DAC Worldwide’s I/P Transducer Cutaway (273-840) is a detailed I/P converter cutaway that depicts a common current-to-pressure transducer used within industrial process control systems. This common piece of pneumatic control hardware is found in manufacturing facilities, petrochemical plants, refineries, and other similar industrial, commercial, and oil and gas applications.
Stratasys® Diran™ 410MF07 is a nylon-based engineering thermoplastic with 7% mineral fill by weight. It demonstrates exceptional toughness and impact strength and has a smooth lubricious surface with low sliding resistance.
Particularly effective for applications requiring a non-marring interface between the tool and the workpiece, Diran 410MF07 is well suited for jigs, fixtures, and other general manufacturing aids.
System Overview and Compatibility
Diran 410MF07 is currently available on the F370™ and F370®CR 3D printers with 0.007 in. (0.178 mm), 0.010 in.(0.254 mm) and 0.013 in. (0.330 mm) layer heights. It uses SUP4000B™ as a breakaway support system, the only breakaway support offered on the F370 and F370CR. This support material is easier to remove than other Stratasys breakaway support systems. Diran 410MF07 requires the high-temperature build tray and uses a standard F123 print head for the model and support materials. Diran 410MF07 is available on the F370 and F370CR in 90-cubic-inch spools, and SUP4000B is available in the F370 and F370CR standard 60-cubic-inch spools.
Overview of Stratasys FDM 3D Printers and Materials
FDM® (fused deposition modeling) 3D printers offer unparalleled versatility to turn your CAD files into durable parts. These parts are tough enough to be used as advanced conceptual models, functional prototypes, manufacturing tools, and production parts. Engineers can produce various products just by loading different files and materials. No traditional machining process can do that.
Handling & Finishing ABS-ESD7 Parts
Overview
ABS-ESD7 (static dissipative) material is among the many great materials available for the Fortus systems. This paper will walk you through the handling considerations for ABSESD7, including finishing, safety, and packaging guidelines.
Finishing
This material's most common finishing techniques are bonding and smoothing. For smoothing, sanding is the recommended method. As with all FDM materials, standard sanding processes can be followed. Unlike our standard ABS materials, note that this material cannot be smoothed using the finishing touch station. ABS-ESD7 can easily bond through typical methods, including solvents, epoxies, hot-air welding, ultrasonic welding, and superglue.
ABS-ESD7™ (acrylonitrile butadiene styrene-electrostatic dissipative) is an ABS thermoplastic with static dissipative properties suited for static discharge-sensitive applications. ABS-ESD7 prevents static electricity buildup, so it will not produce a discharge or attract other materials like powders, dust, and fine particles.
The material is ideal for jigs and fixtures used to fabricate and assemble electronic components and associated production line and conveyor parts. It is also useful for producing functional prototypes, enclosures, and packaging.
ABS-M30™ filament combines the design freedom of FDM® technology with the versatility and capability of ABS (acrylonitrile butadiene styrene). ABS is characterized by its strength and toughness, while being lightweight and resilient, suitable for most general-purpose 3D printing use cases.
ABS-M30i is a high-strength material well-suited for the medical, pharmaceutical and food packaging industries. Parts manufactured with ABS-M30i material are biocompatible (ISO 10993)* and can be gamma or EtO sterilized. In addition, ABS M30i has passed ISO 18562 testing for gas and airway parts for use in respiratory and ventilation medical devices. When combined with Fortus® 3D Printers, ABS-M30i gives you biocompatible parts with excellent mechanical properties well suited for conceptual modeling, functional prototyping, manufacturing tools and production parts.
Antero™ 840CN03 is a PEKK-based FDM thermoplastic combining the excellent physical and mechanical qualities of PEKK with electrostatic dissipative (ESD) properties. The material is filled 3% by weight with carbon nanotubes.
As a high-performance polymer, Antero 840CN03 exhibits exceptional chemical and wear resistance, ultra-low outgassing properties and consistent ESD performance. ESD values range from 104 – 109 ohms per square inch. This makes the material particularly suitable for space and industrial applications where these qualities are critical.
Antero™ 840CN03 is a high-performance PEKK-based FDM® thermoplastic with strong mechanical properties and exceptional material properties, such as electro-static dissipation, temperature resistance, chemical resistance, exceptional wear properties, and ultra-low outgassing. This makes it ideal for low-volume, highly-customized production parts and functional prototypes that must withstand more intemperate conditions. Antero 840CN03’s primary advantages over other Stratasys high-performance materials – such as ULTEM™ 9085 resin, ULTEM™ 1010 resin, and PPSF – are its ESD, high chemical resistance, and low outgassing properties.
System Overview and Compatibility
Antero 840CN03 is available on the Stratasys F900™ and Fortus 450mc™ with a 0.010 inch (0.254 mm) slice height. It uses SUP8000B™ as a breakaway support system, similar to other Stratasys high-temperature material offerings. This support material is easier to remove than the other breakaway support systems. Antero 840CN03 requires the hardened head upgrade and utilizes a custom T20F tip for the model material. Both systems use a standard T16 tip for the support material.
Antero 840CN03 and SUP8000B are available in standard 92.3 cubic inch Fortus Plus™ canisters only, and the material will use the existing high-temperature material build sheets.
Antero™ 800NA is a PEKK-based FDM® thermoplastic. It combines FDM’s design freedom and ease of use with the excellent strength, toughness, and wear-resistant properties of PEKK material.
Antero 800NA exhibits high heat resistance, chemical resistance, low outgassing, and dimensional stability, particularly in large parts.
Appropriate applications include aircraft components exposed to jet fuel, oil, and hydraulic fluid, spacecraft parts that demand low outgassing, and chemical-resistant industrial parts. Using Antero 800NA with FDM technology avoids the waste associated with subtractive manufacturing of high-cost bulk PEKK material.
Antero 800NA is available on Fortus 450mc™ and F900™ 3D Printers and is compatible with breakaway support material SUP8000B™.
ASA (acrylonitrile styrene acrylate) FDM® filament is a broad-use commodity thermoplastic. It is similar to ABS (acrylonitrile butadiene styrene) but exhibits better UV resistance, mechanical properties, and aesthetics than ABS.
ASA suits most general-purpose 3D printing applications involving prototyping, jigs and fixtures, and low-volume production parts. ASA filament is available in the most colors of any FDM material.
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Item Number:273-840 -
Amatrol's IGNITE: Mastering Manufacturing program teaches Industrial Internet of things (IIoT) & Industry 4.0 skills required for today's manufacturing careers. -
Item Number:ILS12.150DThe ILS12.150D is a free-standing platform with a materials processing envelope of 48" x 24" x 12" or 13,824 in³. The dual laser platform supports a power range of 10 to 150 watts (up to 75 watts with one 10.6µm CO2 laser; up to 150 watts with a second 10.6µm CO2 laser). The ILS12.150D also supports a single 9.3µm laser at 30, 50 or 75 watts (If a 9.3µm CO2 laser is installed, the maximum 10.6µm laser is 75 watts). -
Item Number:ILS12.75The ILS12.75 is a free-standing platform with a materials processing envelope of 48" x 24" x 12" or 13,824 in³. The single laser platform supports either one 10.6µm CO2 laser (10 to 75 watts) or one 9.3µm CO2 laser (30, 50 or 75 watts). -
Item Number:ILS9.150DThe ILS9.150D is a free-standing platform with a materials processing envelope of 36” x 24” x 12” or 10,368 in³. The dual laser platform supports a power range of 10 to 150 watts (up to 75 watts with one 10.6µm CO2 laser; up to 150 watts with a second 10.6µm CO2 laser). -
Item Number:ILS9.75The ILS9.75 is a free-standing platform with a materials processing envelope of 36” x 24” x 12” or 10,368 in³. The single laser platform supports either one 10.6µm CO2 laser (10 to 75 watts) or one 9.3µm CO2 laser (30, 50, or 75 watts). -
Item Number:iLSEach base can hold up to 12 modules to accommodate multiple applications and/or multiple students while still fitting through a standard doorway. -
Item Number:200-2202DAC Worldwide’s In-Line Friction-Type Pneumatic Clutch Cutaway (200-2202) depicts a sectioned industrial pneumatically-activated, spring-return, in-line, friction-type clutch for use in a classroom and laboratory training related to mechanical drives. -
Item Number:205-230In-line helical gear reducers have a unique set of benefits. They’re useful in higher horsepower applications where long-term efficiency is more important than initial costs, which can be higher for this type of gear reducer (although in-line reducers are less expensive than parallel shaft reducers). -
Item Number:205-130The In-Line Helical Gear Reducer Dissectible is a sturdy unit mounted on a 7-gauge, formed-steel baseplate with provision for bench-top, workstation, or storage rack mounting.
