17-07-2017
    JOB NAME T1P-T2P
    ENGINEER NAME UM
    CHECKER NAME DPK
    APPROVED NAME SNC
    JOB REV R1
    END JOB INFORMATION
    INPUT WIDTH 79
    UNIT METER KN
    JOINT COORDINATES
    1 1 0 1; 2 1 0 -1; 3 -1 0 -1; 4 -1 0 1; 5 0.5 12.625 0.5; 6 0.5 12.625 -0.5;
    7 -0.5 12.625 -0.5; 8 -0.5 12.625 0.5; 9 0.5 13.375 0.5; 10 0.5 13.375 -0.5;
    11 -0.5 13.375 -0.5; 12 -0.5 13.375 0.5; 13 0.1 16 0.1; 14 0.1 16 -0.1;
    15 -0.1 16 -0.1; 16 -0.1 16 0.1; 17 0.93 1.8 0.93; 18 0.93 1.8 -0.93;
    19 -0.93 1.8 -0.93; 20 -0.93 1.8 0.93; 21 0.86 3.6 0.86; 22 0.86 3.6 -0.86;
    23 -0.86 3.6 -0.86; 24 -0.86 3.6 0.86; 25 0.798 5.2 0.798; 26 0.798 5.2 -0.798;
    27 -0.798 5.2 -0.798; 28 -0.798 5.2 0.798; 29 0.736 6.8 0.736;
    30 0.736 6.8 -0.736; 31 -0.736 6.8 -0.736; 32 -0.736 6.8 0.736;
    33 0.682 8.2 0.682; 34 0.682 8.2 -0.682; 35 -0.682 8.2 -0.682;
    36 -0.682 8.2 0.682; 37 0.629 9.5 0.629; 38 0.629 9.5 -0.629;
    39 -0.629 9.5 -0.629; 40 -0.629 9.5 0.629; 41 0.582 10.625 0.582;
    42 0.582 10.625 -0.582; 43 -0.582 10.625 -0.582; 44 -0.582 10.625 0.582;
    45 0.541 11.625 0.541; 46 0.541 11.625 -0.541; 47 -0.541 11.625 -0.541;
    48 -0.541 11.625 0.541; 49 0.367 14.25 0.367; 50 0.367 14.25 -0.367;
    51 -0.367 14.25 -0.367; 52 -0.367 14.25 0.367; 53 0.233 15.125 0.233;
    54 0.233 15.125 -0.233; 55 -0.233 15.125 -0.233; 56 -0.233 15.125 0.233;
    61 0.5 12.625 1.33; 62 -0.5 12.625 1.33; 63 -0.5 13.375 1.33;
    64 0.5 13.375 1.33; 65 0.5 12.625 2.17; 66 -0.5 12.625 2.17;
    67 -0.5 13.375 2.17; 68 0.5 13.375 2.17; 69 0.5 12.625 3; 70 -0.5 12.625 3;
    71 -0.5 13.375 3; 72 0.5 13.375 3; 73 0 12.625 3; 74 -0.5 13 3; 75 0 13.375 3;
    76 0.5 13 3; 77 0.5 12.625 4; 78 -0.5 12.625 4; 79 -0.5 13.375 4;
    80 0.5 13.375 4; 81 0.5 12.625 5; 82 -0.5 12.625 5; 83 -0.5 13.375 5;
    84 0.5 13.375 5; 85 0.5 12.625 6; 86 -0.5 12.625 6; 87 -0.5 13.375 6;
    88 0.5 13.375 6; 89 0 12.625 6; 90 -0.5 13 6; 91 0 13.375 6; 92 0.5 13 6;
    93 0.5 12.625 7; 94 -0.5 12.625 7; 95 -0.5 13.375 7; 96 0.5 13.375 7;
    97 0.5 12.625 8; 98 -0.5 12.625 8; 99 -0.5 13.375 8; 100 0.5 13.375 8;
    101 0.5 12.625 9; 102 -0.5 12.625 9; 103 -0.5 13.375 9; 104 0.5 13.375 9;
    105 0 12.625 9; 106 -0.5 13 9; 107 0 13.375 9; 108 0.5 13 9;
    109 0.5 12.625 9.83; 110 -0.5 12.625 9.83; 111 -0.5 13.375 9.83;
    112 0.5 13.375 9.83; 113 0.5 12.625 10.67; 114 -0.5 12.625 10.67;
    115 -0.5 13.375 10.67; 116 0.5 13.375 10.67; 121 1 0 13; 122 1 0 11;
    123 -1 0 11; 124 -1 0 13; 125 0.5 12.625 12.5; 126 0.5 12.625 11.5;
    127 -0.5 12.625 11.5; 128 -0.5 12.625 12.5; 129 0.5 13.375 12.5;
    130 0.5 13.375 11.5; 131 -0.5 13.375 11.5; 132 -0.5 13.375 12.5;
    133 0.1 16 12.1; 134 0.1 16 11.9; 135 -0.1 16 11.9; 136 -0.1 16 12.1;
    137 0.93 1.8 12.93; 138 0.93 1.8 11.07; 139 -0.93 1.8 11.07;
    140 -0.93 1.8 12.93; 141 0.86 3.6 12.86; 142 0.86 3.6 11.14;
    143 -0.86 3.6 11.14; 144 -0.86 3.6 12.86; 145 0.798 5.2 12.798;
    146 0.798 5.2 11.202; 147 -0.798 5.2 11.202; 148 -0.798 5.2 12.798;
    149 0.736 6.8 12.736; 150 0.736 6.8 11.264; 151 -0.736 6.8 11.264;
    152 -0.736 6.8 12.736; 153 0.682 8.2 12.682; 154 0.682 8.2 11.318;
    155 -0.682 8.2 11.318; 156 -0.682 8.2 12.682; 157 0.629 9.5 12.629;
    158 0.629 9.5 11.371; 159 -0.629 9.5 11.371; 160 -0.629 9.5 12.629;
    161 0.582 10.625 12.582; 162 0.582 10.625 11.418; 163 -0.582 10.625 11.418;
    164 -0.582 10.625 12.582; 165 0.541 11.625 12.541; 166 0.541 11.625 11.459;
    167 -0.541 11.625 11.459; 168 -0.541 11.625 12.541; 169 0.367 14.25 12.367;
    170 0.367 14.25 11.633; 171 -0.367 14.25 11.633; 172 -0.367 14.25 12.367;
    173 0.233 15.125 12.233; 174 0.233 15.125 11.767; 175 -0.233 15.125 11.767;
    176 -0.233 15.125 12.233; 181 0.5 12.625 13.33; 182 -0.5 12.625 13.33;
    183 -0.5 13.375 13.33; 184 0.5 13.375 13.33; 185 0.5 12.625 14.17;
    186 -0.5 12.625 14.17; 187 -0.5 13.375 14.17; 188 0.5 13.375 14.17;
    189 0.5 12.625 15; 190 -0.5 12.625 15; 191 -0.5 13.375 15; 192 0.5 13.375 15;
    193 0 12.625 15; 194 -0.5 13 15; 195 0 13.375 15; 196 0.5 13 15;
    197 0.5 12.625 16; 198 -0.5 12.625 16; 199 -0.5 13.375 16; 200 0.5 13.375 16;
    201 0.5 12.625 17; 202 -0.5 12.625 17; 203 -0.5 13.375 17; 204 0.5 13.375 17;
    205 0.5 12.625 18; 206 -0.5 12.625 18; 207 -0.5 13.375 18; 208 0.5 13.375 18;
    209 0 12.625 18; 210 -0.5 13 18; 211 0 13.375 18; 212 0.5 13 18;
    213 0.5 12.625 19; 214 -0.5 12.625 19; 215 -0.5 13.375 19; 216 0.5 13.375 19;
    217 0.5 12.625 20; 218 -0.5 12.625 20; 219 -0.5 13.375 20; 220 0.5 13.375 20;
    221 0.5 12.625 21; 222 -0.5 12.625 21; 223 -0.5 13.375 21; 224 0.5 13.375 21;
    225 0 12.625 21; 226 -0.5 13 21; 227 0 13.375 21; 228 0.5 13 21;
    229 0.5 12.625 21.83; 230 -0.5 12.625 21.83; 231 -0.5 13.375 21.83;
    232 0.5 13.375 21.83; 233 0.5 12.625 22.67; 234 -0.5 12.625 22.67;
    235 -0.5 13.375 22.67; 236 0.5 13.375 22.67; 241 1 0 25; 242 1 0 23;
    243 -1 0 23; 244 -1 0 25; 245 0.5 12.625 24.5; 246 0.5 12.625 23.5;
    247 -0.5 12.625 23.5; 248 -0.5 12.625 24.5; 249 0.5 13.375 24.5;
    250 0.5 13.375 23.5; 251 -0.5 13.375 23.5; 252 -0.5 13.375 24.5;
    253 0.1 16 24.1; 254 0.1 16 23.9; 255 -0.1 16 23.9; 256 -0.1 16 24.1;
    257 0.93 1.8 24.93; 258 0.93 1.8 23.07; 259 -0.93 1.8 23.07;
    260 -0.93 1.8 24.93; 261 0.86 3.6 24.86; 262 0.86 3.6 23.14;
    263 -0.86 3.6 23.14; 264 -0.86 3.6 24.86; 265 0.798 5.2 24.798;
    266 0.798 5.2 23.202; 267 -0.798 5.2 23.202; 268 -0.798 5.2 24.798;
    269 0.736 6.8 24.736; 270 0.736 6.8 23.264; 271 -0.736 6.8 23.264;
    272 -0.736 6.8 24.736; 273 0.682 8.2 24.682; 274 0.682 8.2 23.318;
    275 -0.682 8.2 23.318; 276 -0.682 8.2 24.682; 277 0.629 9.5 24.629;
    278 0.629 9.5 23.371; 279 -0.629 9.5 23.371; 280 -0.629 9.5 24.629;
    281 0.582 10.625 24.582; 282 0.582 10.625 23.418; 283 -0.582 10.625 23.418;
    284 -0.582 10.625 24.582; 285 0.541 11.625 24.541; 286 0.541 11.625 23.459;
    287 -0.541 11.625 23.459; 288 -0.541 11.625 24.541; 289 0.367 14.25 24.367;
    290 0.367 14.25 23.633; 291 -0.367 14.25 23.633; 292 -0.367 14.25 24.367;
    293 0.233 15.125 24.233; 294 0.233 15.125 23.767; 295 -0.233 15.125 23.767;
    296 -0.233 15.125 24.233;
    MEMBER INCIDENCES
    1 1 17; 2 2 18; 3 3 19; 4 4 20; 5 17 21; 6 18 22; 7 19 23; 8 20 24; 9 21 25;
    10 22 26; 11 23 27; 12 24 28; 13 25 29; 14 26 30; 15 27 31; 16 28 32; 17 29 33;
    18 30 34; 19 31 35; 20 32 36; 21 33 37; 22 34 38; 23 35 39; 24 36 40; 25 37 41;
    26 38 42; 27 39 43; 28 40 44; 29 41 45; 30 42 46; 31 43 47; 32 44 48; 33 45 5;
    34 46 6; 35 47 7; 36 48 8; 37 5 9; 38 6 10; 39 7 11; 40 8 12; 41 9 49;
    42 10 50; 43 11 51; 44 12 52; 45 49 53; 46 50 54; 47 51 55; 48 52 56; 49 53 13;
    50 54 14; 51 55 15; 52 56 16; 53 1 20; 54 2 19; 55 3 18; 56 4 17; 57 17 24;
    58 18 23; 59 19 22; 60 20 21; 61 21 28; 62 22 27; 63 23 26; 64 24 25; 65 25 32;
    66 26 31; 67 27 30; 68 28 29; 69 29 36; 70 30 35; 71 31 34; 72 32 33; 73 33 40;
    74 34 39; 75 35 38; 76 36 37; 77 37 44; 78 38 43; 79 39 42; 80 40 41; 81 41 48;
    82 42 47; 83 43 46; 84 44 45; 85 45 8; 86 46 7; 87 47 6; 88 48 5; 89 5 12;
    90 6 11; 91 7 10; 92 8 9; 93 9 52; 94 10 51; 95 11 50; 96 12 49; 97 49 56;
    98 50 55; 99 51 54; 100 52 53; 101 53 16; 102 54 15; 103 55 14; 104 56 13;
    105 1 18; 106 2 17; 107 3 20; 108 4 19; 109 17 22; 110 18 21; 111 19 24;
    112 20 23; 113 21 26; 114 22 25; 115 23 28; 116 24 27; 117 25 30; 118 26 29;
    119 27 32; 120 28 31; 121 29 34; 122 30 33; 123 31 36; 124 32 35; 125 33 38;
    126 34 37; 127 35 40; 128 36 39; 129 37 42; 130 38 41; 131 39 44; 132 40 43;
    133 41 46; 134 42 45; 135 43 48; 136 44 47; 137 45 6; 138 46 5; 139 47 8;
    140 48 7; 141 5 10; 142 6 9; 143 7 12; 144 8 11; 145 9 50; 146 10 49;
    147 11 52; 148 12 51; 149 49 54; 150 50 53; 151 51 56; 152 52 55; 153 53 14;
    154 54 13; 155 55 16; 156 56 15; 157 5 6; 158 6 7; 159 7 8; 160 8 5; 161 9 10;
    162 10 11; 163 11 12; 164 12 9; 165 13 14; 166 14 15; 167 15 16; 168 16 13;
    169 5 7; 170 6 8; 171 9 11; 172 10 12; 173 5 61; 174 8 62; 175 12 63; 176 9 64;
    177 61 65; 178 62 66; 179 63 67; 180 64 68; 181 65 69; 182 66 70; 183 67 71;
    184 68 72; 185 101 109; 186 102 110; 187 103 111; 188 104 112; 189 109 113;
    190 110 114; 191 111 115; 192 112 116; 193 113 126; 194 114 127; 195 115 131;
    196 116 130; 197 69 77; 198 70 78; 199 71 79; 200 72 80; 201 77 81; 202 78 82;
    203 79 83; 204 80 84; 205 81 85; 206 82 86; 207 83 87; 208 84 88; 209 85 93;
    210 86 94; 211 87 95; 212 88 96; 213 93 97; 214 94 98; 215 95 99; 216 96 100;
    217 97 101; 218 98 102; 219 99 103; 220 100 104; 221 5 62; 222 9 63; 223 62 65;
    224 63 68; 225 65 70; 226 68 71; 227 102 109; 228 103 112; 229 109 114;
    230 112 115; 231 114 126; 232 115 130; 233 70 77; 234 71 80; 235 77 82;
    236 80 83; 237 82 85; 238 83 88; 239 85 94; 240 88 95; 241 94 97; 242 95 100;
    243 97 102; 244 100 103; 245 12 62; 246 9 61; 247 62 63; 248 61 64; 249 63 66;
    250 64 65; 251 66 67; 252 65 68; 253 67 70; 254 68 69; 255 102 111;
    256 101 112; 257 110 115; 258 109 116; 259 110 111; 260 109 112; 261 114 131;
    262 113 130; 263 114 115; 264 113 116; 265 71 78; 266 72 77; 267 78 79;
    268 77 80; 269 79 82; 270 80 81; 271 82 83; 272 81 84; 273 83 86; 274 84 85;
    275 82 87; 276 81 88; 277 86 95; 278 85 96; 279 87 94; 280 88 93; 281 94 99;
    282 93 100; 283 94 95; 284 93 96; 285 98 103; 286 97 104; 287 98 99;
    288 97 100; 289 69 73; 290 73 70; 291 70 74; 292 74 71; 293 71 75; 294 75 72;
    295 72 76; 296 76 69; 297 73 75; 298 74 76; 299 85 89; 300 89 86; 301 86 90;
    302 90 87; 303 87 91; 304 91 88; 305 88 92; 306 92 85; 307 89 91; 308 90 92;
    309 101 105; 310 105 102; 311 102 106; 312 106 103; 313 103 107; 314 107 104;
    315 104 108; 316 108 101; 317 105 107; 318 106 108; 319 73 74; 320 74 75;
    321 75 76; 322 76 73; 323 89 90; 324 90 91; 325 91 92; 326 92 89; 327 105 106;
    328 106 107; 329 107 108; 330 108 105; 331 121 137; 332 122 138; 333 123 139;
    334 124 140; 335 137 141; 336 138 142; 337 139 143; 338 140 144; 339 141 145;
    340 142 146; 341 143 147; 342 144 148; 343 145 149; 344 146 150; 345 147 151;
    346 148 152; 347 149 153; 348 150 154; 349 151 155; 350 152 156; 351 153 157;
    352 154 158; 353 155 159; 354 156 160; 355 157 161; 356 158 162; 357 159 163;
    358 160 164; 359 161 165; 360 162 166; 361 163 167; 362 164 168; 363 165 125;
    364 166 126; 365 167 127; 366 168 128; 367 125 129; 368 126 130; 369 127 131;
    370 128 132; 371 129 169; 372 130 170; 373 131 171; 374 132 172; 375 169 173;
    376 170 174; 377 171 175; 378 172 176; 379 173 133; 380 174 134; 381 175 135;
    382 176 136; 383 121 140; 384 122 139; 385 123 138; 386 124 137; 387 137 144;
    388 138 143; 389 139 142; 390 140 141; 391 141 148; 392 142 147; 393 143 146;
    394 144 145; 395 145 152; 396 146 151; 397 147 150; 398 148 149; 399 149 156;
    400 150 155; 401 151 154; 402 152 153; 403 153 160; 404 154 159; 405 155 158;
    406 156 157; 407 157 164; 408 158 163; 409 159 162; 410 160 161; 411 161 168;
    412 162 167; 413 163 166; 414 164 165; 415 165 128; 416 166 127; 417 167 126;
    418 168 125; 419 125 132; 420 126 131; 421 127 130; 422 128 129; 423 129 172;
    424 130 171; 425 131 170; 426 132 169; 427 169 176; 428 170 175; 429 171 174;
    430 172 173; 431 173 136; 432 174 135; 433 175 134; 434 176 133; 435 121 138;
    436 122 137; 437 123 140; 438 124 139; 439 137 142; 440 138 141; 441 139 144;
    442 140 143; 443 141 146; 444 142 145; 445 143 148; 446 144 147; 447 145 150;
    448 146 149; 449 147 152; 450 148 151; 451 149 154; 452 150 153; 453 151 156;
    454 152 155; 455 153 158; 456 154 157; 457 155 160; 458 156 159; 459 157 162;
    460 158 161; 461 159 164; 462 160 163; 463 161 166; 464 162 165; 465 163 168;
    466 164 167; 467 165 126; 468 166 125; 469 167 128; 470 168 127; 471 125 130;
    472 126 129; 473 127 132; 474 128 131; 475 129 170; 476 130 169; 477 131 172;
    478 132 171; 479 169 174; 480 170 173; 481 171 176; 482 172 175; 483 173 134;
    484 174 133; 485 175 136; 486 176 135; 487 125 126; 488 126 127; 489 127 128;
    490 128 125; 491 129 130; 492 130 131; 493 131 132; 494 132 129; 495 133 134;
    496 134 135; 497 135 136; 498 136 133; 499 125 127; 500 126 128; 501 129 131;
    502 130 132; 503 125 181; 504 128 182; 505 132 183; 506 129 184; 507 181 185;
    508 182 186; 509 183 187; 510 184 188; 511 185 189; 512 186 190; 513 187 191;
    514 188 192; 515 221 229; 516 222 230; 517 223 231; 518 224 232; 519 229 233;
    520 230 234; 521 231 235; 522 232 236; 523 233 246; 524 234 247; 525 235 251;
    526 236 250; 527 189 197; 528 190 198; 529 191 199; 530 192 200; 531 197 201;
    532 198 202; 533 199 203; 534 200 204; 535 201 205; 536 202 206; 537 203 207;
    538 204 208; 539 205 213; 540 206 214; 541 207 215; 542 208 216; 543 213 217;
    544 214 218; 545 215 219; 546 216 220; 547 217 221; 548 218 222; 549 219 223;
    550 220 224; 551 125 182; 552 129 183; 553 182 185; 554 183 188; 555 185 190;
    556 188 191; 557 222 229; 558 223 232; 559 229 234; 560 232 235; 561 234 246;
    562 235 250; 563 190 197; 564 191 200; 565 197 202; 566 200 203; 567 202 205;
    568 203 208; 569 205 214; 570 208 215; 571 214 217; 572 215 220; 573 217 222;
    574 220 223; 575 132 182; 576 129 181; 577 182 183; 578 181 184; 579 183 186;
    580 184 185; 581 186 187; 582 185 188; 583 187 190; 584 188 189; 585 222 231;
    586 221 232; 587 230 235; 588 229 236; 589 230 231; 590 229 232; 591 234 251;
    592 233 250; 593 234 235; 594 233 236; 595 191 198; 596 192 197; 597 198 199;
    598 197 200; 599 199 202; 600 200 201; 601 202 203; 602 201 204; 603 203 206;
    604 204 205; 605 202 207; 606 201 208; 607 206 215; 608 205 216; 609 207 214;
    610 208 213; 611 214 219; 612 213 220; 613 214 215; 614 213 216; 615 218 223;
    616 217 224; 617 218 219; 618 217 220; 619 189 193; 620 193 190; 621 190 194;
    622 194 191; 623 191 195; 624 195 192; 625 192 196; 626 196 189; 627 193 195;
    628 194 196; 629 205 209; 630 209 206; 631 206 210; 632 210 207; 633 207 211;
    634 211 208; 635 208 212; 636 212 205; 637 209 211; 638 210 212; 639 221 225;
    640 225 222; 641 222 226; 642 226 223; 643 223 227; 644 227 224; 645 224 228;
    646 228 221; 647 225 227; 648 226 228; 649 193 194; 650 194 195; 651 195 196;
    652 196 193; 653 209 210; 654 210 211; 655 211 212; 656 212 209; 657 225 226;
    658 226 227; 659 227 228; 660 228 225; 661 241 257; 662 242 258; 663 243 259;
    664 244 260; 665 257 261; 666 258 262; 667 259 263; 668 260 264; 669 261 265;
    670 262 266; 671 263 267; 672 264 268; 673 265 269; 674 266 270; 675 267 271;
    676 268 272; 677 269 273; 678 270 274; 679 271 275; 680 272 276; 681 273 277;
    682 274 278; 683 275 279; 684 276 280; 685 277 281; 686 278 282; 687 279 283;
    688 280 284; 689 281 285; 690 282 286; 691 283 287; 692 284 288; 693 285 245;
    694 286 246; 695 287 247; 696 288 248; 697 245 249; 698 246 250; 699 247 251;
    700 248 252; 701 249 289; 702 250 290; 703 251 291; 704 252 292; 705 289 293;
    706 290 294; 707 291 295; 708 292 296; 709 293 253; 710 294 254; 711 295 255;
    712 296 256; 713 241 260; 714 242 259; 715 243 258; 716 244 257; 717 257 264;
    718 258 263; 719 259 262; 720 260 261; 721 261 268; 722 262 267; 723 263 266;
    724 264 265; 725 265 272; 726 266 271; 727 267 270; 728 268 269; 729 269 276;
    730 270 275; 731 271 274; 732 272 273; 733 273 280; 734 274 279; 735 275 278;
    736 276 277; 737 277 284; 738 278 283; 739 279 282; 740 280 281; 741 281 288;
    742 282 287; 743 283 286; 744 284 285; 745 285 248; 746 286 247; 747 287 246;
    748 288 245; 749 245 252; 750 246 251; 751 247 250; 752 248 249; 753 249 292;
    754 250 291; 755 251 290; 756 252 289; 757 289 296; 758 290 295; 759 291 294;
    760 292 293; 761 293 256; 762 294 255; 763 295 254; 764 296 253; 765 241 258;
    766 242 257; 767 243 260; 768 244 259; 769 257 262; 770 258 261; 771 259 264;
    772 260 263; 773 261 266; 774 262 265; 775 263 268; 776 264 267; 777 265 270;
    778 266 269; 779 267 272; 780 268 271; 781 269 274; 782 270 273; 783 271 276;
    784 272 275; 785 273 278; 786 274 277; 787 275 280; 788 276 279; 789 277 282;
    790 278 281; 791 279 284; 792 280 283; 793 281 286; 794 282 285; 795 283 288;
    796 284 287; 797 285 246; 798 286 245; 799 287 248; 800 288 247; 801 245 250;
    802 246 249; 803 247 252; 804 248 251; 805 249 290; 806 250 289; 807 251 292;
    808 252 291; 809 289 294; 810 290 293; 811 291 296; 812 292 295; 813 293 254;
    814 294 253; 815 295 256; 816 296 255; 817 245 246; 818 246 247; 819 247 248;
    820 248 245; 821 249 250; 822 250 251; 823 251 252; 824 252 249; 825 253 254;
    826 254 255; 827 255 256; 828 256 253; 829 245 247; 830 246 248; 831 249 251;
    832 250 252;
    SUPPORTS
    1 TO 4 121 TO 124 241 TO 244 PINNED
    START GROUP DEFINITION
    MEMBER
    *TOWER T1P - 1
    _T1L1 1 TO 12
    _T1L2 13 TO 24
    _T1L3 25 TO 40
    _T1L4 41 TO 52
    _T1BL1 53 TO 64
    _T1BL2 65 TO 76
    _T1BL3 77 TO 88
    _T1BL4 89 TO 92
    _T1BL5 93 TO 104
    _T1BT1 105 TO 116
    _T1BT2 117 TO 128
    _T1BT3 129 TO 140
    _T1BT4 141 TO 144
    _T1BT5 145 TO 156
    _T1H1 157 TO 164
    _T1H2 165 TO 168
    _T1D1 169 TO 172
    *TOWER T2P
    _T2L1 331 TO 342
    _T2L2 343 TO 354
    _T2L3 355 TO 370
    _T2L4 371 TO 382
    _T2BL1 383 TO 394
    _T2BL2 395 TO 406
    _T2BL3 407 TO 418
    _T2BL4 419 TO 422
    _T2BL5 423 TO 434
    _T2BT1 435 TO 446
    _T2BT2 447 TO 458
    _T2BT3 459 TO 470
    _T2BT4 471 TO 474
    _T2BT5 475 TO 486
    _T2H1 487 TO 494
    _T2H2 495 TO 498
    _T2D1 499 TO 502
    *TOWER T1P-2
    _T12L1 661 TO 672
    _T12L2 673 TO 684
    _T12L3 685 TO 700
    _T12L4 701 TO 712
    _T12BL1 713 TO 724
    _T12BL2 725 TO 736
    _T12BL3 737 TO 748
    _T12BL4 749 TO 752
    _T12BL5 753 TO 764
    _T12BT1 765 TO 776
    _T12BT2 777 TO 788
    _T12BT3 789 TO 800
    _T12BT4 801 TO 804
    _T12BT5 805 TO 816
    _T12H1 817 TO 824
    _T12H2 825 TO 828
    _T12D1 829 TO 832
    *BEAM B1 - 1
    _B11L1 173 TO 196
    _B11L2 197 TO 220
    _B11H1 221 TO 232
    _B11H2 233 TO 244
    _B11V1 245 TO 264
    _B11V2 265 TO 288
    _B11DVDH 289 TO 318
    _B11DD 319 TO 330
    *BEAM B1 -2
    _B12L1 503 TO 526
    _B12L2 527 TO 550
    _B12H1 551 TO 562
    _B12H2 563 TO 574
    _B12V1 575 TO 594
    _B12V2 595 TO 618
    _B12DVDH 619 TO 648
    _B12DD 649 TO 660
    END GROUP DEFINITION
    MEMBER PROPERTY INDIAN
    *TOWER T1P - 1
    _T1L1 TABLE ST ISA100X100X8
    _T1L2 TABLE ST ISA80X80X8
    _T1L3 TABLE ST ISA75X75X6
    _T1L4 TABLE ST ISA65X65X6
    _T1BL1 TABLE ST ISA45X45X5
    _T1BL2 TABLE ST ISA45X45X5
    _T1BL3 TABLE ST ISA45X45X5
    _T1BL4 TABLE ST ISA45X45X5
    _T1BL5 TABLE ST ISA45X45X5
    _T1BT1 TABLE ST ISA45X45X5
    _T1BT2 TABLE ST ISA45X45X5
    _T1BT3 TABLE ST ISA45X45X5
    _T1BT4 TABLE ST ISA45X45X5
    _T1BT5 TABLE ST ISA45X45X5
    _T1H1 TABLE ST ISA65X65X6
    _T1H2 TABLE ST ISA45X45X5
    _T1D1 TABLE ST ISA45X45X5
    *TOWER T1P - 2
    _T12L1 TABLE ST ISA100X100X8
    _T12L2 TABLE ST ISA80X80X8
    _T12L3 TABLE ST ISA75X75X6
    _T12L4 TABLE ST ISA65X65X6
    _T12BL1 TABLE ST ISA45X45X5
    _T12BL2 TABLE ST ISA45X45X5
    _T12BL3 TABLE ST ISA45X45X5
    _T12BL4 TABLE ST ISA45X45X5
    _T12BL5 TABLE ST ISA45X45X5
    _T12BT1 TABLE ST ISA45X45X5
    _T12BT2 TABLE ST ISA45X45X5
    _T12BT3 TABLE ST ISA45X45X5
    _T12BT4 TABLE ST ISA45X45X5
    _T12BT5 TABLE ST ISA45X45X5
    _T12H1 TABLE ST ISA65X65X6
    _T12H2 TABLE ST ISA45X45X5
    _T12D1 TABLE ST ISA45X45X5
    *TOWER T2P
    _T2L1 TABLE ST ISA110X110X10
    _T2L2 TABLE ST ISA100X100X8
    _T2L3 TABLE ST ISA75X75X6
    _T2L4 TABLE ST ISA65X65X6
    _T2BL1 TABLE ST ISA45X45X5
    _T2BL2 TABLE ST ISA45X45X5
    _T2BL3 TABLE ST ISA45X45X5
    _T2BL4 TABLE ST ISA45X45X5
    _T2BL5 TABLE ST ISA45X45X5
    _T2BT1 TABLE ST ISA45X45X5
    _T2BT2 TABLE ST ISA45X45X5
    _T2BT3 TABLE ST ISA45X45X5
    _T2BT4 TABLE ST ISA55X55X5
    _T2BT5 TABLE ST ISA45X45X5
    _T2H1 TABLE ST ISA65X65X6
    _T2H2 TABLE ST ISA45X45X5
    _T2D1 TABLE ST ISA45X45X5
    *BEAM B1 - 1
    _B11L1 TABLE ST ISA75X75X6
    _B11L2 TABLE ST ISA75X75X6
    _B11H1 TABLE ST ISA45X45X5
    _B11H2 TABLE ST ISA45X45X5
    _B11V1 TABLE ST ISA45X45X5
    _B11V2 TABLE ST ISA45X45X5
    _B11DVDH TABLE ST ISA50X50X6
    _B11DD TABLE ST ISA45X45X5
    *BEAM B1 -2
    _B12L1 TABLE ST ISA75X75X6
    _B12L2 TABLE ST ISA75X75X6
    _B12H1 TABLE ST ISA45X45X5
    _B12H2 TABLE ST ISA45X45X5
    _B12V1 TABLE ST ISA45X45X5
    _B12V2 TABLE ST ISA45X45X5
    _B12DVDH TABLE ST ISA50X50X6
    _B12DD TABLE ST ISA45X45X5
    MEMBER TRUSS
    53 TO 172 221 TO 288 297 298 307 308 317 TO 330 383 TO 502 551 TO 618 627 -
    628 637 638 647 TO 660 713 TO 832
    DEFINE MATERIAL START
    ISOTROPIC STEEL
    E 2.05e+008
    POISSON 0.3
    DENSITY 76.8195
    ALPHA 1.2e-005
    DAMP 0.03
    TYPE STEEL
    STRENGTH FY 253200 FU 407800 RY 1.5 RT 1.2
    END DEFINE MATERIAL
    CONSTANTS
    MATERIAL STEEL ALL
    LOAD 1 DEAD LOAD
    *WEIGHT OF CONDUCTOR
    JOINT LOAD
    76 108 196 228 FY -7.9
    92 212 FY -7.9
    SELFWEIGHT Y -1.1
    *WEIGHT OF GROUND WIRE
    JOINT LOAD
    *200MTR SPAN =200/2 MTR SPAN LOAD ON NODES
    *WEIGHT/M = 0.2822 KG/M
    *DIA OF WIRE = 11.77MM = 0.0117M
    *WEIGHT ON EACH NODE = 100*.2822/4 = 7.055*2 = 14.11kg
    *14.11 x 9.81 / 1000 = .138
    13 TO 16 133 TO 136 253 TO 256 FY -0.138
    LOAD 2 LIVE LOAD
    **MAN WITH TOOLS
    JOINT LOAD
    91 211 FY -1.5
    LOAD 3 CONDUCTOR TENSION FOR NORMAL CONDITION
    *AS PER STRUCTURAL LAYOUT DIAGRAM 1*9.81
    JOINT LOAD
    76 92 108 196 212 228 FX 9.81
    *74 90 106 194 210 226 FX -9.81
    LOAD 4 CONDUCTOR TENSION FOR SHORT CKT CONDITION
    *AS PER STRUCTURAL LAYOUT DIAGRAM 1.58*9.81
    JOINT LOAD
    74 90 106 194 210 226 FX -15.499
    LOAD 5 CONDUCTOR TENSION FOR NC WITH HORIZONTAL+45
    **AS PER STRUCTURAL LAYOUT DIAGRAM 1*9.81
    **FORCE IN X DIRECTION 1*9.81*COS45=6.936
    **FORZE IN Z DIRECTION 1*9.81*SIN45=6.936
    JOINT LOAD
    76 92 108 196 212 228 FX 6.936 FZ 6.936
    LOAD 6 CONDUCTOR TENSION FOR NC WITH VERTICAL+30
    **AS PER STRUCTURAL LAYOUT DIAGRAM 1*9.81
    **FORCE IN X DIRECTION 1*9.81*COS30=8.49
    **FORZE IN Y DIRECTION 1*9.81*SIN30=+4.905
    JOINT LOAD
    76 92 108 196 212 228 FX 8.49 FY 4.905
    LOAD 7 CONDUCTOR TENSION FOR NC WITH VERTICAL-30
    **AS PER STRUCTURAL LAYOUT DIAGRAM 1*9.81
    **FORCE IN X DIRECTION 1*9.81*COS30=8.49
    **FORZE IN Y DIRECTION 1*9.81*SIN30=-4.905
    JOINT LOAD
    76 92 108 196 212 228 FX 8.49 FY -4.905
    LOAD 8 CONDUCTOR TENSION FOR NC WITH HOR+45 VER+30
    **AS PER STRUCTURAL LAYOUT DIAGRAM 1*9.81
    **FORCE IN X DIRECTION 1*9.81*COS45*COS30=6.007
    **FORZE IN Z DIRECTION 1*9.81*COS30*SIN45=6.007
    **FORCE IN Y DIRECTION 1*9.81*SIN30=4.905
    JOINT LOAD
    76 92 108 196 212 228 FX 6.007 FY 4.905 FZ 6.007
    LOAD 9 LOADTYPE None TITLE CONDUCTOR TENSION FOR NC WITH HOR+45 VER-30
    **AS PER STRUCTURAL LAYOUT DIAGRAM 1*9.81
    **FORCE IN X DIRECTION 1*9.81*COS45*COS30=6.007
    **FORZE IN Z DIRECTION 1*9.81*COS30*SIN45=6.007
    **FORCE IN Y DIRECTION 1*9.81*SIN30=-4.905
    JOINT LOAD
    76 92 108 196 212 228 FX 6.007 FY -4.905 FZ 6.007
    LOAD 10 LOADTYPE None TITLE WIND LOAD IN X DIRECTION
    ***TOWER T1P
    JOINT LOAD
    3 4 FX 0
    19 20 FX 1.59
    23 24 FX 0.99
    27 28 FX 0.87
    31 32 FX 0.76
    35 36 FX 0.69
    39 40 FX 0.63
    43 44 FX 0.59
    47 48 FX 0.61
    7 8 FX 0.65
    11 12 FX 0.73
    51 52 FX 0.66
    55 56 FX 0.6
    15 16 FX 0.26
    ***TOWER T1P-2
    243 244 FX 0
    259 260 FX 1.59
    263 264 FX 0.99
    267 268 FX 0.87
    271 272 FX 0.76
    275 276 FX 0.69
    279 280 FX 0.63
    283 284 FX 0.59
    287 288 FX 0.61
    247 248 FX 0.65
    251 252 FX 0.73
    291 292 FX 0.66
    295 296 FX 0.6
    255 256 FX 0.26
    **TOWER T2P
    123 124 FX 0
    139 140 FX 1.61
    143 144 FX 1
    147 148 FX 0.91
    151 152 FX 0.82
    155 156 FX 0.76
    159 160 FX 0.66
    163 164 FX 0.57
    167 168 FX 0.58
    127 128 FX 0.63
    131 132 FX 0.71
    171 172 FX 0.63
    175 176 FX 0.58
    135 136 FX 0.25
    ***WIND PERPENDICULAR TO BEAM 12.5 m
    MEMBER LOAD
    174 175 178 179 182 183 186 187 190 191 194 195 198 199 202 203 206 207 210 -
    211 214 215 218 219 504 505 508 509 512 513 516 517 520 521 524 525 528 529 -
    532 533 536 537 540 541 544 545 548 549 UNI GX 0.575
    **WIND ON INSULATORS AND CONDUCTORS 12.5 m
    JOINT LOAD
    73 89 105 193 209 225 FX 1.296
    LOAD 11 LOADTYPE None TITLE WIND LOAD IN Z DIRECTION
    **TOWER T1P
    JOINT LOAD
    2 3 FZ 0
    18 19 FZ 1.59
    22 23 FZ 0.99
    26 27 FZ 0.87
    30 31 FZ 0.76
    34 35 FZ 0.69
    38 39 FZ 0.63
    42 43 FZ 0.59
    46 47 FZ 0.61
    6 7 FZ 0.65
    10 11 FZ 0.73
    50 51 FZ 0.66
    54 55 FZ 0.6
    14 15 FZ 0.26
    *TOWER T1P-2
    242 243 FZ 0
    258 259 FZ 1.59
    262 263 FZ 0.99
    266 267 FZ 0.87
    270 271 FZ 0.76
    274 275 FZ 0.69
    278 279 FZ 0.63
    282 283 FZ 0.59
    286 287 FZ 0.61
    246 247 FZ 0.65
    250 251 FZ 0.73
    290 291 FZ 0.66
    294 295 FZ 0.6
    254 255 FZ 0.26
    **TOWER T2P
    122 123 FZ 0
    138 139 FZ 1.61
    142 143 FZ 1
    146 147 FZ 0.91
    150 151 FZ 0.82
    154 155 FZ 0.76
    158 159 FZ 0.66
    162 163 FZ 0.57
    166 167 FZ 0.58
    126 127 FZ 0.63
    130 131 FZ 0.71
    170 171 FZ 0.63
    174 175 FZ 0.58
    134 135 FZ 0.25
    **WIND PARALLEL TO BEAM 12.5 m
    74 76 90 92 106 108 194 196 210 212 226 228 FZ 0.952
    *WIND ON INSULATORS AND CONDUCTORS 16.2 m
    JOINT LOAD
    76 92 108 196 212 228 FZ 9.272
    ****GROUND WIRE WIND FORCE
    **DESIGN WIND PRESSURE = 1.21KN/M2
    **THICKNESS OF CONDUCTOR = 0.011M
    **POWER LAW FACTOR(a) = .095
    *(H/10)^(2^a) = 1.269
    **PRESSURE = 1.269 X 1.21 = 1.535KN/M2
    **FORCE ON WIRE = 1.535*100*0.011=1.6885
    **PER NODAL POINT = 1.6885/4=0.422KN
    **FOR TWO SHIELD WIRES = .109*2 = .844KN
    13 TO 16 133 TO 136 253 TO 256 FZ 0.844
    LOAD 12 LOADTYPE None TITLE SHIELD WIRE NC WITHOUT DEVIATION
    JOINT LOAD
    *0.6 T TENSION / 4 NODAL POINTS ON PEAK
    13 TO 16 133 TO 136 253 TO 256 FX 1.5
    LOAD 13 LOADTYPE None TITLE SHIELD WIRE NC WITH HORIZONTAL+45
    JOINT LOAD
    *0.6 T TENSION / 4 NODAL POINTS ON PEAK = 0.15
    *0.15 X COS45 = 0.106*2*10
    *0.15 X SIN45 = 0.106*2*10
    13 TO 16 133 TO 136 253 TO 256 FX 2.12 FZ 2.12
    LOAD 14 LOADTYPE None TITLE SHIELD WIRE NC WITH VERTICAL+30
    JOINT LOAD
    **0.6 T TENSION / 4 NODAL POINTS ON PEAK
    **0.15 X COS30 = 0.129*2*10
    **0.15 X SIN30 = 0.075*2*10
    13 TO 16 133 TO 136 253 TO 256 FX 2.59 FY 1.5
    LOAD 15 LOADTYPE None TITLE SHIELD WIRE NC WITH VERTICAL-30
    JOINT LOAD
    **0.6 T TENSION / 4 NODAL POINTS ON PEAK
    **0.15 X COS30 = 0.129*2*10
    **0.15 X SIN30 = 0.075*2*10
    13 TO 16 133 TO 136 253 TO 256 FX 2.59 FY -1.5
    LOAD 16 LOADTYPE None TITLE SHIELD WIRE NC WITH VERTICAL+30 HORIZONTAL+45
    JOINT LOAD
    **0.6 KN TENSION / 4 NODAL POINTS ON PEAK
    **0.6 KN TENSION / 4 NODAL POINTS ON PEAK
    **0.15 X COS45 X COS30 = 0.091*2*10
    **0.15 X SIN45XCOS30 = 0.0918*2*10
    **0.15 x SIN30=.075*2*10
    13 TO 16 133 TO 136 253 TO 256 FX 1.837 FY 1.5 FZ 1.837
    LOAD 17 LOADTYPE None TITLE SHIELD WIRE NC WITH VERTICAL-30 HORIZONTAL+45
    JOINT LOAD
    **0.6 T TENSION / 4 NODAL POINTS ON PEAK
    **0.6 T TENSION / 4 NODAL POINTS ON PEAK
    **0.15 X COS45 X COS30 = 0.091*2*10
    **0.15 X SIN45XCOS30 = 0.0918*2*10
    **0.15 x SIN30=.075*2*10
    13 TO 16 133 TO 136 253 TO 256 FX 1.837 FY -1.5 FZ 1.837
    *****
    *LOAD COMBINATION FOR STRUCTURE DESIGN
    LOAD COMB 101 1.35DL+1.35WL(X)+1.35NC
    1 1.35 10 1.35 3 1.35 12 1.35
    LOAD COMB 102 1.35DL+1.35WL(X)+1.35NC HOR+15
    1 1.35 10 1.35 5 1.35 13 1.35
    LOAD COMB 103 1.35DL+1.35WL(X)+1.35NC VER+15
    1 1.35 10 1.35 6 1.35 14 1.35
    LOAD COMB 104 1.35DL+1.35WL(X)+1.35NC VER-15
    1 1.35 10 1.35 7 1.35 15 1.35
    LOAD COMB 105 1.35DL+1.35WL(X)+1.35NC HOR+15 VER+15
    1 1.35 10 1.35 8 1.35 16 1.35
    LOAD COMB 106 1.35DL+1.35WL(X)+1.35NC HOR+15 VER-15
    1 1.35 10 1.35 9 1.35 17 1.35
    LOAD COMB 107 1.35DL+1.35WL(Z)+1.35NC
    1 1.35 11 1.35 3 1.35 12 1.35
    LOAD COMB 108 1.35DL+1.35WL(Z)+1.35NC HOR+15
    1 1.35 11 1.35 5 1.35 13 1.35
    LOAD COMB 109 1.35DL+1.35WL(Z)+1.35NC VER+15
    1 1.35 11 1.35 6 1.35 14 1.35
    LOAD COMB 110 1.35DL+1.35WL(Z)+1.35NC VER-15
    1 1.35 11 1.35 7 1.35 15 1.35
    LOAD COMB 111 1.35DL+1.35WL(Z)+1.35NC HOR+15 VER+15
    1 1.35 11 1.35 8 1.35 16 1.35
    LOAD COMB 112 1.35DL+1.35WL(Z)+1.35NC HOR+15 VER-15
    1 1.35 11 1.35 9 1.35 17 1.35
    LOAD COMB 113 1.0DL+1.0SC+1.0SW NC
    1 1.0 4 1.0 12 1.0
    LOAD COMB 114 1.0DL+1.0SC+1.0SW NC HOR+15
    1 1.0 4 1.0 13 1.0
    LOAD COMB 115 1.0DL+1.0SC+1.0SW NC VER+15
    1 1.0 4 1.0 14 1.0
    LOAD COMB 116 1.0DL+1.0SC+1.0SW NC VER-15
    1 1.0 4 1.0 15 1.0
    LOAD COMB 117 1.0DL+1.0SC+1.0SW NC HOR+15 VER+15
    1 1.0 4 1.0 16 1.0
    LOAD COMB 118 1.0DL+1.0SC+1.0SW NC HOR+15 VER-15
    1 1.0 4 1.0 17 1.0
    LOAD COMB 119 1.5DL+1.5LL+1.5NC
    1 1.5 2 1.5 3 1.5 12 1.5
    LOAD COMB 120 1.5DL+1.5LL+1.5NC HOR+15
    1 1.5 2 1.5 5 1.5 13 1.5
    LOAD COMB 121 1.5DL+1.5LL+1.5NC VER+15
    1 1.5 2 1.5 6 1.5 14 1.5
    LOAD COMB 122 1.5DL+1.5LL+1.5NC VER-15
    1 1.5 2 1.5 7 1.5 15 1.5
    LOAD COMB 123 1.5DL+1.5LL+1.5NC HOR+15 VER+15
    1 1.5 2 1.5 8 1.5 16 1.5
    LOAD COMB 124 1.5DL+1.5LL+1.5NC HOR+15 VER-15
    1 1.5 2 1.5 9 1.5 17 1.5
    ****************************
    LOAD COMB 201 1.0DL+1.0WL(X)+1.0NC
    1 1.0 10 1.0 3 1.0 12 1.0
    LOAD COMB 202 1.0DL+1.0WL(X)+1.0NC HOR+15
    1 1.0 10 1.0 5 1.0 13 1.0
    LOAD COMB 203 1.0DL+1.0WL(X)+1.0NC VER+15
    1 1.0 10 1.0 6 1.0 14 1.0
    LOAD COMB 204 1.0DL+1.0WL(X)+1.0NC VER-15
    1 1.0 10 1.0 7 1.0 15 1.0
    LOAD COMB 205 1.0DL+1.0WL(X)+1.0NC HOR+15 VER+15
    1 1.0 10 1.0 8 1.0 16 1.0
    LOAD COMB 206 1.0DL+1.0WL(X)+1.0NC HOR+15 VER-15
    1 1.0 10 1.0 9 1.0 17 1.0
    LOAD COMB 207 1.0DL+1.0WL(Z)+1.0NC
    1 1.0 11 1.0 3 1.0 12 1.0
    LOAD COMB 208 1.0DL+1.0WL(Z)+1.0NC HOR+15
    1 1.0 11 1.0 5 1.0 13 1.0
    LOAD COMB 209 1.0DL+1.0WL(Z)+1.0NC VER+15
    1 1.0 11 1.0 6 1.0 14 1.0
    LOAD COMB 210 1.0DL+1.0WL(Z)+1.0NC VER-15
    1 1.0 11 1.0 7 1.0 15 1.0
    LOAD COMB 211 1.0DL+1.0WL(Z)+1.0NC HOR+15 VER+15
    1 1.0 11 1.0 8 1.0 16 1.0
    LOAD COMB 212 1.0DL+1.0WL(Z)+1.0NC HOR+15 VER-15
    1 1.0 11 1.0 9 1.0 17 1.0
    LOAD COMB 213 1.0DL+1.0SC+1.0SW NC
    1 1.0 4 1.0 12 1.0
    LOAD COMB 214 1.0DL+1.0SC+1.0SW NC HOR+15
    1 1.0 4 1.0 13 1.0
    LOAD COMB 215 1.0DL+1.0SC+1.0SW NC VER+15
    1 1.0 4 1.0 14 1.0
    LOAD COMB 216 1.0DL+1.0SC+1.0SW NC VER-15
    1 1.0 4 1.0 15 1.0
    LOAD COMB 217 1.0DL+1.0SC+1.0SW NC HOR+15 VER+15
    1 1.0 4 1.0 16 1.0
    LOAD COMB 218 1.0DL+1.0SC+1.0SW NC HOR+15 VER-15
    1 1.0 4 1.0 17 1.0
    LOAD COMB 219 1.0DL+1.0LL+1.0NC
    1 1.0 2 1.0 3 1.0 12 1.0
    LOAD COMB 220 1.0DL+1.0LL+1.0NC HOR+15
    1 1.0 2 1.0 5 1.0 13 1.0
    LOAD COMB 221 1.0DL+1.0LL+1.0NC VER+15
    1 1.0 2 1.0 6 1.0 14 1.0
    LOAD COMB 222 1.0DL+1.0LL+1.0NC VER-15
    1 1.0 2 1.0 7 1.0 15 1.0
    LOAD COMB 223 1.0DL+1.0LL+1.0NC HOR+15 VER+15
    1 1.0 2 1.0 8 1.0 16 1.0
    LOAD COMB 224 1.0DL+1.0LL+1.0NC HOR+15 VER-15
    1 1.0 2 1.0 9 1.0 17 1.0
    ***
    PERFORM ANALYSIS
    LOAD LIST 101 TO 124
    PRINT MAXFORCE ENVELOPE ALL
    LOAD LIST 201 TO 224
    PRINT SUPPORT REACTION LIST 1 TO 4 121 TO 124 241 TO 244
    STEEL TAKE OFF LIST 173 TO 330
    STEEL TAKE OFF LIST 661 TO 832
    STEEL TAKE OFF LIST 331 TO 502
    FINISH