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By Steve Baker | Sep 11, 2017
Technical printing projects are common in highly regulated industries

This blog is the second in our series on technical printing. In our first blog we gave an in-depth description of what technical printing is. In this blog, we will talk about how technical printing projects go from development to production.

How are technical printing projects started? At GM Nameplate (GMN), technical printing projects start in our development department. Here the design is scrutinized, reviewed, and tested. The goal is to produce development part designs and find out quickly whether the part is manufacturable or not. This department will provide design considerations and test reports until a conclusion is drawn. Once a batch of parts has a high yield per volume and a high success rate, the project can move onto full production.

There are five phases that technical printing projects go through during development before it can move on to full-scale production, each one with specific operations. These phases are particular to technical printing projects only because of the high level of scrutiny required in development.

Phase 1: Ideation

Ideation is an ongoing conversation between the customer and GMN to identify the areas of highest design risk. This allows both parties to define steps to test design assumptions and evaluate potential design and material solutions to help build confidence about the known challenges.

Phase 2: Risk mitigation

This phase is used to validate material stability and printability, explore material handling and registration options, review curing processes, and establish a planned production approach. Defining the risks and challenges that are likely to occur allows for a plan to be made accordingly. All challenges must be addressed with extreme scrutiny because technical printed parts require much tighter tolerances.

Phase 3: Low volume functional prototyping

Low-volume prototyping is used to create functional printed parts using the materials and preliminary product design planned for use during full volume production. This could take several rounds of prototype layouts and testing, and repeating this process until a high yield success rate is achieved. With technical printing, projects in this phase become more device-specific and are outside of typical production, development, and industry standards.

Phase 4: Production development prototyping

With a suitable design identified, GMN will work on transitioning into production manufacturing development. Larger quantities of parts will be printed and evaluated, with the goal of meeting customer specifications. The parameter window for meeting the customer’s specifications is very small in technical printing, and is why technically printed parts are evaluated so thoroughly.

Phase 5: Production validation

Once the parts have passed the previous phase, the project is handed to a production team and design engineer to apply to production volume quantities.

GMN’s expertise and strict quality systems allow us to work in these highly regulated spaces and gives our clients confidence in the parts we produce for them.

For an overview of technical printing, read our previous blog in this series.

By Steve Baker | Aug 11, 2017
Printed electrodes are often used for electrochemical test strips and devices.

This blog is the first in our new series on technical printing. Throughout this series, we will describe the procedures involved in creating technical printing solutions, from start to finish. To begin, this blog will focus on defining what technical printing is and what it’s used for.

Technical printing is a generic term used for functional printing projects that fall outside of industry standards, materials, processes, and specifications. These projects require extremely tight tolerances and critical product specifications, typically belonging to highly regulated industries, such as the medical industry. The processes follow current Good Manufacturing Practices (cGMP), which are regulations enforced by the FDA to ensure products are consistently produced and meet quality standards. Technical printing and functional printing are both used for similar applications, such as for membrane switches. However, they differ in that functional printing has more forgiving specifications and technical printing has much tighter specifications.

A common example of technically printed parts is printed electrodes, which are strips manufactured for electrochemical analysis. This involves technical printing because they are typically used in the highly regulated medical field, in applications such as diabetic test strips. When manufacturing printed electrodes, conductive lines are finely printed in great detail on polyester substrates, typically using conductive inks including carbons, silvers, and silver-silver chlorides.

With technical printing, applying a conductive ink to a surface is similar to how you would apply frosting to a cake. When you squeeze a bag of frosting, a controlled amount comes out of an opening at the end. This same process is how conductive inks are applied as circuit lines on polyester substrates during technical printing.

GMN frequently manufactures electrodes for electrochemical test strips and devices, such as diabetic test strips or quick diagnostic labs. GMN prints electrodes with silver, carbon, or various conductive inks in order to measure a current or other signal. Our customers will then apply a reagent on top of the electrodes. When those reagents are exposed to bodily fluids such as blood, a chemical reaction takes place, and the electrodes will detect that reaction and send the signal to the device it is powered to. This is done on a very small scale, and the readings of signals must be completely accurate, which is why this part requires technical printing with a high degree of scrutiny. Because it has such a small trace, you can’t afford to have large variances in the circuit itself, which is why the tighter tolerances are so necessary.

Many variables go into technical printing projects, such as the curing times and quality of inks, as well as the substrates and thicknesses used. These variables are controlled closely, especially when making electrodes for medical equipment. These parts go on very important equipment and could mean life or death in certain situations, such as buttons for a medicine administration device used for hospital patients or printed electrodes used in diagnostic labs for diseases. With years of experience in the medical industry and other highly regulated industries, GMN is a trusted manufacturer for technical printing projects.

Our next blog will explore the development of technical printing projects. For more information on printed electrodes, click here

By Alison Alvarez | Jan 30, 2017
Domed magni-lens metallic label for InterMetro

InterMetro, a global manufacturer of storage and transport products, contacted GM Nameplate (GMN) regarding a label for their medical storage units. Their primary concern for the label was its ability to withstand environmental conditions. In the medical setting, the label would be in constant contact with harsh chemicals, so GMN suggested a magni-lens domed part for protection and longevity. Because of their durability, magni-lens domed labels are very popular among medical device companies.

In addition to endurance, InterMetro wanted their part to stand out. InterMetro decided on a bright Mylar substrate that included a silver metallic background with purple transparent ink which allowed the bright material to show through and highlight the product name. The part was also embossed to create a dimensional effect. In the end, the metallic magni-lens label proved to be a more cost effective option than metal, while maintaining a similar appearance and sheen.   

Thorough production and inspection processes are required to ensure the creation of a reliable, uniform label. At GMN, we maintain high-quality standards of production and carefully inspect each product for consistency and excellence.

Rudy Vital, GMN
By Rudy Vital | Aug 18, 2016
Philips Respironics overlay and membrane

With several design and manufacturing challenges to address, Philips Respironics turned to GM Nameplate for a membrane and overlay for their ventilator. The issues included providing a way to block liquids from damaging the membrane circuit during cleaning, generating enough circuit power under membrane area restrictions, and preventing damage to the membrane tail during final assembly. Learn how GMN supported Philips Respironics by reading our case study.  

Josh Stevenson, GMN
By Josh Stevenson | Sep 28, 2015
Display integration for ultrasound device

FUJIFILM SonoSite just released a great video of their new handheld iViz product.  It’s a point-of-care ultrasound device that provides medical staff a highly portable tool for use in the field. The video shows the diverse and positive ways iViz can impact medical treatment and care. I’m proud to have been part of the GMN team to support Sonosite in the development of this technology and its display integration. A big congratulations goes out to the engineering and manufacturing teams as this product is now introduced.  Thanks for checking out the video to the see this product in action.