Posts Tagged ‘transfer’

Static Stress, Linear Dynamics, and Heat Transfer Overview – Autodesk Simulation

Want more information after viewing this video? Be sure to visit www.autodesk.com and www.SIMSquad.com. Autodesk® Simulation software, part of the Autodesk® solution for Digital Prototyping, provides a range of mechanical simulation tools to help designers, engineers, and analysts make decisions earlier in the engineering design process. With these tools, you can predict the real‐world performance of your product, helping to save the time and money required to build multiple physical prototypes. Autodesk® Simulation Mechanical and Autodesk® Simulation Multiphysics software includes tools for static stress and linear dynamic simulations—helping you study stress, strain, displacement, shear, and axial forces resulting from structural loading—including forces, moments, pressures, gravity, and displacements. Autodesk® Simulation software also helps you determine a part’s natural frequencies and mode shapes in order to avoid frequencies that are disruptive or harmful to your design. In addition, it helps you avoid structural failure by determining the amount of load that would cause a structure to buckle—letting you review the predicted buckling shape so you can then add supports and stiffeners to your design. Autodesk® Simulation software includes support for steady-state and transient heat transfer simulations—helping to predict changes in a product’s temperature profile in order to reveal potential failure. Study linear and nonlinear thermal effects by considering
Video Rating: 5 / 5

Resin Transfer Moulding light

RTM Light : A video demonstrating an extension of the VacFlo process using similar mould design principles. The use of an injection machine to introduce resin into the mould further controls the process. Suitable for making up to 8 components per day.
Video Rating: 5 / 5

SFCM_09_28:Pultrusion with resin transfer molding (RTM)

Pultrusion with resin transfer molding (RTM) Rainer Eberle Zürich University of Applied Sciences, Austria The name pultrusion combines the words, “pull” and “extrusion”. Pultrusion technology represents the only method currently capable of producing automatically structural composite parts on a continuous basis and of unlimited length. In the pultrusion process, reinforcing materials in the form of dry unidirectional fibers, woven or non-crimp fabrics are continuously pulled from creel racks. This collation of dry reinforcing fibers then passes through forming cards, before entering a heated steel mold. Resin is applied to the preform, either by pulling through a wet-bath or by injecting the resin directly into the die. Due to this pulling, the fiber filaments are in tension when curing in the heated die. While in tension, the fibers have higher strength values and are more aligned, allowing good compaction and more fibers fitting into a given gravity. The mold forms and compact the material into the final geometry. A pair of hydraulically-activated gripping plates is used to alternately grab and pull the material through the system at a constant speed. The profiles then periodically cut with a cut-off saw. Human interface, for example by hand-lay-up is eliminated and therefore the quality is not a function of motivation of factory technicians. Within the composites industry, pultrusion is one of the fastest rising processes for composite parts because it is a highly cost
Video Rating: 5 / 5

Transfer Injection Rubber Molding Press for Bushings, Silent Block, Suspension Rubber

Hi We have just added this beautiful machine in our infrastructure to offer our customers more variety or products. Now we are capable to handle 4 and 5 plate moulds also. For more information on us please visit: www.indiamart.com www.molded-extruded-parts.com Thanks

Resin Transfer Moulding

Resin Transfer Moulding (RTM) : A video demonstrating a fast and efficient way of producing FRP parts. The process involves the controlled injection of resin through dry reinforcement placed in a rigid, matched, temperature controlled, composite or metal tool. Suitable for making up to 40 components per day.
Video Rating: 4 / 5

Fat Transfer to Face, Facelift Surgery & Upper Eyelid Surgery Before and After

www.drkaram.com 858-259-FACE http One of the old dictums in plastic surgery is “replace like with like.” When it comes to facial volume loss, micro fat transfer is the treatment of choice. A gentle liposuction technique is used to prepare the fat for transfer. Then the fat is then injected in the desired portion of the face, using a micro injection technique. This approach allows extremely small parcels of fat to be placed into multiple layers of the face. This maximizes potential survival and allows for optimal aesthetic outcome. In my practice this is done most commonly around the hollows and grooves of the lower eyelid region and cheeks. Another common area is around the mouth and jawline. It can also be done throughout the entire face giving the entire face a natural rejuvenation. th facelift surgery, technically called “rhytidectomy,” Dr. Karam can rejuvenate the quality and appearance of his patients’ facial skin. With this procedure, fine lines and wrinkles can be reduced or eliminated, helping patients look more refreshed. A facelift can address loose, sagging skin of the: * Cheeks * Jaw line * Neck However, if you are seeking improvements to your eyes specifically, you may be better-suited for eyelid surgery. During an examination, our San Diego physician can determine which procedure would be most beneficial to you. Adding volume is the most effective ways of rejuvenating the eyes. The real advantage is that it is non-surgical and highly effective. My first
Video Rating: 4 / 5

is more flow or more pressure better for heat transfer in a frp cooling tower?

Question by Sanjay B: is more flow or more pressure better for heat transfer in a frp cooling tower?
We have plastic injection molding machines and frp tower is used to cool the hot water which flows through the mold and machines

Best answer:

Answer by rswdew
you want more flow, pressure will build heat in one place. The tricky part is that you need pressure to create a greater flow!

What do you think? Answer below!