The Stratasys J55 Prime 3D printer introduces full color, high fidelity with tactile, functional, and sensory capabilities - making the efficiency and quality of PolyJet Technology more affordable and office-friendly than ever.
Construction worldwide is growing, and it is not slowing down anytime soon. By 2060, the world is projected to add 230 billion square meters of buildings—equivalent to the current global building stock. With this much-expected growth in the future, construction companies are scrambling to find ways to train their workforce efficiently in this complex and highly varied field.
Upgrade Workforce
Virtual reality can allow trainers to quickly develop modules where learners can be trained on many skills, safety practices, equipment, or hazardous environments before entering the field. This opportunity will save time, money, and energy as they enhance the workforce with these revolutionary solutions.
Closing the Skills Gap
Closing the gap in current training inefficiencies while making the training fun and interactive through virtual training is an opportunity few construction firms want to miss. Develop an innovative training program by investing in your students' success.
Thorough and efficient training should be at the top of all oil and gas industries’ concerns. With such a large, vital workforce, these industries need to prepare their employees to complete their jobs safely and effectively or run the risk of catastrophic—and sometimes fatal—failure.
A standardized, all-encompassing virtual reality training course can help unite and strengthen the training that these employees deserve. This training can allow companies to simulate mock drills, operator qualifications, annual training, and more. Dangerous and life-threatening emergencies such as oil spills, gas leaks, explosions & fires, and chemical exposure can be recreated in virtual environments, guiding trainees in how to properly and quickly respond to these events if they should occur. Hearing, seeing, and controlling the experience from a realistic first-person perspective will make all the difference in how employees will respond on the job.
Within a virtual reality experience, trainees in off-site locations can execute necessary tasks while being evaluated by a senior training manager back at corporate headquarters, saving time, energy, and money for the company. By bringing your company’s safety training to the forefront, your company itself will thrive
American manufacturing is growing faster than in decades, but a shortage of skilled laborers is stunting its full growth. The decline in trade school graduates over the past few decades has left a gaping hole in potential employees. Job openings remain unfulfilled as companies bend over backward to attract new talent to replace the current aging workforce.
These efforts, while noble, can quickly grow costly because of low labor retention and high turnover rates in the manufacturing industry. Adding in the fact that automation and robotics are replacing positions formerly held by humans, it is even more imperative that positions reserved for humans are filled by talented people.
How can manufacturing companies train new hires in cost-effective, engaging, and interesting ways that will encourage them to work longer in the industry? First, integrate VR training with traditional training—which is often conducted in classrooms or on the production line, taking senior employees away from their jobs. Virtual reality training provides manufacturers with the opportunity to simulate a production line environment before new laborers even hit the floor.
Virtual reality can train fresh hires or assess current employees on product assembly, hazard recognition, equipment handling, and more. Whichever way companies choose to utilize this technology, it holds the key to efficiency and future successes for manufacturers.
Every company knows how important it is to be compliant with OSHA protocols. Still, most are not aware of how to efficiently train their employees to follow these guidelines across various disciplines.
Traditional safety training can require costly outside instructors, time off the job, and pricey specialized equipment. Virtual reality, however, can help quickly familiarize novice and seasoned employees with updated safety protocols while saving time, money, and energy for both employer and employee.
Employees trained in these realistic, virtual environments will be familiarized with extreme heights, live wires, complex machinery, and more, helping them build muscle memory and retain pertinent information vital to on-the-job success. Using virtual reality as a training and assessment tool can give management a new perspective on improving their safety training.
ABS-CF10 (acrylonitrile butadiene styrene-carbon fiber) is an ABS thermoplastic with 10% chopped carbon fiber by weight. ABS-CF10 provides a strong, stiff material for the F123™ platform.
System Overview and Compatibility
ABS-CF10 is currently available on the F123™ Series machines with 0.007 inch (0.178 mm), 0.010 inch (0.254 mm), and 0.013 inch (0.33 mm) layer heights. It requires a dedicated ABS-CF10 extrusion head, denoted with a dark green case, for all layer heights for the model material. It is compatible with QSR Support™ as a soluble support system and requires a standard F370™ extrusion head for all layer heights for the support material. This system uses the standard F123 Series build tray. ABS-CF10 and QSR are available in a standard F123 90-cubic-inch spool.
Stratasys ABS-CF10 combines standard ABS (acrylonitrile butadiene styrene) material with 10% chopped carbon fiber by weight.
The result is a low moisture-sensitive FDM® thermoplastic 50% stiffer and 15% stronger than standard ABS 3D printing material.
Typical applications include manufacturing tools, jigs, fixtures and end effectors that benefit from the combination of increased stiffness and reduced weight.
Diran™ 410MF07 is a nylon-based thermoplastic FDM® material, mineral-filled 7% by weight. It demonstrates very good toughness and impact strength combined with resistance to hydrocarbon-based chemicals. Its smooth, lubricious surface quality offers low sliding resistance.
Typical applications include jigs, fixtures and other forms of general manufacturing tooling, and is particularly effective for applications needing a non-marring interface between the tool and the workpiece.
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.
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Item Number:J850 DAPThe Stratasys J850™ Digital Anatomy™ 3D Printer combines materials and software to create 3D medical models of human anatomy that mimic bone and tissue with realism you can see and feel. -
Item Number:T7081Understanding HVAC/R, geothermal, refrigeration, and steam systems requires a good hold on the basics. With Amatrol's T7081 Applied Thermal Science Trainer, you can provide the hands-on training your students or employees need. -
Item Number:APTARC50Welding programs that want to teach the latest technologies will add robotic welding to their program offering. This easy-to-program collaborative robot... -
BOFA’s Advantage 350 fume extraction and filtration system effectively removes potentially harmful fumes and particulates created during the laser marking process. By maintaining a dust-free operating area, the system helps to protect valuable equipment, maintain a higher quality mark, and reduce the number of rejects and contaminants.
The quiet and compact Advantage 350 is ideal for use in light-duty laser marking applications, including schools, sign making workshops and small-scale industrial environments.
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Our largest high-volume fume extractor with unique Gullwing filter access design making filter exchange quick, safe and easy.
BOFA’s AD 4000 laser fume extraction unit combines large filter capacity with high airflows. This combination makes the AD 4000 ideal for large laser engravers, laser cutters as well as multiple laser coding installations.
Easily accessible filters are accommodated by the uniquely styled gas spring assisted ‘Gull Winged’ doors, which allow for maximum space and ease when changing filters.
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BOFA’s AD 1000 iQ high end laser extraction system combines extremely large filter capacity with high airflow and pressure rates, making it the ideal choice for heavy-duty applications that generate large amounts of particulate and gaseous organic compounds.
Performance has now been further enhanced with the inclusion of several new features including BOFA’s new iQ Operating System, making the new AD 1000 iQ one of the most advanced system available.
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The AD Access combines economic ownership with performance to match the small laser user. A three-stage filter condition indicator is included as a standard feature, together with three stage filtration: DeepPleat pre-filter, HEPA and chemical section. -
The Advantage Base 1 Oracle has been designed so that a number of manufacturer’s laser engravers can sit on top of the extractor, effectively doubling it up as a workstation.
All the Base units in the range have the option of an onboard compressor for a compact installation. BOFA’s ‘Easi-Seal’ filter location makes filter change easy, quick and safe.
The revolutionary Auto-Voltage Sensing Turbine automatically self-adjusts to run on any voltage worldwide, whilst the Reverse Flow filter technology enhances filter performance and ensures longer filter life.
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The Laser Companion 'Ride On' range has been designed so that a number of manufacturer's laser engravers can sit on top of the extractor, effectively doubling it up as a workstation.
The Advantage Base 2 Oracle has been designed so that a number of laser engravers can sit on top of the extractor, effectively doubling it up as a workstation.
All the Base units in the range have the option of an onboard compressor for a compact installation. BOFA’s Easi-Glide filter location mechanism makes filter changes easy, quick and safe.
