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

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.

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.

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.