.. DO NOT EDIT. .. THIS FILE WAS AUTOMATICALLY GENERATED BY SPHINX-GALLERY. .. TO MAKE CHANGES, EDIT THE SOURCE PYTHON FILE: .. "examples/PhaseField/Tension.py" .. LINE NUMBERS ARE GIVEN BELOW. .. only:: html .. note:: :class: sphx-glr-download-link-note :ref:`Go to the end ` to download the full example code. .. rst-class:: sphx-glr-example-title .. _sphx_glr_examples_PhaseField_Tension.py: Tension ======= Damage simulation for a plate subjected to tension. .. GENERATED FROM PYTHON SOURCE LINES 11-439 .. image-sg:: /examples/PhaseField/images/sphx_glr_Tension_001.gif :alt: Tension :srcset: /examples/PhaseField/images/sphx_glr_Tension_001.gif :class: sphx-glr-single-img .. rst-class:: sphx-glr-horizontal * .. image-sg:: /examples/PhaseField/images/sphx_glr_Tension_002.png :alt: $\phi$ :srcset: /examples/PhaseField/images/sphx_glr_Tension_002.png :class: sphx-glr-multi-img * .. image-sg:: /examples/PhaseField/images/sphx_glr_Tension_003.png :alt: TRI3: Ne = 1518, Nn = 819 :srcset: /examples/PhaseField/images/sphx_glr_Tension_003.png :class: sphx-glr-multi-img * .. image-sg:: /examples/PhaseField/images/sphx_glr_Tension_004.png :alt: Tension :srcset: /examples/PhaseField/images/sphx_glr_Tension_004.png :class: sphx-glr-multi-img * .. image-sg:: /examples/PhaseField/images/sphx_glr_Tension_005.png :alt: Boundary conditions :srcset: /examples/PhaseField/images/sphx_glr_Tension_005.png :class: sphx-glr-multi-img * .. image-sg:: /examples/PhaseField/images/sphx_glr_Tension_006.png :alt: Tension :srcset: /examples/PhaseField/images/sphx_glr_Tension_006.png :class: sphx-glr-multi-img * .. image-sg:: /examples/PhaseField/images/sphx_glr_Tension_007.png :alt: Summary :srcset: /examples/PhaseField/images/sphx_glr_Tension_007.png :class: sphx-glr-multi-img .. rst-class:: sphx-glr-script-out .. code-block:: none /home/docs/checkouts/readthedocs.org/user_builds/easyfea/envs/v1.5.4/lib/python3.11/site-packages/results/PhaseField/Tension_Benchmark/Test/Elas_Isot_Bourdin_AT1_DP_optimMesh 1 : 0.000 µm, [0.00e+00; 0.00e+00], 1:0.018 s, tol=0.00e+00 2 : 0.100 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 3 : 0.200 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 4 : 0.300 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 5 : 0.400 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 6 : 0.500 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 7 : 0.600 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 8 : 0.700 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 9 : 0.800 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 10 : 0.900 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 11 : 1.000 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 12 : 1.100 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 13 : 1.200 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 14 : 1.300 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 15 : 1.400 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 16 : 1.500 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 17 : 1.600 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 18 : 1.700 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 19 : 1.800 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 20 : 1.900 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 21 : 2.000 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 22 : 2.100 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 23 : 2.200 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 24 : 2.300 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 25 : 2.400 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 26 : 2.500 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 27 : 2.600 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 28 : 2.700 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 29 : 2.800 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 30 : 2.900 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 31 : 3.000 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 32 : 3.100 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 33 : 3.200 µm, [0.00e+00; 0.00e+00], 1:0.014 s, tol=0.00e+00 34 : 3.300 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 35 : 3.400 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 36 : 3.500 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 37 : 3.600 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 38 : 3.700 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 39 : 3.800 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 40 : 3.900 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 41 : 4.000 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 42 : 4.100 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 43 : 4.110 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 44 : 4.120 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 45 : 4.130 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 46 : 4.140 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 47 : 4.150 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 48 : 4.160 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 49 : 4.170 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 50 : 4.180 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 51 : 4.190 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 52 : 4.200 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 53 : 4.210 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 54 : 4.220 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 55 : 4.230 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 56 : 4.240 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 57 : 4.250 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 58 : 4.260 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 59 : 4.270 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 60 : 4.280 µm, [0.00e+00; 0.00e+00], 1:0.015 s, tol=0.00e+00 61 : 4.290 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 62 : 4.300 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 63 : 4.310 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 64 : 4.320 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 65 : 4.330 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 66 : 4.340 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 67 : 4.350 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 68 : 4.360 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 69 : 4.370 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 70 : 4.380 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 71 : 4.390 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 72 : 4.400 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 73 : 4.410 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 74 : 4.420 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 75 : 4.430 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 76 : 4.440 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 77 : 4.450 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 78 : 4.460 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 79 : 4.470 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 80 : 4.480 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 81 : 4.490 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 82 : 4.500 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 83 : 4.510 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 84 : 4.520 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 85 : 4.530 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 86 : 4.540 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 87 : 4.550 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 88 : 4.560 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 89 : 4.570 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 90 : 4.580 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 91 : 4.590 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 92 : 4.600 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 93 : 4.610 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 94 : 4.620 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 95 : 4.630 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 96 : 4.640 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 97 : 4.650 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 98 : 4.660 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 99 : 4.670 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 100 : 4.680 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 101 : 4.690 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 102 : 4.700 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 103 : 4.710 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 104 : 4.720 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 105 : 4.730 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 106 : 4.740 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 107 : 4.750 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 108 : 4.760 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 109 : 4.770 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 110 : 4.780 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 111 : 4.790 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 112 : 4.800 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 113 : 4.810 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 114 : 4.820 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 115 : 4.830 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 116 : 4.840 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 117 : 4.850 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 118 : 4.860 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 119 : 4.870 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 120 : 4.880 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 121 : 4.890 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 122 : 4.900 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 123 : 4.910 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 124 : 4.920 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 125 : 4.930 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 126 : 4.940 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 127 : 4.950 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 128 : 4.960 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 129 : 4.970 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 130 : 4.980 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 131 : 4.990 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 132 : 5.000 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 133 : 5.010 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 134 : 5.020 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 135 : 5.030 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 136 : 5.040 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 137 : 5.050 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 138 : 5.060 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 139 : 5.070 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 140 : 5.080 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 141 : 5.090 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 142 : 5.100 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 143 : 5.110 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 144 : 5.120 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 145 : 5.130 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 146 : 5.140 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 147 : 5.150 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 148 : 5.160 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 149 : 5.170 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 150 : 5.180 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 151 : 5.190 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 152 : 5.200 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 153 : 5.210 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 154 : 5.220 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 155 : 5.230 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 156 : 5.240 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 157 : 5.250 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 158 : 5.260 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 159 : 5.270 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 160 : 5.280 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 161 : 5.290 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 162 : 5.300 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 163 : 5.310 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 164 : 5.320 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 165 : 5.330 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 166 : 5.340 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 167 : 5.350 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 168 : 5.360 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 169 : 5.370 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 170 : 5.380 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 171 : 5.390 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 172 : 5.400 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 173 : 5.410 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 174 : 5.420 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 175 : 5.430 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 176 : 5.440 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 177 : 5.450 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 178 : 5.460 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 179 : 5.470 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 180 : 5.480 µm, [0.00e+00; 0.00e+00], 1:0.013 s, tol=0.00e+00 181 : 5.490 µm, [3.22e-11; 2.30e-04], 1:0.013 s, tol=1.00e+00 182 : 5.500 µm, [1.10e-10; 8.12e-04], 1:0.013 s, tol=9.20e-01 183 : 5.510 µm, [1.95e-10; 1.49e-03], 1:0.013 s, tol=7.05e-01 184 : 5.520 µm, [2.78e-10; 2.20e-03], 1:0.013 s, tol=5.41e-01 185 : 5.530 µm, [3.56e-10; 2.92e-03], 1:0.013 s, tol=4.32e-01 186 : 5.540 µm, [4.29e-10; 3.63e-03], 1:0.013 s, tol=3.57e-01 187 : 5.550 µm, [4.97e-10; 4.35e-03], 1:0.013 s, tol=3.04e-01 188 : 5.560 µm, [5.60e-10; 5.07e-03], 1:0.013 s, tol=2.65e-01 189 : 5.570 µm, [6.18e-10; 5.79e-03], 1:0.013 s, tol=2.34e-01 190 : 5.580 µm, [6.71e-10; 6.50e-03], 1:0.013 s, tol=2.10e-01 191 : 5.590 µm, [7.20e-10; 7.22e-03], 1:0.013 s, tol=1.90e-01 192 : 5.600 µm, [7.65e-10; 7.93e-03], 1:0.013 s, tol=1.74e-01 193 : 5.610 µm, [8.06e-10; 8.65e-03], 1:0.013 s, tol=1.60e-01 194 : 5.620 µm, [8.43e-10; 9.37e-03], 1:0.013 s, tol=1.49e-01 195 : 5.630 µm, [8.77e-10; 1.01e-02], 1:0.013 s, tol=1.39e-01 196 : 5.640 µm, [9.08e-10; 1.08e-02], 1:0.013 s, tol=1.30e-01 197 : 5.650 µm, [9.35e-10; 1.15e-02], 1:0.013 s, tol=1.22e-01 198 : 5.660 µm, [9.60e-10; 1.22e-02], 1:0.013 s, tol=1.15e-01 199 : 5.670 µm, [9.82e-10; 1.29e-02], 1:0.013 s, tol=1.09e-01 200 : 5.680 µm, [1.00e-09; 1.36e-02], 1:0.013 s, tol=1.04e-01 201 : 5.690 µm, [1.02e-09; 1.44e-02], 1:0.013 s, tol=9.86e-02 202 : 5.700 µm, [1.03e-09; 1.51e-02], 1:0.013 s, tol=9.41e-02 203 : 5.710 µm, [1.04e-09; 1.58e-02], 1:0.013 s, tol=9.00e-02 204 : 5.720 µm, [1.05e-09; 1.65e-02], 1:0.013 s, tol=8.62e-02 205 : 5.730 µm, [1.06e-09; 1.72e-02], 1:0.013 s, tol=8.28e-02 206 : 5.740 µm, [1.07e-09; 1.79e-02], 1:0.013 s, tol=7.96e-02 207 : 5.750 µm, [1.07e-09; 1.86e-02], 1:0.013 s, tol=7.67e-02 208 : 5.760 µm, [1.08e-09; 1.93e-02], 1:0.013 s, tol=7.40e-02 209 : 5.770 µm, [1.08e-09; 2.00e-02], 1:0.013 s, tol=7.14e-02 210 : 5.780 µm, [1.08e-09; 2.08e-02], 1:0.013 s, tol=6.91e-02 211 : 5.790 µm, [1.08e-09; 2.15e-02], 1:0.013 s, tol=6.68e-02 212 : 5.800 µm, [1.07e-09; 2.22e-02], 1:0.013 s, tol=6.48e-02 213 : 5.810 µm, [1.07e-09; 2.29e-02], 1:0.013 s, tol=6.28e-02 214 : 5.820 µm, [1.06e-09; 2.36e-02], 1:0.013 s, tol=6.10e-02 215 : 5.830 µm, [1.06e-09; 2.43e-02], 1:0.013 s, tol=5.93e-02 216 : 5.840 µm, [1.05e-09; 2.50e-02], 1:0.013 s, tol=5.77e-02 217 : 5.850 µm, [1.04e-09; 2.57e-02], 1:0.013 s, tol=5.61e-02 218 : 5.860 µm, [1.04e-09; 2.64e-02], 1:0.013 s, tol=5.47e-02 219 : 5.870 µm, [1.03e-09; 2.71e-02], 1:0.013 s, tol=5.33e-02 220 : 5.880 µm, [1.02e-09; 2.78e-02], 1:0.013 s, tol=5.20e-02 221 : 5.890 µm, [1.01e-09; 2.85e-02], 1:0.013 s, tol=5.07e-02 222 : 5.900 µm, [9.96e-10; 2.92e-02], 1:0.013 s, tol=4.95e-02 223 : 5.910 µm, [9.84e-10; 2.99e-02], 1:0.013 s, tol=4.84e-02 224 : 5.920 µm, [9.72e-10; 3.06e-02], 1:0.013 s, tol=4.73e-02 225 : 5.930 µm, [1.00e-09; 3.14e-02], 1:0.013 s, tol=5.78e-02 226 : 5.940 µm, [1.05e-09; 3.23e-02], 1:0.013 s, tol=6.26e-02 227 : 5.950 µm, [1.10e-09; 3.32e-02], 1:0.013 s, tol=6.34e-02 228 : 5.960 µm, [1.14e-09; 3.41e-02], 1:0.013 s, tol=6.27e-02 229 : 5.970 µm, [1.18e-09; 3.49e-02], 1:0.013 s, tol=6.15e-02 230 : 5.980 µm, [1.22e-09; 3.58e-02], 1:0.013 s, tol=6.01e-02 231 : 5.990 µm, [1.25e-09; 3.67e-02], 1:0.013 s, tol=5.88e-02 232 : 6.000 µm, [1.28e-09; 3.76e-02], 1:0.013 s, tol=5.75e-02 233 : 6.010 µm, [1.30e-09; 3.85e-02], 1:0.013 s, tol=5.62e-02 234 : 6.020 µm, [1.33e-09; 3.94e-02], 1:0.013 s, tol=5.49e-02 235 : 6.030 µm, [1.34e-09; 4.03e-02], 1:0.013 s, tol=5.37e-02 236 : 6.040 µm, [1.36e-09; 4.11e-02], 1:0.013 s, tol=5.25e-02 237 : 6.050 µm, [1.37e-09; 4.20e-02], 1:0.013 s, tol=5.14e-02 238 : 6.060 µm, [1.38e-09; 4.29e-02], 1:0.013 s, tol=5.03e-02 239 : 6.070 µm, [1.39e-09; 4.38e-02], 1:0.013 s, tol=4.92e-02 240 : 6.080 µm, [1.40e-09; 4.46e-02], 1:0.013 s, tol=4.82e-02 241 : 6.090 µm, [1.40e-09; 4.55e-02], 1:0.013 s, tol=4.72e-02 242 : 6.100 µm, [1.40e-09; 4.64e-02], 1:0.013 s, tol=4.63e-02 243 : 6.110 µm, [1.41e-09; 4.73e-02], 1:0.013 s, tol=4.54e-02 244 : 6.120 µm, [1.40e-09; 4.81e-02], 1:0.013 s, tol=4.45e-02 245 : 6.130 µm, [1.40e-09; 4.90e-02], 1:0.013 s, tol=4.36e-02 246 : 6.140 µm, [1.40e-09; 4.98e-02], 1:0.013 s, tol=4.28e-02 247 : 6.150 µm, [1.39e-09; 5.07e-02], 1:0.013 s, tol=4.20e-02 248 : 6.160 µm, [1.38e-09; 5.16e-02], 1:0.013 s, tol=4.12e-02 249 : 6.170 µm, [1.37e-09; 5.24e-02], 1:0.013 s, tol=4.05e-02 250 : 6.180 µm, [1.36e-09; 5.33e-02], 1:0.013 s, tol=3.97e-02 251 : 6.190 µm, [1.35e-09; 5.41e-02], 1:0.013 s, tol=3.90e-02 252 : 6.200 µm, [1.34e-09; 5.50e-02], 1:0.013 s, tol=3.84e-02 253 : 6.210 µm, [1.33e-09; 5.58e-02], 1:0.013 s, tol=3.77e-02 254 : 6.220 µm, [1.31e-09; 5.67e-02], 1:0.013 s, tol=3.71e-02 255 : 6.230 µm, [1.30e-09; 5.75e-02], 1:0.013 s, tol=3.64e-02 256 : 6.240 µm, [1.28e-09; 5.84e-02], 1:0.013 s, tol=3.58e-02 257 : 6.250 µm, [1.27e-09; 5.94e-02], 1:0.013 s, tol=3.53e-02 258 : 6.260 µm, [1.25e-09; 6.04e-02], 1:0.013 s, tol=3.47e-02 259 : 6.270 µm, [1.23e-09; 6.15e-02], 1:0.013 s, tol=3.42e-02 260 : 6.280 µm, [1.22e-09; 6.25e-02], 1:0.013 s, tol=3.36e-02 261 : 6.290 µm, [1.20e-09; 6.36e-02], 1:0.013 s, tol=3.31e-02 262 : 6.300 µm, [1.18e-09; 6.46e-02], 1:0.013 s, tol=3.26e-02 263 : 6.310 µm, [1.16e-09; 6.56e-02], 1:0.013 s, tol=3.21e-02 264 : 6.320 µm, [1.14e-09; 6.66e-02], 1:0.013 s, tol=3.17e-02 265 : 6.330 µm, [1.12e-09; 6.77e-02], 1:0.013 s, tol=3.12e-02 266 : 6.340 µm, [1.10e-09; 6.87e-02], 1:0.013 s, tol=3.08e-02 267 : 6.350 µm, [1.08e-09; 6.97e-02], 1:0.013 s, tol=3.03e-02 268 : 6.360 µm, [1.06e-09; 7.07e-02], 1:0.013 s, tol=2.99e-02 269 : 6.370 µm, [1.05e-09; 7.17e-02], 1:0.013 s, tol=2.95e-02 270 : 6.380 µm, [1.03e-09; 7.28e-02], 1:0.013 s, tol=2.91e-02 271 : 6.390 µm, [1.01e-09; 7.38e-02], 1:0.013 s, tol=2.87e-02 272 : 6.400 µm, [9.86e-10; 7.48e-02], 1:0.013 s, tol=2.83e-02 273 : 6.410 µm, [9.66e-10; 7.58e-02], 1:0.014 s, tol=2.80e-02 274 : 6.420 µm, [9.46e-10; 7.68e-02], 1:0.014 s, tol=2.76e-02 275 : 6.430 µm, [9.26e-10; 7.78e-02], 1:0.013 s, tol=2.73e-02 276 : 6.440 µm, [9.07e-10; 7.88e-02], 1:0.013 s, tol=2.69e-02 277 : 6.450 µm, [8.87e-10; 7.98e-02], 1:0.013 s, tol=2.66e-02 278 : 6.460 µm, [8.68e-10; 8.08e-02], 1:0.013 s, tol=2.63e-02 279 : 6.470 µm, [8.48e-10; 8.18e-02], 1:0.013 s, tol=2.59e-02 280 : 6.480 µm, [8.29e-10; 8.28e-02], 1:0.013 s, tol=2.56e-02 281 : 6.490 µm, [8.10e-10; 8.38e-02], 1:0.013 s, tol=2.53e-02 282 : 6.500 µm, [7.91e-10; 8.48e-02], 1:0.013 s, tol=2.50e-02 283 : 6.510 µm, [7.73e-10; 8.58e-02], 1:0.013 s, tol=2.47e-02 284 : 6.520 µm, [7.54e-10; 8.67e-02], 1:0.013 s, tol=2.44e-02 285 : 6.530 µm, [7.36e-10; 8.77e-02], 1:0.013 s, tol=2.42e-02 286 : 6.540 µm, [7.18e-10; 8.87e-02], 1:0.013 s, tol=2.39e-02 287 : 6.550 µm, [7.00e-10; 8.97e-02], 1:0.013 s, tol=2.36e-02 288 : 6.560 µm, [6.82e-10; 9.07e-02], 1:0.013 s, tol=2.34e-02 289 : 6.570 µm, [6.65e-10; 9.16e-02], 1:0.013 s, tol=2.31e-02 290 : 6.580 µm, [6.48e-10; 9.26e-02], 1:0.013 s, tol=2.29e-02 291 : 6.590 µm, [6.31e-10; 9.36e-02], 1:0.013 s, tol=2.26e-02 292 : 6.600 µm, [6.14e-10; 9.46e-02], 1:0.013 s, tol=2.24e-02 293 : 6.610 µm, [5.98e-10; 9.55e-02], 1:0.013 s, tol=2.22e-02 294 : 6.620 µm, [5.82e-10; 9.65e-02], 1:0.013 s, tol=2.19e-02 295 : 6.630 µm, [5.66e-10; 9.74e-02], 1:0.013 s, tol=2.17e-02 296 : 6.640 µm, [5.50e-10; 9.84e-02], 1:0.013 s, tol=2.15e-02 297 : 6.650 µm, [5.36e-10; 9.95e-02], 1:0.013 s, tol=2.40e-02 298 : 6.660 µm, [5.22e-10; 1.01e-01], 1:0.013 s, tol=2.80e-02 299 : 6.670 µm, [5.09e-10; 1.02e-01], 1:0.013 s, tol=3.00e-02 300 : 6.680 µm, [4.96e-10; 1.04e-01], 1:0.013 s, tol=3.07e-02 301 : 6.690 µm, [4.83e-10; 1.05e-01], 1:0.013 s, tol=3.09e-02 302 : 6.700 µm, [4.72e-10; 1.07e-01], 1:0.013 s, tol=3.30e-02 303 : 6.710 µm, [4.64e-10; 1.09e-01], 1:0.013 s, tol=4.01e-02 304 : 6.720 µm, [4.57e-10; 1.12e-01], 1:0.013 s, tol=4.52e-02 305 : 6.730 µm, [4.52e-10; 1.15e-01], 1:0.013 s, tol=4.81e-02 306 : 6.740 µm, [4.47e-10; 1.18e-01], 1:0.013 s, tol=4.96e-02 307 : 6.750 µm, [4.42e-10; 1.21e-01], 1:0.013 s, tol=5.02e-02 308 : 6.760 µm, [4.37e-10; 1.24e-01], 1:0.013 s, tol=5.01e-02 309 : 6.770 µm, [4.32e-10; 1.27e-01], 1:0.013 s, tol=4.97e-02 310 : 6.780 µm, [4.26e-10; 1.30e-01], 1:0.013 s, tol=4.91e-02 311 : 6.790 µm, [4.20e-10; 1.33e-01], 1:0.013 s, tol=4.84e-02 312 : 6.800 µm, [4.14e-10; 1.37e-01], 1:0.013 s, tol=4.76e-02 313 : 6.810 µm, [4.08e-10; 1.40e-01], 1:0.013 s, tol=4.68e-02 314 : 6.820 µm, [4.01e-10; 1.43e-01], 1:0.013 s, tol=4.60e-02 315 : 6.830 µm, [3.94e-10; 1.46e-01], 1:0.013 s, tol=4.52e-02 316 : 6.840 µm, [3.87e-10; 1.49e-01], 1:0.013 s, tol=4.44e-02 317 : 6.850 µm, [3.80e-10; 1.52e-01], 1:0.013 s, tol=4.36e-02 318 : 6.860 µm, [3.73e-10; 1.56e-01], 1:0.013 s, tol=4.99e-02 319 : 6.870 µm, [3.67e-10; 1.60e-01], 1:0.013 s, tol=5.47e-02 320 : 6.880 µm, [3.60e-10; 1.65e-01], 1:0.013 s, tol=5.79e-02 321 : 6.890 µm, [3.55e-10; 1.70e-01], 1:0.013 s, tol=6.00e-02 322 : 6.900 µm, [3.49e-10; 1.75e-01], 1:0.013 s, tol=6.12e-02 323 : 6.910 µm, [3.43e-10; 1.80e-01], 1:0.013 s, tol=6.17e-02 324 : 6.920 µm, [3.40e-10; 1.86e-01], 1:0.013 s, tol=6.60e-02 325 : 6.930 µm, [3.40e-10; 1.92e-01], 1:0.013 s, tol=7.21e-02 326 : 6.940 µm, [3.42e-10; 2.00e-01], 1:0.013 s, tol=7.72e-02 327 : 6.950 µm, [3.45e-10; 2.08e-01], 1:0.013 s, tol=8.11e-02 328 : 6.960 µm, [3.49e-10; 2.16e-01], 1:0.013 s, tol=8.41e-02 329 : 6.970 µm, [3.53e-10; 2.25e-01], 1:0.013 s, tol=8.62e-02 330 : 6.980 µm, [3.57e-10; 2.35e-01], 1:0.013 s, tol=8.76e-02 331 : 6.990 µm, [3.61e-10; 2.45e-01], 1:0.014 s, tol=8.85e-02 332 : 7.000 µm, [3.65e-10; 2.56e-01], 1:0.013 s, tol=8.89e-02 333 : 7.010 µm, [3.69e-10; 2.66e-01], 1:0.013 s, tol=8.89e-02 334 : 7.020 µm, [3.73e-10; 2.77e-01], 1:0.013 s, tol=8.85e-02 335 : 7.030 µm, [3.76e-10; 2.89e-01], 1:0.013 s, tol=8.80e-02 336 : 7.040 µm, [3.78e-10; 3.00e-01], 1:0.013 s, tol=8.73e-02 337 : 7.050 µm, [3.81e-10; 3.13e-01], 1:0.013 s, tol=9.31e-02 338 : 7.060 µm, [3.86e-10; 3.28e-01], 1:0.013 s, tol=1.04e-01 339 : 7.070 µm, [3.92e-10; 3.46e-01], 1:0.014 s, tol=1.17e-01 340 : 7.080 µm, [4.01e-10; 3.66e-01], 1:0.013 s, tol=1.30e-01 341 : 7.090 µm, [4.11e-10; 3.90e-01], 1:0.013 s, tol=1.42e-01 342 : 7.100 µm, [4.24e-10; 4.16e-01], 1:0.013 s, tol=1.54e-01 343 : 7.110 µm, [4.39e-10; 4.46e-01], 1:0.013 s, tol=1.66e-01 344 : 7.120 µm, [4.56e-10; 4.80e-01], 1:0.013 s, tol=1.76e-01 345 : 7.130 µm, [4.75e-10; 5.17e-01], 1:0.013 s, tol=1.86e-01 346 : 7.140 µm, [4.95e-10; 5.58e-01], 1:0.013 s, tol=1.95e-01 347 : 7.150 µm, [5.16e-10; 6.02e-01], 1:0.013 s, tol=2.09e-01 348 : 7.160 µm, [5.37e-10; 6.51e-01], 1:0.013 s, tol=2.26e-01 349 : 7.170 µm, [5.55e-10; 7.03e-01], 1:0.013 s, tol=2.44e-01 350 : 7.180 µm, [5.67e-10; 7.57e-01], 1:0.013 s, tol=2.73e-01 351 : 7.190 µm, [5.65e-10; 8.13e-01], 1:0.013 s, tol=3.30e-01 352 : 7.200 µm, [5.61e-10; 8.73e-01], 1:0.014 s, tol=4.26e-01 353 : 7.210 µm, [5.62e-10; 9.33e-01], 1:0.013 s, tol=5.09e-01 354 : 7.220 µm, [5.68e-10; 9.75e-01], 1:0.013 s, tol=4.89e-01 355 : 7.230 µm, [5.73e-10; 9.90e-01], 1:0.013 s, tol=3.64e-01 356 : 7.240 µm, [5.81e-10; 9.90e-01], 1:0.013 s, tol=2.73e-01 357 : 7.250 µm, [5.90e-10; 9.95e-01], 1:0.013 s, tol=2.23e-01 358 : 7.260 µm, [5.97e-10; 9.99e-01], 1:0.013 s, tol=1.88e-01 359 : 7.270 µm, [6.03e-10; 1.00e+00], 1:0.013 s, tol=1.78e-01 360 : 7.280 µm, [6.10e-10; 1.00e+00], 1:0.013 s, tol=1.62e-01 361 : 7.290 µm, [6.14e-10; 1.00e+00], 1:0.013 s, tol=1.52e-01 362 : 7.300 µm, [6.17e-10; 1.00e+00], 1:0.013 s, tol=1.42e-01 363 : 7.310 µm, [6.23e-10; 1.00e+00], 1:0.013 s, tol=1.18e-01 364 : 7.320 µm, [6.25e-10; 1.00e+00], 1:0.013 s, tol=1.11e-01 365 : 7.330 µm, [6.28e-10; 1.00e+00], 1:0.013 s, tol=1.11e-01 366 : 7.340 µm, [6.34e-10; 1.00e+00], 1:0.013 s, tol=9.32e-02 367 : 7.350 µm, [6.36e-10; 1.00e+00], 1:0.013 s, tol=8.10e-02 368 : 7.360 µm, [6.37e-10; 1.00e+00], 1:0.013 s, tol=7.99e-02 369 : 7.370 µm, [6.42e-10; 1.00e+00], 1:0.013 s, tol=8.51e-02 370 : 7.380 µm, [6.42e-10; 1.01e+00], 1:0.013 s, tol=9.51e-02 371 : 7.390 µm, [6.43e-10; 1.01e+00], 1:0.013 s, tol=8.91e-02 372 : 7.400 µm, [6.46e-10; 1.01e+00], 1:0.013 s, tol=7.11e-02 373 : 7.410 µm, [6.42e-10; 1.01e+00], 1:0.013 s, tol=6.24e-02 374 : 7.420 µm, [6.37e-10; 1.01e+00], 1:0.013 s, tol=6.64e-02 375 : 7.430 µm, [6.41e-10; 1.01e+00], 1:0.013 s, tol=7.39e-02 376 : 7.440 µm, [6.36e-10; 1.01e+00], 1:0.013 s, tol=7.67e-02 377 : 7.450 µm, [6.32e-10; 1.01e+00], 1:0.013 s, tol=7.30e-02 378 : 7.460 µm, [6.32e-10; 1.01e+00], 1:0.013 s, tol=6.50e-02 379 : 7.470 µm, [6.13e-10; 1.01e+00], 1:0.013 s, tol=6.81e-02 380 : 7.480 µm, [6.04e-10; 1.01e+00], 1:0.013 s, tol=6.60e-02 381 : 7.490 µm, [6.01e-10; 1.00e+00], 1:0.013 s, tol=5.40e-02 382 : 7.500 µm, [5.77e-10; 1.00e+00], 1:0.013 s, tol=5.04e-02 383 : 7.510 µm, [5.76e-10; 1.00e+00], 1:0.013 s, tol=5.08e-02 384 : 7.520 µm, [5.59e-10; 1.00e+00], 1:0.013 s, tol=5.55e-02 385 : 7.530 µm, [5.38e-10; 1.01e+00], 1:0.013 s, tol=5.31e-02 386 : 7.540 µm, [5.25e-10; 1.01e+00], 1:0.014 s, tol=4.30e-02 387 : 7.550 µm, [4.73e-10; 1.00e+00], 1:0.013 s, tol=3.96e-02 388 : 7.560 µm, [4.40e-10; 1.00e+00], 1:0.013 s, tol=3.94e-02 389 : 7.570 µm, [4.04e-10; 1.00e+00], 1:0.013 s, tol=4.37e-02 390 : 7.580 µm, [3.44e-10; 1.01e+00], 1:0.013 s, tol=4.78e-02 391 : 7.590 µm, [3.14e-10; 1.01e+00], 1:0.013 s, tol=4.37e-02 392 : 7.600 µm, [2.39e-10; 1.01e+00], 1:0.013 s, tol=4.01e-02 393 : 7.610 µm, [1.57e-10; 1.01e+00], 1:0.013 s, tol=4.05e-02 394 : 7.620 µm, [1.23e-10; 1.01e+00], 1:0.014 s, tol=4.04e-02 395 : 7.630 µm, [2.97e-11; 1.01e+00], 1:0.013 s, tol=4.07e-02 396 : 7.640 µm, [-1.22e-12; 1.01e+00], 1:0.013 s, tol=3.94e-02 397 : 7.650 µm, [-4.92e-11; 1.01e+00], 1:0.013 s, tol=3.89e-02 398 : 7.660 µm, [-1.63e-10; 1.01e+00], 1:0.013 s, tol=3.78e-02 399 : 7.670 µm, [-2.93e-10; 1.01e+00], 1:0.013 s, tol=3.26e-02 400 : 7.680 µm, [-3.82e-10; 1.00e+00], 1:0.013 s, tol=2.67e-02 401 : 7.690 µm, [-5.54e-10; 1.00e+00], 1:0.013 s, tol=2.73e-02 402 : 7.700 µm, [-7.68e-10; 1.00e+00], 1:0.013 s, tol=3.29e-02 403 : 7.710 µm, [-9.49e-10; 1.00e+00], 1:0.013 s, tol=3.54e-02 404 : 7.720 µm, [-1.13e-09; 1.00e+00], 1:0.013 s, tol=3.55e-02 405 : 7.730 µm, [-1.37e-09; 1.00e+00], 1:0.013 s, tol=3.75e-02 406 : 7.740 µm, [-1.59e-09; 1.00e+00], 1:0.013 s, tol=3.31e-02 407 : 7.750 µm, [-1.81e-09; 1.00e+00], 1:0.013 s, tol=3.03e-02 408 : 7.760 µm, [-1.97e-09; 1.01e+00], 1:0.013 s, tol=3.18e-02 409 : 7.770 µm, [-2.27e-09; 1.01e+00], 1:0.013 s, tol=3.65e-02 410 : 7.780 µm, [-2.61e-09; 1.01e+00], 1:0.014 s, tol=3.77e-02 411 : 7.790 µm, [-2.88e-09; 1.01e+00], 1:0.013 s, tol=3.59e-02 412 : 7.800 µm, [-3.30e-09; 1.01e+00], 1:0.013 s, tol=3.50e-02 413 : 7.810 µm, [-3.79e-09; 1.01e+00], 1:0.013 s, tol=2.97e-02 414 : 7.820 µm, [-4.37e-09; 1.01e+00], 1:0.013 s, tol=2.78e-02 415 : 7.830 µm, [-4.88e-09; 1.01e+00], 1:0.013 s, tol=3.12e-02 416 : 7.840 µm, [-5.54e-09; 1.01e+00], 1:0.013 s, tol=3.46e-02 417 : 7.850 µm, [-6.16e-09; 1.01e+00], 1:0.013 s, tol=3.47e-02 418 : 7.860 µm, [-6.64e-09; 1.01e+00], 1:0.014 s, tol=3.61e-02 419 : 7.870 µm, [-7.02e-09; 1.01e+00], 1:0.013 s, tol=3.92e-02 420 : 7.880 µm, [-7.38e-09; 1.00e+00], 1:0.013 s, tol=4.47e-02 421 : 7.890 µm, [-7.83e-09; 1.00e+00], 1:0.013 s, tol=5.55e-02 422 : 7.900 µm, [-8.12e-09; 1.00e+00], 1:0.013 s, tol=9.23e-02 423 : 7.910 µm, [-8.56e-09; 1.00e+00], 1:0.013 s, tol=2.06e-01 424 : 7.920 µm, [-8.56e-09; 1.00e+00], 1:0.013 s, tol=5.10e-02 425 : 7.930 µm, [-8.56e-09; 1.00e+00], 1:0.013 s, tol=8.99e-03 426 : 7.940 µm, [-8.56e-09; 1.00e+00], 1:0.014 s, tol=1.90e-03 427 : 7.950 µm, [-8.56e-09; 1.00e+00], 1:0.013 s, tol=1.26e-03 428 : 7.960 µm, [-8.56e-09; 1.00e+00], 1:0.013 s, tol=1.30e-03 429 : 7.970 µm, [-8.56e-09; 1.00e+00], 1:0.013 s, tol=1.38e-03 430 : 7.980 µm, [-8.56e-09; 1.00e+00], 1:0.013 s, tol=1.44e-03 431 : 7.990 µm, [-8.56e-09; 1.00e+00], 1:0.013 s, tol=1.51e-03 432 : 8.000 µm, [-8.56e-09; 1.00e+00], 1:0.013 s, tol=1.55e-03 433 : 8.010 µm, [-8.56e-09; 1.00e+00], 1:0.014 s, tol=1.56e-03 434 : 8.020 µm, [-8.56e-09; 1.00e+00], 1:0.014 s, tol=1.56e-03 Saved: /results/PhaseField/Tension_Benchmark/Test/Elas_Isot_Bourdin_AT1_DP_optimMesh/force-displacement.pickle Saved: /results/PhaseField/Tension_Benchmark/Test/Elas_Isot_Bourdin_AT1_DP_optimMesh/simulation.pickle Saved: /results/PhaseField/Tension_Benchmark/Test/Elas_Isot_Bourdin_AT1_DP_optimMesh/summary.txt Movie_func 0/20 Movie_func 1/20 (5.00 %) 2.18 s Movie_func 2/20 (10.00 %) 1.98 s Movie_func 3/20 (15.00 %) 1.86 s Movie_func 4/20 (20.00 %) 1.81 s Movie_func 5/20 (25.00 %) 1.64 s Movie_func 6/20 (30.00 %) 1.55 s Movie_func 7/20 (35.00 %) 1.42 s Movie_func 8/20 (40.00 %) 1.35 s Movie_func 9/20 (45.00 %) 1.21 s Movie_func 10/20 (50.00 %) 1.13 s Movie_func 11/20 (55.00 %) 1.03 s Movie_func 12/20 (60.00 %) 894.84 ms Movie_func 13/20 (65.00 %) 770.35 ms Movie_func 14/20 (70.00 %) 675.11 ms Movie_func 15/20 (75.00 %) 546.17 ms Movie_func 16/20 (80.00 %) 437.89 ms Movie_func 17/20 (85.00 %) 336.77 ms Movie_func 18/20 (90.00 %) 242.44 ms Movie_func 19/20 (95.00 %) 111.70 ms Movie_func 20/20 (100.00 %) 0.00 µs Mesh : 29.261 ms Boundary Conditions : 3.146 ms Matrix : 1.583 s Split : 10.209 ms PostProcessing : 33.783 ms Solver : 3.364 s Resolution phase field : 5.631 s Display : 496.702 ms PyVista_Interface : 3.828 s | .. code-block:: Python :lineno-start: 12 from EasyFEA import ( Display, Folder, Models, plt, np, Tic, ElemType, Mesh, Simulations, PyVista, Paraview, ) from EasyFEA.Geoms import Point, Points, Domain, Line, Contour import multiprocessing # Display.Clear() useParallel = False nProcs = 4 # number of processes in parallel # ---------------------------------------------- # Configurations # ---------------------------------------------- dim = 2 # simu options doSimu = True meshTest = True openCrack = True optimMesh = True # outputs plotMesh = False plotResult = True showResult = True plotEnergy = False saveParaview = False makeMovie = True # material materialType = "Elas_Isot" # "Elas_Isot", "ElasAnisot" # phasefield maxIter = 1000 tolConv = 1e-0 # 1e-1, 1e-2, 1e-3 pfmSolver = Models.PhaseField.SolverType.History # splits = ["Bourdin","Amor","Miehe","Stress"] # Splits Isotropes # splits = ["He","AnisotStrain","AnisotStress","Zhang"] # Splits Anisotropes sans bourdin # splits = ["Bourdin","Amor","Miehe","Stress","He","AnisotStrain","AnisotStress","Zhang"] splits = ["Bourdin"] regus = ["AT1"] # "AT1", "AT2" # regus = ["AT1", "AT2"] thetas = [-70, -80, -90] # [-0, -10, -20, -30, -45, -60] theta = -0 # default value # ---------------------------------------------- # Mesh # ---------------------------------------------- L = 1e-3 # m l0 = 8.5e-6 if materialType == "ElasAnisot" else 1e-5 thickness = 1 if dim == 2 else 0.1 / 1000 def DoMesh(materialType: str = "Elas_Isot") -> Mesh: # meshSize clC = l0 * 2 if meshTest else l0 / 2 if optimMesh: # a coarser mesh can be used outside the refined zone clD = clC * 4 # refines the mesh in the area where the crack will propagate gap = L * 0.05 if materialType == "Elas_Isot": refineDomain = Domain( Point(L / 2 - gap, L / 2 - gap), Point(L, L / 2 + gap, thickness), clC ) else: refineDomain = Domain( Point(L / 2 - gap, L / 2 - gap), Point(L, L * 0.8, thickness), clC ) else: clD = clC refineDomain = None # geom pt1 = Point() pt2 = Point(L) pt3 = Point(L, L) pt4 = Point(0, L) contour = Points([pt1, pt2, pt3, pt4], clD) if dim == 2: ptC1 = Point(0, L / 2, isOpen=openCrack) ptC2 = Point(L / 2, L / 2) cracks = [Line(ptC1, ptC2, clC, isOpen=openCrack)] if dim == 3: meshSize = clD if optimMesh else clC ptC1 = Point(0, L / 2, 0, isOpen=openCrack) ptC2 = Point(L / 2, L / 2, 0) ptC3 = Point(L / 2, L / 2, thickness) ptC4 = Point(0, L / 2, thickness, isOpen=openCrack) l1 = Line(ptC1, ptC2, meshSize, openCrack) l2 = Line(ptC2, ptC3, meshSize, False) l3 = Line(ptC3, ptC4, meshSize, openCrack) l4 = Line(ptC4, ptC1, meshSize, openCrack) cracks = [Contour([l1, l2, l3, l4])] if dim == 2: mesh = contour.Mesh_2D([], ElemType.TRI3, cracks, [refineDomain]) elif dim == 3: mesh = contour.Mesh_Extrude( [], [0, 0, thickness], [3], ElemType.TETRA4, cracks, [refineDomain] ) return mesh # ---------------------------------------------- # Simu # ---------------------------------------------- def DoSimu(split: str, regu: str): # Builds the path to the folder based on the problem data folderName = "Tension_Benchmark" if dim == 3: folderName += "_3D" folder_save = Folder.PhaseField_Folder( folderName, materialType, split, regu, "DP", tolConv, pfmSolver, meshTest, optimMesh, not openCrack, theta=theta, ) Display.MyPrint(folder_save, "green") if doSimu: mesh = DoMesh(materialType) # Nodes recovery nodes_upper = mesh.Nodes_Conditions(lambda x, y, z: y == L) nodes_lower = mesh.Nodes_Conditions(lambda x, y, z: y == 0) nodes_right = mesh.Nodes_Conditions( lambda x, y, z: (x == L) & (y > 0) & (y < L) ) nodes_crack = mesh.Nodes_Conditions(lambda x, y, z: (y == L / 2) & (x <= L / 2)) if openCrack: nodes_detect = mesh.nodes.copy() else: nodes_detect = np.array(list(set(mesh.nodes) - set(nodes_crack))) # Builds edge nodes nodes_edges = [] for nodes in [nodes_lower, nodes_right, nodes_upper]: nodes_edges.extend(nodes) # ---------------------------------------------- # Material # ---------------------------------------------- if materialType == "Elas_Isot": material = Models.ElasIsot( dim, E=210e9, v=0.3, planeStress=False, thickness=thickness ) Gc = 2.7e3 # J/m2 elif materialType == "ElasAnisot": if dim == 2: c11 = 65 c22 = 260 c33 = 30 c12 = 20 C_voigt = np.array([[c11, c12, 0], [c12, c22, 0], [0, 0, c33]]) * 1e9 theta_rad = theta * np.pi / 180 axis1 = np.array([np.cos(theta_rad), np.sin(theta_rad), 0]) axis2 = np.array([-np.sin(theta_rad), np.cos(theta_rad), 0]) material = Models.ElasAnisot( dim, C=C_voigt, useVoigtNotation=True, axis1=axis1, axis2=axis2, planeStress=False, thickness=thickness, ) Gc = 1e3 # J/m2 else: raise Exception("Not implemented in 3D") pfm = Models.PhaseField(material, split, regu, Gc=Gc, l0=l0, solver=pfmSolver) # ---------------------------------------------- # Boundary conditions # ---------------------------------------------- if materialType == "Elas_Isot": # load < threshold uinc0 = 1e-7 if meshTest else 1e-8 N0 = 40 if meshTest else 400 dep0 = uinc0 * N0 # load >= threshold uinc1 = 1e-8 if meshTest else 1e-9 N1 = 400 if meshTest else 4000 dep1 = dep0 + uinc1 * N1 threshold = uinc0 * N0 config = f""" while True: # simu until break uinc0 = {uinc0:.1e}; N0 = {N0}; dep0 = uinc0*N0 = {dep0} uinc1 = {uinc1:.1e}; N0 = {N1}; dep1 = dep0 + uinc1*N1 = {dep1} threshold = uinc0*N0 = {threshold} dep += uinc0 if dep < threshold else uinc1 if not openCrack: simu.add_dirichlet(nodes_crack, [1], ["d"], problemType="damage") if dim == 2: simu.add_dirichlet(nodes_upper, [0,dep], ["x","y"]) elif dim == 3: simu.add_dirichlet(nodes_upper, [0,dep,0], ["x","y","z"]) simu.add_dirichlet(nodes_lower, [0],["y"]) """ else: # load < threshold uinc0 = 12e-8 if meshTest else 6e-8 # load >= threshold uinc1 = 4e-8 if meshTest else 2e-8 threshold = 0.6 config = f""" while True: # simu until break uinc0 = {uinc0:.1e} (simu.damage.max() < {threshold}) uinc1 = {uinc1:.1e} if not openCrack: simu.add_dirichlet(nodes_crack, [1], ["d"], problemType="damage") if dim == 2: simu.add_dirichlet(nodes_upper, [0,dep], ["x","y"]) elif dim == 3: simu.add_dirichlet(nodes_upper, [0,dep,0], ["x","y","z"]) simu.add_dirichlet(nodes_lower, [0],["y"]) """ def Loading(dep): """Boundary conditions""" simu.Bc_Init() if not openCrack: simu.add_dirichlet(nodes_crack, [1], ["d"], problemType="damage") if dim == 2: simu.add_dirichlet(nodes_upper, [0, dep], ["x", "y"]) elif dim == 3: simu.add_dirichlet(nodes_upper, [0, dep, 0], ["x", "y", "z"]) simu.add_dirichlet(nodes_lower, [0], ["y"]) # ---------------------------------------------- # Simulation # ---------------------------------------------- simu = Simulations.PhaseFieldSimu(mesh, pfm, verbosity=False) simu.Results_Set_Bc_Summary(config) dofsY_upper = simu.Bc_dofs_nodes(nodes_upper, ["y"]) # INIT nDetect = 0 displacement = [] force = [] dep = -uinc0 iter = -1 while True: # simu until break iter += 1 if materialType == "Elas_Isot": dep += uinc0 if dep < threshold else uinc1 else: if np.max(simu.damage[nodes_detect]) < threshold: dep += uinc0 else: dep += uinc1 # apply new boundary conditions Loading(dep) # solve and save iter u, _, Kglob, converg = simu.Solve(tolConv, maxIter, convOption=1) simu.Save_Iter() # print iter solution simu.Results_Set_Iteration_Summary(iter, dep * 1e6, "µm", 0, True) # If the solver has not converged, stop the simulation. if not converg: break # resulting force on upper edge f = np.sum(Kglob[dofsY_upper, :] @ u) displacement.append(dep) force.append(f) # check for damaged edges if np.any(simu.damage[nodes_edges] >= 1): nDetect += 1 if nDetect == 10: # If the edge has been touched 10 times, stop the simulation break # ---------------------------------------------- # Saving # ---------------------------------------------- force = np.asarray(force) displacement = np.asarray(displacement) print() Simulations.Save_pickle( (force, displacement), folder_save, "force-displacement" ) simu.Save(folder_save) else: # ---------------------------------------------- # Loading # --------------------------------------------- simu: Simulations.PhaseFieldSimu = Simulations.Load_Simu(folder_save) force, displacement = Simulations.Load_pickle(folder_save, "force-displacement") # ---------------------------------------------- # Results # --------------------------------------------- if plotResult: Display.Plot_Result( simu, "damage", nodeValues=True, plotMesh=False, folder=folder_save, filename="damage", ) Display.Plot_Mesh(simu) Display.Plot_Iter_Summary(simu, folder_save, None, None) Display.Plot_BoundaryConditions(simu) Display.Plot_Force_Displacement( force * 1e-6, displacement * 1e6, "ud [µm]", "f [kN/mm]", folder_save ) if plotMesh: Display.Plot_Mesh(simu.mesh) if plotEnergy: Display.Plot_Energy(simu, N=400, folder=folder_save) if saveParaview: Paraview.Save_simu(simu, folder_save, 400) if makeMovie: simu.Set_Iter(-1) nodes_upper = simu.mesh.Nodes_Conditions(lambda x, y, z: y == L) depMax = simu.Result("displacement_norm")[nodes_upper].max() deformFactor = L * 0.05 / depMax iterations = np.arange(0, simu.Niter, simu.Niter // 20) def Func(plotter, iter): simu.Set_Iter(iterations[iter]) grid = PyVista._pyVistaMesh(simu, "damage", deformFactor) tresh = grid.threshold((0, 0.8)) PyVista.Plot( tresh, "damage", deformFactor, plotMesh=True, plotter=plotter, clim=(0, 1), ) PyVista.Movie_func(Func, iterations.size, folder_save, "damage.gif") Tic.Resume() if doSimu: Tic.Plot_History(folder_save, False) if showResult: plt.show() # plt.close("all") Tic.Clear() if __name__ == "__main__": # generates configs Splits = [] Regus = [] for split in splits.copy(): for regu in regus.copy(): Splits.append(split) Regus.append(regu) if useParallel: items = [(split, regu) for split, regu in zip(Splits, Regus)] with multiprocessing.Pool(nProcs) as pool: for result in pool.starmap(DoSimu, items): pass else: [DoSimu(split, regu) for split, regu in zip(Splits, Regus)] .. rst-class:: sphx-glr-timing **Total running time of the script:** (0 minutes 10.615 seconds) .. _sphx_glr_download_examples_PhaseField_Tension.py: .. only:: html .. container:: sphx-glr-footer sphx-glr-footer-example .. container:: sphx-glr-download sphx-glr-download-jupyter :download:`Download Jupyter notebook: Tension.ipynb ` .. container:: sphx-glr-download sphx-glr-download-python :download:`Download Python source code: Tension.py ` .. container:: sphx-glr-download sphx-glr-download-zip :download:`Download zipped: Tension.zip ` .. only:: html .. rst-class:: sphx-glr-signature `Gallery generated by Sphinx-Gallery `_