Amatrol's 870 Mechatronics Learning System teaches students a broad array of job-ready skills in integrating technologies. Students work together in a team environment to make the whole process work. Seven stations make up a complete flexible manufacturing system. Each station is a small mechatronics system in itself with multiple, integrated technologies that can be used stand-alone or in various combinations, creating unlimited project capability. The Learning System is compact, enabling it to fit into almost any teaching facility.
DAC Worldwide’s Transformer Connections Training System (491-000) teaches the essential skills that a utility worker must master to confidently operate modern generating equipment, such as the paralleling of generators and connecting to a larger power grid. The system replicates utility workers' conditions and circumstances when making common transformer connections in the field.
For example, learners can practice ground, primary, and secondary connections easily using banana jacks. Three-phase and single-phase applications are provided, and a 208 VAC, 3-phase source is stepped down to a 41 VAC, 3-phase system for safety.
Users will find that the Transformer Connections Training System provides a safe, efficient, realistic alternative to a full-voltage field experience. Standard accessories include patch cords, fourteen (14) transformers, a panel-mounted voltmeter, and phase rotation meter.
lndustry 4.0 and other new technologies are helping industry advance at a rapidly, creating a massive growth in the need for individuals with technical skills. The modern versions of technical occupations, such as technicians, technologists, engineers, and operators, all require individuals with technical depth and breadth and the ability to problem-solve and optimize systems.
To address this demand, the
The Amatrol Learning System
- Hands-On Workstations With Industrial Quality Equipment
- Task-Based Hands-On Exercises
- Interactive Multimedia Curriculum With Virtual Simulation
- Computerized Assessments With Pre- And Post-Testing
- Instructor Guides
- Instructor Training Courses
- Instructor Support Services
The elements of the Amatrol Learning System have been designed to work seamlessly with each other. The multimedia lessons directly apply to the hands-on skill exercises, and the computerized assessments directly tie to the objectives of the multimedia lessons. This makes it easy for instructors to implement even if they are new to the technology or teaching.
Located in the heart of the world's refining and chemical processing center, Bayport Technical has a fully-equipped research and manufacturing center that produces industry-relevant learning resources used worldwide.
Hands-On Learning Systems
Bayport Technical produces various hands-on learning resources to prepare individuals for real-world careers The training resources include Electro-Mechanical Maintenance, Fluids, Heat Transfer, Instrumentation and Proces Control, Oil and Gas, and Unit Operations.
- Working Demonstrators offer learners realistic, first-hand visualization into the inner workings of industrial components and systems.
- Cutaways allow students to see and identify a component’s internal features. They may be taken apart and reassembled for further skill development.
- Models: detailed, to-scale training aids that depict various industrial machines based on common equipment by industry leaders.
- Basic & Advanced Trainers: hands-on systems designed to give students real-world experience working on full-sized, industrial components they will encounter on the job.
Custom Work: Can’t find exactly what you need? Let us help! Bayport Technical offers customized services to produce unique, one-of-a-kind learning devices.
Realistic Training That Works
DAC Worldwide works closely with various industry sectors to develop task-based training solutions to establish skill sets that are relevant in today's modern manufacturing environment. With a flexible and extensive range of products, we can adapt to your needs and budget.
Industry Sectors
Advanced Manufacturing
Advanced manufacturing companies use the newest technologies to be competitive in a global market. These systems require skilled workers to keep them running efficiently. DAC Worldwide's training solutions can help develop individuals with the right skill sets for these rewarding careers.
Military
The military industry includes production and maintenance operations to support their facilities and equipment. This requires skilled workers just like their civilian company counterparts. DAC Worldwide's solutions are perfect for supporting the military's training efforts.
Process / Chemical Manufacturing
Process/chemical manufacturing utilizes many technologies to transform raw materials into useful products. This rewarding career path requires specialized skills to be successful. DAC Worldwide has solutions to train incoming workers with the proper skills or help existing workers gain new ones.
Oil & Gas
The oil & gas industry shares technologies with many other industries; however, they utilize some of these technologies uniquely. This requires specialized training solutions, and DAC Worldwide is here to help with training systems, cutaways, & models geared toward the Oil & Gas Industry.
Marine
The marine industry faces unique challenges as the global market demands more. Modern technology used throughout the industry requires highly skilled workers for operation and maintenance. DAC Worldwide has many solutions to support training in this rewarding field.
Power Generation
Power generation is a critical need, and maintaining these systems requires a highly skilled workforce. Power is generated from various sources including oil, gas, nuclear, and renewable energy sources. Maintaining a pipeline of skilled employees entering this field is essential, and DAC Worldwide has training solutions to help.
Check out DAC Worldwide's product offerings and contact us today for more information!
This document provides general guidance on how to get the best quality parts possible from an H350™. The guide will cover accuracy, nesting, and how to optimize designs for printing with SAF. The advice in this guide applies to both High Yield PA11 and SAF™ PA12.
Due to the infinite number of geometric possibilities which could be produced with additive manufacturing, it is difficult to give exact rules, limits, or guarantees for success. This guide aims to understand the factors that should be considered when printing with the H350. This will give the reader a good foundation of knowledge to approach their specific geometries.
Concept to high-volume production of validated 3D printed medical devices in weeks
When the COVID-19 pandemic hit, so did an urgent need for large supplies of personal protective equipment (PPE) for healthcare providers and nasopharyngeal swabs for COVID-19 testing. Supply chain disruptions immediately followed due to complicated supply chains with overwhelmed suppliers and difficult-to-source components. A reliance on a few vendors, instead of multiple supplier sources, and enormous product demand made it difficult for healthcare providers to secure inventory and layered on additional challenges.
Aakash Healthcare Uses Stratasys’ J5 MediJetTM to create 3D Printed Pre-Surgical Models and Jigs to Correct Scoliosis Deformity
Aakash Healthcare Super Specialty Hospital treats the most complex cases in the National Capital Region (NCR) of Delhi, Dwarka. The hospital, equipped with state-of-the-art infrastructure and technology and compassionate, world-class clinicians and staff, is well known for its utmost care in Orthopedic and Joint replacement surgery.
To achieve the highest patient satisfaction and provide the best healthcare service to the local community and beyond, Aakash Healthcare has set up a modern 3D printing lab called Cure ⅽ 3D. This lab will help surgeons and clinicians create 3D models of complex clinical cases for patient education and surgical treatment planning and print patient-specific jigs and medical devices that will ensure safe and accurate surgical interventions.
In addition to creating high-quality models for patient education, resident teachings, and practicing complex surgeries in vitro outside the OT, the lab will go a long way to bring innovative solutions to complex and difficult clinical cases.
Multi-purpose resin with optimum toughness and processing speed.
Download the technical datasheet for Ultracur3D® ST 45 B.
Download the Stratasys Origin One BASF ST45 Material Processing Guide.
- Support Tips
- Printing
- Part Removal
- Cleaning
- Postcure
One hundred parts produced within 24 hours on a single Origin One, at a fraction of the cost of traditional manufacturing.
Origin® One features several integrated cameras for computer vision and capturing temperature data in the IR range; additional sensors measure other environmental conditions during the print process.
Senior mechanical design engineer Matt Miyamoto designed camera mounts for CNC machining out of black ABS plastic. A compound angle meant that the part could only be machined by a 5-axis CNC (or on a 3-axis CNC with multiple setups), which made the parts expensive to machine at low or high volumes. Matt turned to Origin’s solution to achieve the quality and throughput required.
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Item Number:990-MES1Learners will acquire skills such as how to measure length, accurate measurement of inside and outside dimensions, measuring both in U.S. Customary and S.I. Metric units, and collecting measurement data. The 990-MES1 contains precisely-machined and numbered parts that challenge the learner to make accurate measurements. Understanding how to perform accurate measurements is relevant to technical careers such as quality control inspector, machinist, manufacturing engineer, operations manager, and production technician. The 990-MES1’s compact size and durable case also provide for safe storage when available training space must be used to teach other topics. -
Item Number:990-ME1Amatrol’s Portable Mechanical Drives 1 Learning System (990-ME1) covers the fundamentals of mechanical transmission systems and applications, such as how to: operate, install, analyze performance, and design basic mechanical transmission systems using chains, vbelts, spur gears, bearings, and couplings. These fundamentals can be applied to a variety of applications within the automotive, agricultural, and power industries. -
Item Number:990-PTB1Amatrol’s 990-PTB1 Portable Pneumatics Troubleshooting Learning System teaches hands-on skills with industry-standard components, interactive curriculum, and FaultPro software for real-world troubleshooting practice. -
Item Number:990-ELE1Amatrol’s Portable Power and Control Electronics Learning System (990-ELE1) covers how to operate, adjust, and troubleshoot electronic components, circuits, and systems used in machine applications. The portable learning system allows for on-the-go exploration of the fundamental concepts of industrial power and control electronics, such as measuring temperature, speed, and analog signals. The 990-ELE1 provides skills and topics that will be invaluable in industries like manufacturing, transportation, energy, and construction. -
Item Number:95-MSB3The Amatrol Skill Boss Logistics offers a performance-based assessment for evaluating the skills and competencies of future supply chain automation technicians. -
The Smart Factory is a fully connected and flexible manufacturing system that connects its physical systems, operational information, and human assets to control manufacturing, maintenance, inventory, and supply chain operations. -
Item Number:870-PTAB82Amatrol’s Tabletop Mechatronics is a portable, durable, affordable learning system that forms a fully automated line to teach real-world mechatronics skills. This learning system features a pick-and-place, gauging, and inventory station, all of which fit on a standard tabletop! -
Item Number:950-TNC1Master wind turbine troubleshooting with Amatrol’s 950-TNC1 Turbine Nacelle Learning System. Train on real-world components, simulate faults, and prepare learners for advanced wind energy careers. -
Amatrol’s virtual trainers replicate physical systems in such detail that students can build skills even when they don’t have access to actual equipment.
