reduces, or even obviates, the need for the solid particle suspension. Introduction . Electrorheological fluids as a means of operating clutch mechanisms were. Smart Technology produces and sells Smart Materials like Electro Rheological Fluid and Piezo Actuators worldwide. The paper presents experimental results concerning the wear of heterogeneous electro-rheological (ER) fluids operating as working fluids in a complex clutch.
|Published (Last):||2 September 2018|
|PDF File Size:||8.31 Mb|
|ePub File Size:||7.21 Mb|
|Price:||Free* [*Free Regsitration Required]|
Litvinov; Dynamics of electrorheological clutch and a problem for non-linear parabolic equation with non-local boundary conditions, IMA Journal of Applied MathematicsVolume 73, Issue 4, 1 AugustPages —, https: The general problem on dynamics of the electrorheological clutch is formulated and studied.
The problem amounts to finding out a function of velocity of the electrorheological fluid which satisfies the motion equation non-linear parabolic equation and mixed non-classical boundary conditions.
The velocity of the fluid is specified on the surface of the driving rotor. The velocity on clurch surface of the driven rotor is defined as an eelctrorheological of the torque function over time t from zero to t. The torque function is computed upon integrating the shear stresses non-linear functions of derivatives of the velocity over the surface of the driven rotor.
Approximate problem is formulated in a form of a problem with a delay.
It is proved dlectrorheological existence and the uniqueness of the solution of the initial and approximate problems and the convergence of the solutions of the approximate problem to the solution of the initial problem as the parameter of delay tends to zero. Most users should sign in with their email address. If you originally registered with a username please use that to sign in. To purchase short term access, please sign in to your Oxford Academic account above.
Electrorheological clutch for robotics applications: validation of mathematical
Don’t already have an Oxford Academic account? Oxford University Press is a department of the University of Oxford. It furthers the University’s objective of excellence in research, scholarship, and education by publishing worldwide. Sign In or Create an Account. Close mobile search navigation Article navigation.
Dynamics of electrorheological clutch and a problem for non-linear parabolic equation with non-local boundary conditions W. Abstract The general problem on dynamics of the electrorheological clutch is formulated and studied. You do not currently have access to this article.
You could not be signed in. Sign In Forgot password? Don’t have an account? Sign in via your Institution Sign in.
Purchase Subscription prices and ordering Short-term Access To purchase short term access, please sign in to your Oxford Academic account electrorhheological. This article is also available for rental through DeepDyve.
New ER fluids build better clutches
Email alerts New issue alert. Receive exclusive offers and updates from Oxford Academic. Related articles in Web of Science Google Scholar.
Citing articles via Web of Science 3. Latest Most Read Most Cited Diagnostics of wear thermoelastic instability based on sliding contact parameter monitoring.
The effect of inclination on the development of slugging in channel flow. Trapped modes of the Helmholtz equation in infinite waveguides with wall indentations and circular obstacles.
The electromagnetic scattering problem by a cylindrical doubly connected domain at oblique incidence: Regularization of the semilinear sideways heat equation.