Testimonials

“Your reputation is such that micro-molding and Donna Bibber have become almost synonymous. I’m not joking, in almost every conversation I have on the subject, there is practically a race to see who’s going to mention you first! You were extremely thoughtful, helpful & knowledgeable in all of our previous contacts, so it’s natural for… Read More »

Global Technology Director, RI

Blog Entries

• Micro Molding and Micro Assembly of Medical and Drug Delivery Devices
  December 1, 2017
• A True Platform Single Dose, Disposable Dry Powder Inhaler
  October 26, 2017
• Dry Powder Inhaler Makes Patient Use Easy
  October 6, 2017
• Tiny Medical Device Validation – Designing or Success
  September 20, 2017
• Micro Expert to speak at upcoming conference
  September 8, 2017

Microfluidic Device Design

4/28/15     Microfluidic devices are designed to control extremely tiny droplets of fluid such as blood, drugs, or gel-like fluids. Tiny channels, v-grooves, holes, and valves are accurately positioned on tiny chips and surfaces to push, pull, pressurize, or atomize these fluids in order to give the microfluidic device the required functionality. Key to the efficient working of microfluidic devices are sub-micron surface finishes, extremely accurate adhesion and positioning of features in relation to other features, and an understanding of the fluid flow and interactions with external forces — such as static, temperature, pressure, and humidity.

MES creates features in the sub-micron range using several different processes including micro molding, micro machining, lithography, and direct ion etching. Some applications among many others that require this level of precision and positioning include microfluidic chips, insulin and other drug delivery valving, and drug aspirators.

This blog is one of our Micro Projects that we featured on our website. You can find more featured projects in our Micro Molding, Micro Machining and Micro Assembly pages.

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