Taulman Bridge Nylon er resultatet av samarbeid mellom Taulman og tusenvis av avanserte nylonbrukere.
Poenget var å lage et nylon med svært høy styrke, lav pris og skulle være enkelt å printe.
Bridge Nylon er nettopp det. God pris, ekstrem styrke, lett å skrive med. Temperatur på ca 250c og bed på rundt 65 er stortsett det som trengs. Det anbefales å bruke magigoo eller limstift for å unngå warping.
Bridge Nylon er _SVÆRT_ fleksibelt, og sålenge filamentet ikke innehar fukt ved printing, så er det tilnærmet uknekkelig.
Ønsker du nylon som er mindre fleksibelt så anbefaler vi å se på add:north Adura eller Thaulman 645
OBS, Nylon filament er notorisk kjent for å ta opp fukt fra luften. Selv om Bridge Nylon er et laget for å unngå dette mest mulig, så er det ikke til å unnvike at også dette filamentet tar opp fukt ganske lett.
Filamentet MÅ tørkes i ovn i ca 4 timer før første gangs bruk. Sett ovnen på 70-75c med varmluft. La temperaturen jevne seg ut og legg filamentrullen på rist i ovnen, la stå i ca 4timer. Så er den klar til bruk
taulman3D is today releasing a new high strength Nylon co-polymer to testers around the world for review. The new material is named “Bridge” as it is a consolidated effort by thousands of nylon 618 and nylon 645 users along with the help and support of both our extrusion house and chemical company.
Dubbed “Bridge” by our local St Louis testers as bridging the strength of nylon 645 together with the price of current ABS and PLA thermoplastics, allows any user the flexibility to determine the best choice in material for their printing needs.
From our customers, we have logged and prioritized the most sought after features of a high strength printing material. These were in order:
A Lab certified measure of tensile strength.
Better Adherence to the Printing platform.
Reduced water up-take from local humidity
Non-destructive evaluation (Opacity)
Starting with our strongest base polymer used for a percentage of nylon 645, we began working all of these requests.
Adherence to the Printing platform:
First, was the adherence to the Printing platform. Those that follow the use of nylon in posts, blogs and 3DP discussion rooms know of using garolite (LE) as a print surface. While this works well for all of taulman3D nylons, garolite is not always easy to acquire and even so, requires a properly cut section that fits each user’s unit. Our thanks goes out to our chemical company for helping to change this requirement. The surface properties of most nylons is extremely slippery making adherence to the printing platform difficult. Our chemical company was able to make minor adjustments, to reduce the surface effect just slightly, thus allowing for the use of most PVA glues, either full strength or diluted. Initial testing shows that in some cases, the PVA was better with Bridge than garolite is with 618. Thus, some dilution was used. The specific PVA used in our labs is a very low cost “ELMER’S Glue-All” White PVA.
Reduced water up-take:
Next was Reduced water up-take from local humidity. While it is not possible to eliminate the water uptake by nylon, it is possible to localize it to the surface through final processing changes. Therefore when printing, rather than water creating a subtle popping that can effect the surface finish, Bridge will hold the water to the outer portion resulting in a slight steam when wet. The result of this is that Bridge needs little or no drying in the winter and just needs to be warmed in the summer months. This is a manufacturing process that our extrusion house developed and added to our existing taulman3D processes.
We found that the same process that reduces water uptake also helps to reduce shrinkage. While nylon will always have a slightly higher amount than ABS, we were able to reduce it to an in/in value less than our current nylons. These changes also led to a slight reduction in stringing as the extruded threads are a thicker melt.
Non-destructive evaluation of 3D Printed parts is a function of the transparency of Bridge. Like nylon 645, this transparency allows for visual inspection of printed parts. This is a combined request from our industrial and clinical customers. As noted early on, parts can be printed “too fast” for some polymers. While the outside of the part may look acceptable, a part printed too fast will not have internal fill material that actually adheres to the inside of the perimeter. With Bridge and nylon 645, Non-destructive evaluation is a simple visual verification.
Certified measure of strength:
With this combination of advancements, taulman3D proceeded with a limited test run. From this initial test run, we printed test samples to be sent out to the St Louis test labs. A fully accredited testing facility supporting the central US. The lab reported a Tensile Stress PSI of 4,800 for Bridge when 3D printed.
taulman3D supports several industrial, commercial and clinical customers with nylon 645 and this has allowed us to meet all of our pricing tiers for certain chemicals used in 645. Because ‘Bridge” is a very close chemical polymer to nylon 645, we are able meet these pricing requests.
As with all of the taulman3D releases to date, we ship out free samples to respected testers in various technical fields all over the world. The intent is that they will report on the best settings as well as specific uses for Bridge. Look for comments from the 3D Printing community, Industrial community and the Academic community for additional information on Bridge. Just some of the testers that will receive over 100 spools of Bridge::
Glenn W. Walters, Director, ESE Design Center Dept. of Environmental Sciences & Engineering University of North Carolina at Chapel Hill
Richard Horne, (RichRap) 3D Printer Designer and Author
Ben Malouf, HELIX 3D Printer co-designer
whosawhatsis, (Rich) 3D Printer Designer G+, Hardware, Software and Systems
Daniel Norée ,Author of OpenRC, Designer, Maker, Presenter, destroyer of small parts!
Sanjay, E3D – Hardware – Hotend Designer
Shawn Tait, Lead Industrial Tool Manufacturing Engineer, Mold and Extrusion Dies
Tim Rastal, 3D Printer Designer, Systems developer G+ support resource
Joseph Belter, Yale Engineering Deans office, Robotics
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