HP Molded Fiber Advanced Tooling Solution for molded pulp production tooling | HP® Official Sitehp.com/go/MoldedFiberWhitepaper
Instructions for hp models including: Molded Fiber Advanced Tooling Solution, 4AA7-7871EEW, Molded Fiber
4AA7-7871EEW, January 2021 1. Compared to traditional CNC and manual tooling processes as of June, 2020. Based on internal HP analysis and testing including expert interviews and a review of published market reports. 4-6 weeks average fabrication lead time when producing in CNC. 2. HP hot swap SmartScreens can be replaced in seconds. 3.
4AA7-7871EEW, January 2021. 1. Compared to traditional CNC and manual tooling processes as of June, 2020. Based on internal HP analysis and testing ...
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DocumentDocumentINCREASE YOUR PRODUCTIVITY WITH THE HP MOLDED FIBER ADVANCED TOOLING SOLUTION, THAT DELIVERS: How? HP engineering expertise & HP's new technology capabilities 1 ENGINEERED PRODUCTION-CAPABLE TOOLING HP's 3D Printing proprietary tooling technology Digitally controlled design 2 CUT LEAD TIME, REDUCE MAINTENANCE TIME PA 11 Fast lead time HP hot swap SmartScreen2 Rapid snap-fit screen replacement with lightweight tools3 3 CUSTOMIZED SHORT RUNS HP molded fiber tooling produced with HP 3D High Reusability PA 11 material4 Engineered fluid pathways for: Faster1 forming and de-watering Smooth part release Less stoppages with enhanced flow tooling Repeatability-- design once and print as many copies as needed Strong performance tooling with dimensional accuracy, fine detail, and optimal mechanical properties Not subject to corrosion5 or calcification6 in water Made with 100% renewable raw material--from vegetable castor oil7 Reduced maintenance Enhanced productivity Reduced stoppages Increased efficiency Digital workflow and HP & technology capabilities enable new revenue streams HP's new molded fiber software solutions Customized hot-swappable screens Design iterations tailored for customer requirements Productionequivalent pulp samples For more information visit hp.com/go/MoldedFiberTooling 1. Compared to traditional CNC and manual tooling processes as of June, 2020. Based on internal HP analysis and testing including and presented no visual signs of corrosion. For details, see: hp.com/go/MoldedFiberWhitepaper. expert interviews and a review of published market reports. 4-6 weeks average fabrication lead time when producing in CNC. 6. Polyamides in HP 3D High Reusability PA 11 material do not present calcification signs with water (a common problem with 2. HP hot swap SmartScreens can be replaced in seconds. 3. No machining, drilling, or manual screening needed. 4. HP Jet Fusion 3D Printing Solutions using HP 3D High Reusability PA 11 provide up to 70% powder reusability ratio, producing aluminum tooling). Based on internal HP testing, November 2020. HP tools produced with HP 3D High Reusability PA 11 material were tested over 17 saturated), and presented no dvaisyusaal tsiagmnsboiefnctatlecimficpaetrioantuorer wuseiingght3cdhiaffnegreens.tFsoorlvdeenttasil(sD, Isweea:thepr .-ccoomn/tgrool/,MtaopldwedaFteibr,eCraWChOit3espuappeerr-. functional parts batch after batch. For testing, material is aged in real printing conditions and powder is tracked by generations 7. HP 3D High Reusability PA 11 powder is made with 100% renewable carbon content derived from castor plants grown without (worst case for reusability). Parts are then made from each generation and tested for mechanical properties and accuracy. GMOs in arid areas that do not compete with food crops. HP 3D High Reusability PA 11 is made using renewable sources, and 5. Polyamides in HP 3D High Reusability PA 11 material do not corrode with water (a common problem with metal tooling). Based may be made together with certain non-renewable sources. A renewable resource is a natural organic resource that can be on internal HP testing, August 2020. HP tools produced with HP 3D High Reusability PA 11 material were tested over 5 days at renewed at the same speed in which it is consumed. Renewable stands for the number of carbon atoms in the chain coming 50° C (122° F) using 4 different solvents (DI water - control, tap water, CaCO3 saturated, and 5 wt% aluminum potassium sulfate), from renewable sources (in this case, castor seeds) according to ASTM D6866. © Copyright 2021 HP Development Company, L.P. The only warranties for HP products and services are set forth in the express warranty statements accompanying such products and services. Nothing herein should be construed as constituting an additional warranty. HP shall not be liable for technical or editorial errors or omissions contained herein. 4AA7-7871EEW, January 2021