]>
git.rmz.io Git - dotfiles.git/blob - bin/work/texpng
2 options
="-z -r 600x600"
3 cd /home
/ramsi
/Development
/PHP
/Rohr
/images
4 tex2im
$options -o A_Rohr.png
"\mathsf{A_{Rohr}=\frac{(d_{a,min}^2-d_{i,max}^2)\cdot \pi}{4}}"
5 tex2im
$options -o kappa_t.png
"\mathsf{\kappa_t=\frac{t_{Rohr}}{t_{D\\\"UR}}}"
6 #convert -density 200 -transparent "#FFFFFF" A_Rohr.png A_Rohr.png
7 tex2im
$options -o A_DUER.png
"\mathsf{A_{D\\\"UR}=\frac{(d_{a,D\\\"UR}^2-d_{i,D\\\"UR}^2)\cdot \pi}{4}}"
8 tex2im
$options -o phi_Deltaacal.png
"\mathsf{\varphi_{\Delta,cal}=\arctan\left(\frac{\Delta a_{cal}}{d_{a,min}}\right)}"
9 tex2im
$options -o alpha_DT.png
"\mathsf{\alpha_{D,T}=\frac{f_{tm}}{f_k}\cdot\frac{1}{\kappa_R}\leq1}"
10 tex2im
$options -o f_d.png
"\mathsf{f_d=\frac{f_k}{Y_{M,ax}}}"
11 tex2im
$options -o Deltas_R.png
"\mathsf{\Delta s_R=\sigma_{max}\cdot\kappa_{\alpha b}\cdot\frac{L_R}{E_{R,ax}}}"
12 tex2im
$options -o Deltas_DUER.png
"\mathsf{\Delta s_{D\\\"UR}=s_{d,i}\cdot\sqrt{\frac{\sigma_{cal}}{E_{cal,i}}}\cdot\frac{d_{a,min}}{d_{a,D\\\"UR}}}"
13 tex2im
$options -o alpha_b.png
"\mathsf{\alpha_b=0,008\left(\frac{L_R}{D_A}\right)^2- \\\\
14 0,099\left(\frac{L_R}{D_A}\right)+0,891}"
15 tex2im
$options -o F_j.png
"\mathsf{F_j=\frac{A_{Rohr}\cdot\sigma_{max}}{\gamma_F\cdot\left(\frac{\sigma_{max}}{\sigma_0}\right)}}"
16 tex2im
$options -o z_kd_amin.png
"\mathsf{\frac{z_k}{d_{a,min}}=\frac{\Delta s_{D\\\"UR} + \Delta s_R}{\tan(\varphi_{ges}) \cdot d_{a,D\\\"UR}} \leq 1}"
17 tex2im
$options -o E_cal_VollH.png
"\mathsf{E_{cal}\left(\sigma_{cal}\right) = \left[218,2 \cdot \left( \frac{\sigma_I}{\sigma_{cal}} \right)^{1,75} \cdot \sigma_{cal} +
18 \left(5500 \cdot \left( \frac{\sigma_I}{\sigma_{cal}} \right)^2 -
19 6900 \cdot \left( \frac{\sigma_I}{\sigma_{cal}} \right) + 1500 \right) \right] \cdot \\\\
20 \left( -0,012 \cdot s_d + 1,4\right)}"
22 tex2im
$options -o E_cal_SpanP.png
"\mathsf{E_{cal}\left(\sigma_{cal}\right) = \left[83,6 \cdot \left( \frac{\sigma_I}{\sigma_{cal}} \right)^{1,5} \cdot \sigma_{cal} +
23 \left(-1284,53 \cdot \left( \frac{\sigma_I}{\sigma_{cal}} \right)
24 +6108,7 \cdot \left( \frac{\sigma_I}{\sigma_{cal}} \right)^2
25 -14090 \cdot \left( \frac{\sigma_I}{\sigma_{cal}} \right)^3+ \right. \right. \\\\
26 \left. \left. 10130 \cdot \left( \frac{\sigma_I}{\sigma_{cal}} \right)^4
27 +0,52235\right)\right]
28 \cdot (0,0305 \cdot s_d + 0,4835)}"
30 tex2im
$options -o E_cal_OSB.png
"\mathsf{E_{cal}\left(\sigma_{cal}\right) = \left[61,113 \cdot \left( \frac{\sigma_I}{\sigma_{cal}} \right)^{1,33} \cdot \sigma_{cal} +
31 \left(-983,8 \cdot \left( \frac{\sigma_I}{\sigma_{cal}} \right)
32 +3249 \cdot \left( \frac{\sigma_I}{\sigma_{cal}} \right)^2
33 -5866 \cdot \left( \frac{\sigma_I}{\sigma_{cal}} \right)^3+ \right. \right. \\\\
34 \left. \left. 4140 \cdot \left( \frac{\sigma_I}{\sigma_{cal}} \right)^4
35 +0,23236 \right) \right]
36 \cdot \left(-0,9 \cdot 10^{-3} \cdot s_d^3 + 0,0608 \cdot s_d^2 -1,2216 \cdot s_d + 8,6507\right)}"
39 #convert -density 200 -transparent "#FFFFFF" A_Rohr.png A_Rohr.png
repos / dotfiles.git / blob