Print big without the high capital investment of exclusive, large-format printers. The Stratasys F770™ 3D printer makes printing large, complex parts affordable, reliable, and easy.
Amatrol’s Thermal Technology 1 Learning System provides learners with the knowledge and equipment needed to comprehend the principles of modern thermal systems, such as HVAC, geothermal, refrigeration, and steam systems.
AC, Refrigeration & Heat Pumps
Amatrol's Thermal Technology 2 Learning System (96-TT2) teaches three types of thermal systems: air conditioning, refrigeration, and heat pumps. Students will learn industry-relevant skills including how to operate, install, analyze, and adjust these systems.
The Advanced Thermal Technology training is a working system with industrial components that can perform heat pump, air conditioning, and refrigeration systems operation. These components are mounted on a mobile workstation and supported by instrumentation, microprocessor control, student learning materials for both theory and lab, and teacher’s guide.
Belt & Chain Drive Training System
Amatrol’s Mechanical Drives 2 Learning System (97-ME2) covers the construction, operation, installation, and alignment of heavy-duty V-belt drives, synchronous belt drives, and heavy-duty chain drives. This system also delves into topics associated with the maintenance and proper operation of these drives, such as belt and chain selection, lubrication, couplings, and drive troubleshooting. The drive systems featured in this mechanical drives training system are utilized in countless automotive, agricultural, industrial, and commercial applications, so the advanced manufacturing career fields for learners using these skills are vast. This mechanical drives training expansion system requires the Mechanical Drives 1 Learning System (970-ME1), viscosimeter, and a computer.
The 97-ME2 consists of a coupling/sprocket package, belt drive components package, power transmission belt and chain package, a grease gun, various indicators, and a fastener kit. Learners will use these real-world components to practice hands-on skills, such as installing and aligning a backside V-belt idler, troubleshooting a V-belt drive system, using a grease gun to lubricate a pillow block bearing, and installing and aligning a silent chain drive system. Amatrol uses heavy-duty components that stand up to frequent training use and build the skills and competencies learners need to succeed in the workplace.
Amatrol's Laser Shaft Alignment Learning System (97-ME2A) covers the installation, operation, and applications of laser alignment in a variety of industrial scenarios. Laser shaft alignment is the preferred method of shaft alignment among maintenance and plant engineering personnel due to its superior efficiency and accuracy over older methods like the dial indicator method or the straight edge and feeler gauge method. Laser alignment systems also avoid problems such as sagging indicators, reading resolution error, and reading parallax error. These components add to the Mechanical Drives 2 Learning System (97-ME2) and the Mechanical Drives 1 Learning System (970-ME1).
Amatrol’s 97-ME2A includes a laser alignment system, two measuring units, two shaft v-brackets, two locking chains, and a motor mount horizontal adjustment assembly. Amatrol learning systems are composed of heavy-duty components that provide learners with real-world equipment they’ll recognize on the job and already understand how to use. These components will be used to study topics like rough alignment, laser shaft alignment installation, soft foot correction, and laser shaft alignment operation and analysis.
Bearings, Gaskets, & Seals Training
Amatrol’s Mechanical Drives 3 Learning System (97-ME3) covers plain bearings, ball bearings, roller bearings, anti-friction bearing selection and maintenance, gaskets, seals, advanced gear drives, and gear drive selection and maintenance. The drive systems featured in this mechanical drives training system are utilized in countless automotive, agricultural, industrial, and commercial applications, so the advanced manufacturing career fields for learners using these skills are vast. This mechanical drives training expansion system requires the Mechanical Drives 1 Learning System (970-ME1), viscometer, and a computer.
This mechanical drives training system consists of a fastener kit, worm gear speed reducer, ball bearings package, roller bearings package, plain bearings package, angular contact bearings, bearing press, seals package, and helical gear set. Learners will use these real-world components, like bearings and gaskets, to practice hands-on skills, such as troubleshooting a plain bearing installation, selecting a lubricant for an anti-friction bearing, and calculating a diametral path. Amatrol uses components that learners work with in real-world environments in order to facilitate the strongest competency skill building and to supply heavy-duty components that stand up to frequent training use.
Amatrol’s Predictive Maintenance Vibration Analysis Learning System (97-ME5A) adds to the Mechanical Drives 1 training system (970-ME1) to teach how to use vibration analysis to determine when to perform power transmission component maintenance. Vibration analysis is one of the key techniques used in the field of predictive maintenance to determine when to service one or more of a machine’s components, either making a replacement or adjustment, before a failure actually occurs. Learners will practice industry-relevant skills including how to use a vibration meter to take a vibration measurement, how and where to take various power transmission system measurements, how to read power transmission vibration analysis, and how to minimize vibration.
Amatrol’s Machine Tool Chip Conveyor Learning System (97-ME4E) adds to Mechanical Drives training (970-ME1) to teach chip conveyor installation, operation, adjustment, conveyor belt removal, conveyor maintenance, and conveyor troubleshooting. Machine tool chip conveyors carry metal chips produced by machine tools and use heavy-duty steel link belts usually arranged in a serpentine shape.
The 97-ME4E trainer features an endless belt, manual start/stop control, electric motor drive, safety guards, and more! Learners use these components to study the operation, installation, construction, cleaning, and troubleshooting a chip conveyor. Amatrol uses components found on-the-job in order to give learners the best opportunity to build confidence and industrial competencies.
Amatrol’s Floor-Standing Belt Conveyor Learning System (97-ME4D) adds to the Mechanical Drives 1 training system (970-ME1) to teach skills related to flat belt conveyors, such as flat belt conveyor operation, adjustment, maintenance, and more. Flat belt conveyors are used in industry to transport material and packages from point-to-point at low cost. Learners study industry-relevant skills including installing, adjusting, maintenance, and inspection of flat belt conveyors.
Amatrol’s Plain Bearing Machine Tool Axis Learning System (97-ME4B) adds to the Mechanical Drives 1 Learning System (970-ME1) and the Mechanical Drives 4 Learning System (97-ME4). It includes a dovetail slide with corrosion-inhibiting wrap, Student Learning Activity Packet, Instructor’s Guide, Installation Guide, and Student Reference Guide.
This supplementary learning system adds to learners’ understanding of mechanical drives by teaching the fundamentals of dovetail slides, including component identification, disassembly and reassembly, proper positioning with a micrometer dial, removal and inspection of a tapered gib, and maintenance.
Amatrol’s Roller Pack Machine Tool Axis Learning System (97-ME4A) adds to the Mechanical Drives 1 training system (970-ME1) to teach machine tool axis drives based on the roller-pack type bearing. Roller-pack bearings are precision bearings made specifically for the machine tool axis to provide precision positioning of the axis under heavy load. Students will learn industry-relevant skills related to this new topic including operation, installation, troubleshooting, and design.
Pages
-
Item Number:F770 -
Item Number:F900The F900 gives you the ability to create large parts or multiple smaller parts in the broadest array of FDM materials. With the largest build chamber available among FDM printers, the F900 enables additive manufacturing at scale while delivering consistent, accurate results. -
Item Number:450mc and 380mcThe Fortus 450mc can run standard, engineering, and high-performance FDM thermoplastics in a 16 x 14 x 16 in. build envelope. It features improved ease of use, including a touchscreen user interface, and builds complex parts faster than its predecessor, the 400mc. -
Meet high production demands with the Stratasys H350 powder bed fusion 3D printer. Leveraging Selective Absorption Fusion, SAF technology, into the H-Series production platform, the Stratasys H350 is designed to deliver functional, production-grade parts with unrivaled consistency. -
Item Number:J4100Whatever the complexity, the J4100 can handle any design. An ultra-large build tray, multi-material capabilities, fast throughput, and a wide range of material properties mean unlimited design possibilities and improved productivity. -
Item Number:J850 Pro / J850 Prime / J826 PrimeFrom ideation to creation, the J8 Series delivers a fully-functioning, multi-material, Pantone™ validated prototype 200% faster than traditional methods. -
The J850™ TechStyle™ 3D printer is powered by 3DFashion™ technology and provides full-color, multi-material capabilities for designs that can be printed directly to fabric, garments, footwear, and luxury accessories, delivering results that are not possible with traditional methods. -
Item Number:Neo450e / Neo450sThe Stratasys Neo450e is an affordable industrial-grade 3D printer producing small to medium parts with consistent accuracy and repeatability. The Neo450s offers performance and versatility along with all the benefits of Neo450e. -
Item Number:NEO800The open-system Stratasys Neo800 3D Printer uses Stereolithography (SL) technology to delivers high-quality parts with superior surface quality, accuracy, and detail at unprecedented speeds. -
The Objet30 system combines the accuracy and versatility of a high-end rapid prototyping machine with the small footprint of a desktop 3D printer at an affordable price.
