Verify the solution of beam loading given a sinusodial function

조회 수: 1 (최근 30일)

Allan 2023년 2월 23일

0
링크

이 질문에 대한 바로 가기 링크

https://kr.mathworks.com/matlabcentral/answers/1917370-verify-the-solution-of-beam-loading-given-a-sinusodial-function

댓글: Dyuman Joshi 2023년 2월 23일

%% I need help implementing this specific part (part 2 and later part 3): Where we have a stiffness matrix of a beam and I need to plot the load of the given function. I have produced an graph but it looks odd, so im not sure if i implemented the code correctly (Part 2)

=============================================================================

%% main script

%% Constants

L=2;

w=.3;

d=.03;

E=13e3;

rho=480;

g=9.81;

I= (w*d^3)/(12);

%% Part 1 create a NxN matrix of K using stiff_m atrix function

N = 250;%input('please enter a number N to create the stiffness matrix: ');

h=L/N;

k_coeff = (E*I)/(h^4);

k = k_coeff* stiff_mat(N);

%% Part 2: Sinusodial Loading

x=linspace (0,N,N);

L=2;

fn = sin_func(x);

% calculate y(displacement) =k/fn

y=fn.'\k;

figure

hold on

plot([0 N],[0 0],'k-'); %plots flat line (y=0)

plot(x,y,'k-'); %plots curve of y

xlim = ([0,N]);

title('graph of loading')

%% Part 3: Validate the Method

y_x= ((-1*rho*g*w*d)/(24*E*I)) .*(x.^2).*6*L^2 - 4*L.*x + x.^2;

y_L = ((-1*rho*g*w*d*L^4)/(8*E*I));

%==============================================================

%% Define stiffness matrix for a given NxN dimension

function [stiff_matrix] = stiff_mat(N)

stiff_matrix = zeros(N);

stiff_matrix = stiff_matrix+6*eye(N);

minus_fours_above = diag(-4*ones(N-1,1),1);

minus_fours_below = diag(-4*ones(N-1,1),-1);

ones_below = diag(ones(N-2,1),-2);

ones_above = diag(ones(N-2,1),2);

stiff_matrix = stiff_matrix +minus_fours_above + minus_fours_below +ones_above+ones_below;

stiff_matrix(1,1) = stiff_matrix(1,1)+1;

stiff_matrix(1,3) = stiff_matrix(1,3)+2;

stiff_matrix(N-1,N-1) = stiff_matrix(N-1,N-1)-1;

stiff_matrix(N,N) = stiff_matrix(N,N)-4;

stiff_matrix(N-1,N) = stiff_matrix(N-1,N)+2;

stiff_matrix(N,N-2) = stiff_matrix(N,N-2)+1 ;

end

%============================================================

%% sinusodial function

function [y] = sin_func(x)

L=2;

y = 100.*sin((4*pi.*x)/(3*L));

end

댓글 수: 1
이전 댓글 -1개 표시이전 댓글 -1개 숨기기

Dyuman Joshi 2023년 2월 23일

MATLAB Online에서 열기

The expression for y_x is incorrect -

y_x= ((-1*rho*g*w*d)/(24*E*I)) .*(x.^2).*6*L^2 - 4*L.*x + x.^2;

it should be

y_x= ((-1*rho*g*w*d)/(24*E*I)) .*(x.^2).*(6*L^2 - 4*L.*x + x.^2);

And you can use the sin_func directly (L is already defined in the code)

fn = 100.*sin((4*pi.*x)/(3*L));

Rest looks good.

댓글을 달려면 로그인하십시오.

이 질문에 답변하려면 로그인하십시오.

답변 (0개)

이 질문에 답변하려면 로그인하십시오.

카테고리

MATLAB Programming

Help Center 및 File Exchange에서 Programming에 대해 자세히 알아보기

제품

MATLAB

릴리스

R2022b

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by