Electrospinning is the name given to the process where nanomaterials are created. This process employs an electric charge in order to spin the polymeters, creating nanofibers, polymers, etc. These materials have an infinite number of applications and are commonly used on the creation of products like medicines, clothing, etc.
Electrospinning is a process that can assist you with the creation of materials for your supply chain, helping your company to step up its game. This process requires a very small investment in comparison to other industrial processes and with the right equipment can be used even in mass production.
Electrospinning machines come in all sizes, so it is very easy to find the one that would adapt to your laboratory. Some good examples are the electrospinning machines produced by the electrospinning company Bionicia. Their brand of electrospinning machines is named Fluidnatek and produces all sort of machines, from small laboratory bench ones to big machinery designed to be incorporated into bigger laboratories and production processes.
The electrospinning process manipulates the materials on a molecular level. This means that you can produce nanofibers from an infinite variety of materials by using electrospinning. The number of production sectors that use nanomaterials on their production processes increases each day. The sectors that have been using nanomaterials the most over the last years are the food sector (for purposes such as increasing the shelf life or their products) and the the pharmaceutical sector (for medical research purposes). But although those are the sectors that have traditionally benefited the most from the electrospinning technology, they are not the only ones where it can be used. Innovations involving electrospinning technology can be appreciated already in products like cosmetics, clothing materials, affinity membranes, etc.
Each kind of nanomaterial is processed differently and has different kind of requirements in order to achieve the desired final result. But if we invest in the right kind of machinery and research, we will be able to highly improve our products quality in a very short spawn of time.
Academic research is one of the fields where electrospinning processes are more used. Universities dedicated to investigation projects and companies with strong research teams already have electrospinning machines integrated as an essential part of their laboratories.
The studies made using electrospinning technology have made big improvements on our lives already. For instance, using the electrospinning technology, laboratories were able to create nanofibers that can be used in the creation of artificial skin or organ parts. The living tissue created with this technology is already improving the living conditions of many people and over the years, scientists believe that even full organs will be able to be created (which would help avoiding problems like the compatibility between donors or the lack of organs available for people waiting for a transplant).
Electrospinning technology can be introduced in our production process in order to improve our final products. The Fluidnatek electrospinning machines cover a wide range of possibilities in order to adapt to your production process. It is important to pick the right machine that would adapt to the kind of material you wish to manipulate and the space you have available for its set up. Models like the LE-50 also include interfaces especially adapted for the use of different operators, which is especially handy when your factory or laboratory involves different investigators working in a project. Or if your company is looking forward to work with different materials at the same time, models like the Fluidnatek Le-100 model include an additional chamber and can be set up for coaxial or triaxial electrospinning processes.
Integration electrospinning processes into your product development is an investment you will not regret independently of the kind of production business you run, which will assist you greatly on the creation of your end product.