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.
Amatrol EV Manufacturing Training Systems provide hands-on instruction aligned with today’s electrified automotive production environments. Learners explore key EV manufacturing processes, including electric motors, power electronics, battery fundamentals, automation, and industrial controls used in advanced vehicle and mobility production.
Designed for both education and workforce development programs, these systems prepare students and technicians for careers in electric-vehicle, battery, and advanced-mobility manufacturing—helping institutions stay aligned with the rapidly evolving electrification industry.
Amatrol’s Mitsubishi automation training solutions provide industry-aligned instruction using authentic industrial components from Mitsubishi Electric. Students gain practical experience working with PLCs, HMIs, variable frequency drives, and integrated automation systems that mirror the technologies used in modern manufacturing facilities.
Designed to support mechatronics, industrial maintenance, and automation pathways, these systems bridge the gap between classroom theory and real-world application. Learners build programming, troubleshooting, and system-integration skills that prepare them for careers in advanced manufacturing and smart factory environments.
Hands-On CNC Machining for Education & Industry
Advanced manufacturing demands highly skilled CNC operators and programmers who understand precision machining, safety, and real-world production workflows. As industries continue to modernize, training programs must provide students with hands-on experience using equipment that reflects what they will encounter in the field.
APT CNC training systems provide robust, industrial-grade machining platforms designed specifically for education and workforce development. These systems allow learners to gain experience in CNC milling and turning operations while building confidence in setup, programming, operation, and troubleshooting.
- Industrial-quality CNC milling and turning platforms
- Designed for hands-on technical training environments
- Supports G-code programming and CAM integration
- Safe, instructor-friendly controls for classroom use
- Scalable for high school, college, and industry training
APT CNC systems allow students to progress from foundational machining principles to advanced programming and precision part production. Learners develop competencies in blueprint interpretation, workholding, tooling selection, machine setup, offsets, and part verification.
Through real machining applications, students experience the full manufacturing workflow—from raw material to finished part—while reinforcing critical thinking and problem-solving skills required in modern machine shops.
- CNC machine safety and operation
- Manual data input (MDI) and G-code programming
- Tool setup and tool offsets
- Work coordinate systems
- Spindle speed and feed rate calculations
- Fixture setup and part clamping
- Turning and milling operations
- Part inspection and quality verification
APT CNC platforms are well-suited for Career & Technical Education (CTE) programs, community colleges, technical institutes, and industrial training departments. The systems provide the durability and precision required for repeated instructional use while maintaining an accessible learning curve for students.
These machines integrate seamlessly into advanced manufacturing pathways, including robotics, automation, and Industry 4.0 programs, helping institutions create stackable skill development models aligned with workforce needs.
APT CNC systems can be integrated into broader automation training environments, including robotic machine tending cells and smart manufacturing demonstrations. This allows programs to expand from standalone machining instruction to fully automated production workflows.
- High school manufacturing labs
- Community and technical college machining programs
- University engineering labs
- Apprenticeship and workforce upskilling programs
- Industrial training departments
Get Started
Whether you are launching a new CNC machining program or expanding an existing advanced manufacturing lab, APT CNC training systems provide the hands-on experience learners need to succeed in today’s precision manufacturing careers.
Contact us today to discuss system configurations, automation integration options, and program alignment for your facility.
Empowering Education Through 3D Printing
UltiMaker is a global leader in professional desktop 3D printing, renowned for delivering accessible, reliable, and high-performance additive manufacturing solutions. In the world of education and technical training, UltiMaker's printers are empowering instructors and students alike by turning ideas into tangible models—bridging the gap between theory and practice. From middle school makerspaces to advanced engineering labs, UltiMaker’s user-friendly ecosystem provides educators with the tools they need to build 21st-century skills through hands-on, project-based learning.
Built for the classroom, UltiMaker’s printers—such as the S3 and S5—offer seamless workflows, intuitive software integration, and a broad material compatibility, making them ideal for cross-curricular applications in STEM, CTE, and design programs. Educators can unlock student creativity while teaching real-world problem-solving, prototyping, and design thinking—critical skills that prepare learners for success in today’s rapidly evolving industries.
With an extensive library of lesson plans, curriculum support, and a global community of educators, UltiMaker is more than a technology provider—it's a partner in shaping the future of education. Whether you’re launching a makerspace, enhancing a Fab Lab, or incorporating additive manufacturing into your existing curriculum, UltiMaker provides scalable solutions to fit your goals.
Improve Safety and Performance for Waste Management Drivers—Before They Take the Wheel
Monday, February 23, 2026
Driver Training Solutions’ Sanitation Simulator provides immersive, scenario-based training designed specifically for waste collection and sanitation fleet operators. Trainees can safely develop critical skills such as route navigation, vehicle handling, stop-and-go operations, backing, tight turns, and hazard awareness—all within a controlled virtual environment.
By removing the risks, costs, and wear associated with on-road training, organizations can deliver consistent, repeatable instruction while protecting both equipment and personnel. The simulator allows drivers to build confidence and competence before ever operating a real vehicle.
Ideal for municipalities, private waste contractors, and fleet training academies, this solution supports safer operations, reduces accident rates, and improves overall efficiency across a wide range of waste management applications.
Download the Matrix Automatics PLC Adaptor Guidelines to learn how to connect PLC systems to pneumatic training platforms for advanced automation instruction.
Available through Tech-Labs, these adaptor modules allow educators to bridge pneumatic fundamentals with real-world PLC control, helping students build practical automation skills.
What’s Covered in This Guide
- PLC input, output, relay, and power interface modules
- Wiring diagrams and connection examples
- Module compatibility with different PLC types
- DIN rail mounting options and configurations
- Suggested setups for Siemens and other PLC systems
The guide outlines multiple module options for connecting PLC inputs, motor outputs, relay outputs, and power connections to the Automatics training platform.
Why PLC Integration Matters
Integrating PLCs into pneumatic training allows students to move beyond basic circuits into industrial automation concepts such as digital inputs/outputs, relay logic, sequencing, and control system design.
- Bridges foundational skills with advanced automation
- Supports real-world industrial control workflows
- Enhances troubleshooting and system design skills
This guide is ideal for programs looking to expand into Industry 4.0-aligned automation training.
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BOFA’s AD 1500 iQ is the ideal choice for heavy-duty applications that generate large amounts of particulate and gaseous organic compounds.
Performance has been further enhanced with the inclusion of several features including BOFA’s acclaimed iQ Operating System, making the AD 1500 iQ one of the most advanced systems available.
The iQ system takes performance and safety parameters to a new level and ensures that maintenance, downtime, and ownership costs are kept to a minimum.
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The AD 2000 iQ’s technology delivers superior and measurable performance, ensuring airflow and filtration is maintained even when particulates start to build up. It’s thanks to the vacuum/pressure which is three times greater than that of its predecessor, the AD 2000. -
Low airflow entry-level laser fume extractor incorporating DeepPleat pre filter technology and large combined filter.
BOFA’s Advantage 250 fume extraction and filtration system has been designed to provide a cost-effective solution for light duty applications. This compact and extremely quiet system is ideal for use in schools, sign making workshops, small-scale industrial environments and light laser coding applications.
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The Advantage Base C180 has been designed specifically for the GCC C180 laser engraver. The dimensions of the unit allow the C180 to fit perfectly onto the extractor, effectively doubling it up as a workstation. The unit is also offered with an onboard air compressor to provide the laser with its air assist requirements and comes complete with extraction hose kit and compressor link up on compressor models.
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The compact system designed for small-scale industrial sites and light laser coding applications.
The AD Nano+ fume extraction and filtration system has been designed as a cost-effective solution for light to medium duty applications and is the ideal choice for installations where floor space is limited.
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The AD Oracle iQ is our most technically advanced laser fume extractor, combining a powerful range of unique features into one compact unit.
This versatile unit can be used across a range of laser applications and the revolutionary auto-voltage sensing blower automatically self-adjusts to run on any voltage worldwide.
Our inline AD Cyclone has been designed to separate lower particle sizes during laser marking process.
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Introducing BOFA’s most technically advanced compact laser fume extractor. The AD Oracle SA iQ has been enhanced with BOFA’s iQ Operating System, RFA and ACF technology and packs a powerful range of unique features into one compact unit. -
The AD PVC iQ extraction system has been designed to effectively deal with the corrosive nature of the fumes generated when lasering PVC materials.
The latest design specification now offers many of the features associated with our “Best in class” AD Oracle iQ model as standard but in addition all internally exposed surfaces have been coated to resist the corrosive nature of the fume and each unit is fitted with HCL and VOC sensors which continually monitor the exhaust air of the unit giving added safety assurance.
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Item Number:295-711ADAC Worldwide’s Adjustable Oil Field Choke Valve Cutaway (295-711A) is a sectioned, specialty valve sample that supports training in the design features, internal components, and maintenance of adjustable choke valves used in oil and gas production operations.
