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.
Offering a variety of production-grade thermoplastics, FDM® technology creates parts that are highly accurate, tough, and suitable for both functional prototyping and end-use parts. ABS is the most common material used as it boasts good mechanical properties and high name recognition. Compared with ASA, ABS may be more familiar because of its popularity in mass production.
ASA is another popular all-purpose material for jigs and fixtures, manufacturing aids, prototyping and limited-run end-use parts. ASA matches or exceeds the mechanical properties of standard ABS and has greater heat resistance. Moreover, ASA demonstrates exceptional UV stability and, with its matte finish, offers the best aesthetics of any FDM thermoplastic. It’s especially suited for end-use parts in outdoor commercial and infrastructure applications, and its wide array of color options surpasses that of ABS.
FDM® TPU 92A is a thermoplastic polyurethane with a Shore A value of 92. The material exhibits high elongation, superior toughness, durability, and abrasion resistance.
FDM TPU 92A brings the benefits of elastomers to FDM 3D printing and can quickly produce large and complex elastomer parts. Typical applications include flexible hoses, tubes, air ducts, seals, protective covers, and vibration dampeners.
FDM TPU 92A is available on the F123™ Series 3D Printers and is compatible with QSR™ soluble support material.
Produce Large and Complex Elastomer Parts
Create accurate elastomer parts quickly and efficiently with the ease and reliability of professional FDM 3D printing. The durable elasticity of FDM TPU 92A material makes it a good choice for a variety of applications, including flexible hoses, tubes, air ducts and vibration dampeners.
FDM® HIPS (high-impact polystyrene) is a low-cost, general-use 3D printing thermoplastic. It offers similarities to ABS but has high impact resistance making it suitable for printing lower-requirement jigs, fixtures, and prototypes at a reduced cost.
Kimya PC-FR is a polycarbonate FDM® 3D printing filament with flame-retardant properties developed specifically for additive manufacturing. It retains the beneficial characteristics of standard polycarbonate, such as dimensional stability, high glass transition temperature, and high impact resistance.
Kimya PC-FR is a polycarbonate (PC) based material with flame-retardant properties developed specifically for additive manufacturing. It retains the beneficial characteristics of standard polycarbonate such as dimensional stability, high glass transition temperature, and high impact resistance.
Key Attributes
- Flame-resistant material
- Electrical insulator
- Good dimensional stability
- Meets or exceeds the mechanical performance of Stratasys PC material
- Compatible with soluble support
- Meets EN 45545-2 and NFPA 130 standards
- Slice heights: 10
Nylon 12 is a semi-crystalline, FDM® thermoplastic. As with other semi-crystalline materials used in traditional manufacturing processes, special considerations should be implemented to ensure an optimal part is obtained. The information in this document illustrates the following considerations:
- Tip Selection
- Build Modes
- Porosity
- Sacrificial Tower Features
- Build Sheets
- Support Removal
- Annealing
FDM® Nylon 12 filament is the 3D printing equivalent of standard industrial PA12 (polyamide 12) material. A strong engineering thermoplastic that exhibits toughness and high impact strength without being brittle. Its excellent fatigue properties make it a good option for repetitive-flex applications such as snap-fit clips, closures, and press-fit inserts.
Other applications include jigs, fixtures, low-volume production parts, and accurate prototyping of nylon 12 high-volume injection molded parts. FDM Nylon 12 is available in black.
FDM® Nylon-CF10 is a composite material combining a blended nylon polymer with 10% chopped carbon fiber (by weight), enhancing the material’s strength and rigidity. The nylon base polymer also gives FDM Nylon-CF10 good chemical resistance.
FDM® Nylon 12CF™ is a PA12 (polyamide 12) thermoplastic filament reinforced with chopped carbon fiber, 35% by weight. It has the highest flexural strength of any FDM thermoplastic, resulting in the highest stiffness-to-weight ratio. The combination of high strength, stiffness, and light weight makes it an optimal replacement for heavier metal components in appropriate use cases.
Typical applications include strong, lightweight tooling, functional prototyping and select end-use parts.
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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.
