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diff --git a/Machine_Design_by_U.C._Jindal/Ch20_1.ipynb b/Machine_Design_by_U.C._Jindal/Ch20_1.ipynb deleted file mode 100755 index c0fb17e3..00000000 --- a/Machine_Design_by_U.C._Jindal/Ch20_1.ipynb +++ /dev/null @@ -1,480 +0,0 @@ -{ - "cells": [ - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "# Ch:20 Flat belt drive" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## exa 20-1 - Page 565" - ] - }, - { - "cell_type": "code", - "execution_count": 1, - "metadata": { - "collapsed": false - }, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "T1 is 4167.4 N \n", - "\n", - "T2 is 1667.4 N \n", - "\n", - "t is 9.75 mm \n", - "\n", - "theta is 3.35 rad \n", - "\n", - "sigmax is 3.44 N/mm**2 \n", - "\n", - "sigmin is 0.855 N/mm**2 \n" - ] - } - ], - "source": [ - "from __future__ import division\n", - "from math import sqrt, pi, asin, exp, degrees\n", - "b=0.2#\n", - "P=50*10**3#\n", - "v=20#\n", - "m=1.95#\n", - "d=0.3#\n", - "D=0.9#\n", - "C=5.8#\n", - "u=0.4#\n", - "#Let density be rho\n", - "rho=1000#\n", - "E=40#\n", - "#Let T1-T2 = T\n", - "T=P/v#\n", - "#Let the centrifugal tension be Tc\n", - "Tc=m*v**2#\n", - "alpha=degrees(asin((D+d)/(2*C)))#\n", - "theta=180+(2*alpha)#\n", - "theta=theta*pi/180#\n", - "x = exp(u*theta)#\n", - "T2=(((1-x)*Tc)-T)/(1-x)#\n", - "#T1=T+T2#\n", - "T1=T+T2#\n", - "t=m/(b*rho)*10**3#\n", - "#Let maximum stress be sigmax\n", - "b=200#\n", - "d=300#\n", - "sigmax=(T1/(b*t)+((E*t)/d))#\n", - "sigmin=(T2/(b*t))#\n", - "print \"T1 is %0.1f N \"%(T1)#\n", - "print \"\\nT2 is %0.1f N \"%(T2)#\n", - "print \"\\nt is %0.2f mm \"%(t)\n", - "print \"\\ntheta is %0.2f rad \"%(theta)\n", - "print \"\\nsigmax is %0.2f N/mm**2 \"%(sigmax)#\n", - "print \"\\nsigmin is %0.3f N/mm**2 \"%(sigmin)#\n", - "#The answer for T1 is miscalculated in the book." - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## exa 20-2 - Page 566" - ] - }, - { - "cell_type": "code", - "execution_count": 2, - "metadata": { - "collapsed": false - }, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "b is 79.64 mm \n", - "\n", - "L is 5.10 m \n", - "\n", - "b1 is 79650.98 mm \n", - "\n", - "h1 is 0.6 mm \n", - "\n", - "h2 is 1.0 mm \n" - ] - } - ], - "source": [ - "from math import degrees,asin,pi,exp,sqrt\n", - "P=12*10**3#\n", - "d=0.2#\n", - "D=0.5#\n", - "C=2#\n", - "sigmax=2*10**6#\n", - "t=8*10**-3#\n", - "#Let density be rho\n", - "rho=950#\n", - "u=0.38#\n", - "N=1500#\n", - "#Let angle of contact = thetad\n", - "thetad=180-(2*degrees(asin((D-d)/(2*C))))#\n", - "thetad=thetad*pi/180#\n", - "thetaD=(2*pi)-thetad#\n", - "v=(2*pi*N*d)/(60*2)#\n", - "#Let T1-T2=T\n", - "T=P/v#\n", - "x=exp(u*thetad)#\n", - "b=(T*x)/((1-x)*t*((rho*v**2)-(sigmax)))#\n", - "b=b*10**3#\n", - "#Let breadth of the pulley be b1\n", - "b1=b*10**3+13# #Table 20-3\n", - "L=sqrt((4*C**2)-(C*(D-d)**2))+((D*thetaD)+(d*thetad))/2#\n", - "# Let pulley crown for d=h1, D=h2\n", - "h1=0.6# #Table 20-4\n", - "h2=1#\n", - "print \"b is %0.2f mm \"%(b)\n", - "print \"\\nL is %0.2f m \"%(L)\n", - "print \"\\nb1 is %0.2f mm \"%(b1)#\n", - "print \"\\nh1 is %0.1f mm \"%(h1)#\n", - "print \"\\nh2 is %0.1f mm \"%(h2)#\n", - " " - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## exa 20-3 - Page 567" - ] - }, - { - "cell_type": "code", - "execution_count": 3, - "metadata": { - "collapsed": false - }, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "v is 15.08 m/s \n", - "\n", - "b is 97.364 mm \n", - "\n", - "L is 6.0733 m \n" - ] - } - ], - "source": [ - "from math import exp, degrees,asin,pi,sqrt\n", - "P=11#\n", - "N=1440#\n", - "n=480#\n", - "C=2.4#\n", - "#Let power transmitte dfrom high speed belt =P1\n", - "P1=0.0118#\n", - "V=5#\n", - "Ks=1.2#\n", - "v=15#\n", - "d=v*10**3*60/(2*pi*N)#\n", - "d=0.2#\n", - "D=N/n*d#\n", - "#Let angle of contact =thetaA\n", - "thetaA=180-(2*degrees(asin((D-d)/(2*C))))#\n", - "thetaA=thetaA*pi/180#\n", - "v=(2*pi*N*d)/(60*2)#\n", - "#Let the arc of contact correction factor be Ka\n", - "Ka=1.05#\n", - "Pd=P*Ka*Ks#\n", - "#Let corrected load rating=Pc\n", - "Pc=P1*v/V#\n", - "b=Pd/(Pc*4)#\n", - "thetaB=(2*pi)-thetaA#\n", - "L=sqrt((4*C**2)-((D-d)**2))+((d*thetaA/2)+(D*thetaB)/2)#\n", - "\n", - "print \"v is %0.2f m/s \"%(v)\n", - "print \"\\nb is %0.3f mm \"%(b)\n", - "print \"\\nL is %0.4f m \"%(L)#" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## exa 20-4 - Page 568" - ] - }, - { - "cell_type": "code", - "execution_count": 4, - "metadata": { - "collapsed": false - }, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "V is 16.6 m/s \n", - "\n", - "b is 80 mm \n", - "\n", - "L is 8.404 m \n" - ] - } - ], - "source": [ - "from math import exp, degrees,asin,pi,sqrt\n", - "N=1440#\n", - "i=2.5#\n", - "C=3600#\n", - "#let load factor be LF\n", - "LF=1.3#\n", - "P=12*10**3#\n", - "n=N/i#\n", - "V=16#\n", - "d=V*10**3*60/(2*pi*N)#\n", - "d=220#\n", - "D=d*i#\n", - "V=2*pi*N*d/(2*60*1000)#\n", - "v=5#\n", - "#Let power transmitte dfrom high speed belt =P1\n", - "P1=0.0118#\n", - "#Let LR be the load rating of belt\n", - "LR=P1/v*V#\n", - "theta=180+(2*degrees(asin((D-d)/(2*C))))#\n", - "theta=theta*pi/180#\n", - "#Let Arc of contact connection factor be CF\n", - "CF=1-(0.03/2)#\n", - "Pd=P*LF*CF#\n", - "b=Pd/(LR*5)#\n", - "b=80#\n", - "L=sqrt((4*C**2)-(D+d)**2)+(theta*(D+d)/2)#\n", - "L=L*10**-3#\n", - "print \"V is %0.1f m/s \"%(V)\n", - "print \"\\nb is %0.0f mm \"%(b)\n", - "print \"\\nL is %0.3f m \"%(L)#\n", - " " - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## exa 20-5 - Page 569" - ] - }, - { - "cell_type": "code", - "execution_count": 5, - "metadata": { - "collapsed": false - }, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "V is 16.59 m/s \n", - "\n", - "Pd is 197.77 KW \n", - "\n", - "P is 149.8 KW \n" - ] - } - ], - "source": [ - "from math import exp, degrees,asin,pi,sqrt\n", - "i=3.6#\n", - "N=1440#\n", - "d=220#\n", - "Ks=1.2#\n", - "Kf=1.1#\n", - "C=5000#\n", - "u=0.8#\n", - "D=i*d#\n", - "#From table 20-7, the following data is available\n", - "t=5#\n", - "b=120#\n", - "Fa=30.64#\n", - "#let weight density be w\n", - "w=0.106*10**5#\n", - "Cp=0.71# #From table 20-6\n", - "Cv=1#\n", - "T1=Fa*b*t*Cp*Cv#\n", - "m=w*b*t/10**6#\n", - "V=2*pi*N*d/(2*60*1000)#\n", - "Tc=m*V**2/9.81#\n", - "theta=180+(2*degrees(asin((D-d)/(2*C))))#\n", - "theta=theta*pi/180#\n", - "x=u*theta#\n", - "T2=Tc+((T1-Tc)/exp(x))#\n", - "Pd=(T1-T2)*V*10**-3#\n", - "P=Pd/(Ks*Kf)#\n", - "print \"V is %0.2f m/s \"%(V)#\n", - "print \"\\nPd is %0.2f KW \"%(Pd)#\n", - "print \"\\nP is %0.1f KW \"%(P)#\n", - "#The value of T2 is calculated incorrectly, therefore there is a difference in the values of Pd and P." - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## exa 20-6 - Page 570" - ] - }, - { - "cell_type": "code", - "execution_count": 6, - "metadata": { - "collapsed": false - }, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "V is 10.05 m/s \n", - "\n", - "b is 86.537 mm \n", - "\n", - "L is 10.049 m \n" - ] - } - ], - "source": [ - "from math import exp, degrees,asin,pi,sqrt\n", - "i=2.5#\n", - "C=4500#\n", - "N=960#\n", - "P=20*10**3#\n", - "Ks=1.15#\n", - "Kf=1.10#\n", - "t=8#\n", - "#let weight density be w\n", - "w=0.110*10**5#\n", - "m=w*t/10**6#\n", - "Fa=8.75#\n", - "d=200#\n", - "D=i*d#\n", - "u=0.4#\n", - "V=2*pi*N*d/(2*60*1000)#\n", - "Pd=P*Ks*Kf#\n", - "Cp=1#\n", - "Cv=0.6#\n", - "#to find b\n", - "T1=Fa*t*Cp*Cv#\n", - "Tc=m*V**2/9.81#\n", - "theta=180-(2*degrees(asin((D-d)/(2*C))))\n", - "theta=theta*pi/180#\n", - "x=u*theta#\n", - "T2=Tc+((T1-Tc)/exp(x))#\n", - "T=Pd/V#\n", - "b=T/(T1-T2)#\n", - "#b=90#\n", - "L=sqrt((4*C**2)-(D+d)**2)+(theta*(D+d)/2)#\n", - "L=L*10**-3#\n", - "print \"V is %0.2f m/s \"%(V)\n", - "print \"\\nb is %0.3f mm \"%(b)\n", - "print \"\\nL is %0.3f m \"%(L)#\n", - " " - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "## exa 20-7 - Page 571" - ] - }, - { - "cell_type": "code", - "execution_count": 7, - "metadata": { - "collapsed": false - }, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "Tc is 186 N \n", - "\n", - "T1 is 541.46 N \n", - "\n", - "T2 is 292.78 N \n", - "\n", - "Kf is 1.25 \n", - "\n", - "Pd is 4.5 KW \n" - ] - } - ], - "source": [ - "from math import exp, degrees,asin,pi,sqrt\n", - "b=160#\n", - "t=7#\n", - "P=3*10**3#\n", - "Ks=1.2#\n", - "d=160#\n", - "N=1440#\n", - "D=480#\n", - "C=2400#\n", - "w=11200#\n", - "u=0.4#\n", - "Fa=7.2#\n", - "m=w*b*t/10**6#\n", - "V=2*pi*N*d/(2*60*1000)#\n", - "Tc=m*V**2/9.81#\n", - "Cp=0.6# #from table 20-6\n", - "Cv=0.98# #from table 20-7\n", - "Ta=Fa*b*Cp*Cv#\n", - "T=P/V#\n", - "theta=180-(2*degrees(asin((D-d)/(2*C))))\n", - "theta=theta*pi/180#\n", - "x=u*theta#\n", - "#T2=Tc+((T1-Tc)/exp(x))#\n", - "T2=(T+((exp(x)*Tc)-Tc))/(exp(x)-1)#\n", - "T1=T+T2#\n", - "Kf=Ta/T1#\n", - "Pd=P*Ks*Kf#\n", - "Pd=Pd*10**-3#\n", - "print \"Tc is %0.0f N \"%(Tc)#\n", - "print \"\\nT1 is %0.2f N \"%(T1)#\n", - "print \"\\nT2 is %0.2f N \"%(T2)#\n", - "print \"\\nKf is %0.2f \"%(Kf)#\n", - "print \"\\nPd is %0.1f KW \"%(Pd)#\n", - "#The difference in values of T1 and T2 is due to rounding-off of values.\n", - " " - ] - } - ], - "metadata": { - "kernelspec": { - "display_name": "Python 2", - "language": "python", - "name": "python2" - }, - "language_info": { - "codemirror_mode": { - "name": "ipython", - "version": 2 - }, - "file_extension": ".py", - "mimetype": "text/x-python", - "name": "python", - "nbconvert_exporter": "python", - "pygments_lexer": "ipython2", - "version": "2.7.9" - } - }, - "nbformat": 4, - "nbformat_minor": 0 -} |